Issue 4 (December 2024)

Review

Graphene Oxide and Based Materials: Synthesis, Properties, and Applications – A Comprehensive Review  

Nosheen Farooq, Zohaib ur Rehman, Ayesha Hareem, Romaisa Masood, Rashida Ashfaq, Iqra Fatimah, Shahid Hussain, Sajid Ali Ansari, Nazish Parveen

Summary: This review explores the synthesis, properties, and applications of graphene oxide (GO) and related materials. It examines recent advancements, including improved Hummer’s techniques, and highlights the role of GO in energy storage, environmental remediation, sensors, electronics, and so on. The review also addresses current challenges and future research directions, providing a comprehensive resource for the development of GO-based technologies.

Graphene Oxide and Based Materials: Synthesis, Properties, and Applications – A Comprehensive Review  
Review | PUBLISHED ONLINE: 17 July 2024

MatSci Express 1(4), 185-231 (2024)

https://doi.org/10.69626/mse.2024.0185

Research Articles

Plant Mediated Synthesis of ZnO Nanoparticles Using Butea monosperma Plant Extract and Their Antibacterial Applications  

Tanika Thakur, Manish Kumar, Abhishek Walia, Deepika Kaushal

Summary: This research demonstrates the plant-mediated synthesis of ZnO nanoparticles using Butea monosperma extract. The synthesized nanoparticles, confirmed by various analytical techniques, show effective antibacterial properties against both gram-positive and gram-negative bacteria. This eco-friendly approach provides a viable method for producing potent antibacterial agents for biomedical and environmental applications.

Plant Mediated Synthesis of ZnO Nanoparticles Using Butea monosperma Plant Extract and Their Antibacterial Applications  
Research Article | PUBLISHED ONLINE: 17 July 2024

MatSci Express 1(4), 232-242 (2024)

https://doi.org/10.69626/mse.2024.0232
First principle investigation of Sr and Eu doped La2NiMnO6: Structural, Electronic, Optical, Magnetic, and Spintronics properties

S. Firdous, G. F. A. Malik, N. Parveen, F. A. Khanday, I. K. Pandey

Summary: The research uses Density Functional Theory (DFT) and LDA + U to analyze Sr and Eu-doped La₂NiMnO₆ (LNMO). The study finds that doping with Sr and Eu enhances the dielectric constant, optical conductivity, and magnetic properties of LNMO. These improvements make the doped material suitable for applications in energy storage, optoelectronics, and spintronics, highlighting its potential for technological advancements in these fields.

First principle investigation of Sr and Eu doped La2NiMnO6: Structural, Electronic, Optical, Magnetic, and Spintronics properties
Research Article | PUBLISHED ONLINE: 17 July 2024

MatSci Express 1(4), 243-252 (2024)

https://doi.org/10.69626/mse.2024.0243
Development and Modelling of a Photonic Crystal Fiber Sensor for Detecting Harmful Chemicals in Polycarbonate Plastics

Pratishtha Pandey, Sapana Yadav, D. K. Dwivedi, Pooja Lohia

Summary: A photonic crystal fiber (PCF) sensor with a wheel-shaped, floral-patterned cladding was developed to detect harmful chemicals in polycarbonate plastics. The sensor showed high sensitivities of 90.716% for BPS and 84.688% for BPA. It exhibited low confinement loss and high nonlinearity, making it suitable for chemical detection and other applications. The sensor’s design allows real-time, label-free detection, enhancing its utility in various sensing and photonic device applications.

Development and Modelling of a Photonic Crystal Fiber Sensor for Detecting Harmful Chemicals in Polycarbonate Plastics
Research Article | PUBLISHED ONLINE: 22 July 2024

MatSci Express 1(4), 253-261 (2024)

https://doi.org/10.69626/mse.2024.0253
Magnetoexciton in the Ellipsoidal Quantum Dots

Y.Y. Bleyan, S. Baskoutas, D.B. Hayrapetyan

Summary: This study theoretically investigates exciton states in strongly prolate GaAs ellipsoidal quantum dots under an external magnetic field using the variational method. It examines the effects of the magnetic field and quantum dot geometry on exciton energy, binding energies, and magnetization. The research also estimates the radiative lifetime of magnetoexcitons, revealing critical insights into how these factors influence excitonic behavior. The findings offer valuable guidance for optimizing quantum dot-based technologies in various applications.

Magnetoexciton in the Ellipsoidal Quantum Dots
Research Article | PUBLISHED ONLINE: 29 July 2024

MatSci Express 1(4), 262-268 (2024)

https://doi.org/10.69626/mse.2024.0262
Experimental Analysis of Thermal and Mechanical Properties of Mortar Incorporating Agricultural Waste Materials

Md Ehsanullah, Satyam Singh, Rohit Kumar

Summary: The study investigates the thermal and mechanical properties of mortar incorporating Rice Husk Ash (RHA) and Bagasse Ash (BA) as sustainable alternatives. Results show significant reductions in thermal conductivity and shrinkage, with improved mechanical strength in both conventional and geopolymer mortars. RHA and BA-based mortars demonstrated superior thermal performance, particularly at 15% sand replacement levels. The findings underscore the benefits of agro-waste in creating efficient, sustainable construction materials.

Experimental Analysis of Thermal and Mechanical Properties of Mortar Incorporating Agricultural Waste Materials
Research Article | PUBLISHED ONLINE: 01 August 2024

MatSci Express 1(4), 269-277 (2024)

https://doi.org/10.69626/mse.2024.0269
Modelling the Optical Properties of Gold Nanoparticles using COMSOL Multiphysics: Influence of Geometry, Environment, and Temperature

Tigran A. Sargsian, Maksim Ya. Vinnichenko, David B. Hayrapetyan

Summary: The study investigates the optical properties of gold nanoparticles (Au NPs) using COMSOL Multiphysics simulations, exploring the effects of geometry, environment, and temperature. Various shapes, including nanospheres, nanorods, and core/shell structures, were analyzed in different media, and the dielectric function was modeled as a function of size and temperature. Results showed that larger particle sizes and higher temperatures cause a red-shift in localized surface plasmon resonance (LSPR), offering insights for tailoring Au NP properties for applications like imaging and drug delivery.

Modelling the Optical Properties of Gold Nanoparticles using COMSOL Multiphysics: Influence of Geometry, Environment, and Temperature
Research Article | PUBLISHED ONLINE: 11 August 2024

MatSci Express 1(4), 278-290 (2024)

https://doi.org/10.69626/mse.2024.0278

Aims and Scope

MatSci Express

ISSN: 2997-8440

Welcome to MatSci Express (MSE), a distinguished journal committed to the prompt dissemination of top-tier research within the materials science domain.
We aim to establish a dynamic forum where scientists, scholars, and researchers can present their pioneering findings and breakthroughs. At MSE, we recognize the importance of interdisciplinary collaboration in pushing the boundaries of materials science. As such, our journal serves as a nexus for research endeavors spanning across the realms of science, engineering, and medicine, offering a comprehensive reference outlet for the global scientific community. Our publication unites the expertise of materials scientists, metallurgists, engineers, physicists, chemists, ceramicists, biologists, theoreticians, and technocrats, fostering a diverse and collaborative environment. With a focus on both fundamental and applied research, MSE is dedicated to exploring the latest frontiers of advanced materials. We strive to disseminate research that not only enhances our understanding of materials at a fundamental level but also contributes to practical applications and technological advancements. We welcome researchers and scholars worldwide to participate in MatSci Express, offering their expertise and discoveries to propel the field of materials science forward.

MatSci Express is committed to advancing the frontiers of knowledge in the field of materials science through the rapid dissemination of high-quality research. Our primary aim is to provide a dynamic platform for scientists, scholars, and researchers to share their latest findings and innovations, fostering collaboration and driving progress in materials science.

Aims:

  • To facilitate the swift dissemination of cutting-edge research within the materials science domain.
  • To offer researchers a stage to exhibit their breakthroughs and progress in the realm of materials science.
  • To nurture cross-disciplinary cooperation and facilitate the sharing of knowledge among scientists, engineers, and researchers.
  • To contribute to the advancement of materials science and its applications in various fields.

Scope: 

MSE covers a wide range of topics within the field of materials science, including but not limited to:

  • Advanced materials characterization techniques and methodologies.
  • Novel materials synthesis and processing methods.
  • Functional materials for electronics, photonics, energy storage, and conversion.
  • Biomaterials and their applications in medicine, healthcare, and biotechnology.
  • Nanomaterials, nanotechnology, and their implications in various industries.
  • Materials for sustainable development and environmental applications.
  • Computational materials science, modeling, and simulation.
  • Materials engineering, design, and optimization.
  • Additive manufacturing, 3D printing, and advanced manufacturing techniques.
  • Emerging trends, interdisciplinary research, and cross-cutting applications in materials science.

Objectives: 

Facilitate Interdisciplinary Collaboration: MSE serves as a nexus for research endeavors spanning across the realms of science, engineering, and medicine, fostering a collaborative environment among materials scientists, metallurgists, engineers, physicists, chemists, ceramicists, biologists, theoreticians, and technocrats.

Disseminate Cutting-Edge Research: MSE aims to rapidly disseminate high-quality research that contributes to significant scientific and technological breakthroughs in materials science. We welcome contributions that advance our understanding of materials at both fundamental and applied levels.

Promote Practical Applications: MSE is dedicated to exploring the latest frontiers of advanced materials, with a focus on research that not only enhances fundamental understanding but also contributes to practical applications and technological advancements.

Provide a Comprehensive Reference Outlet: MSE offers a comprehensive reference outlet for the global scientific community, providing researchers and scholars with access to a diverse range of research articles, reviews, and communications in the field of materials science.

As an interdisciplinary, peer-reviewed journal, MSE welcomes original research articles, reviews, communications, Perspective Articles, Editorials, and Letters to the Editor, pertinent to significant scientific and technological breakthroughs in materials science. We encourage contributions from researchers across diverse disciplines, including materials science, engineering, physics, chemistry, mathematics, biology, and related fields.

Join us in our mission to push the boundaries of materials science and contribute to the global scientific community through MatSci Express.

Authors Benefits

At MatSci Express, we strive to provide authors with a range of benefits to enhance their publishing experience and maximize the impact of their research. Here’s what authors can expect when publishing with us:

Rigorous and Rapid Peer-Review Process: We implement a rigorous and efficient peer-review system to uphold the caliber and integrity of published research. Our adept reviewers offer constructive critique to authors, enhancing the coherence and robustness of their contributions.

Swift Publication and Wide Dissemination: Authors can expect their work to be published swiftly after acceptance, ensuring rapid dissemination of their findings. Our journal has a wide reach, ensuring that research reaches a diverse audience of peers and stakeholders.

Immediate Citable Status: Upon publication, articles receive an immediate citable status, allowing authors to cite their work in other research endeavors without delay.

Open Access Policy: MatSci Express operates under an open access policy, meaning that all published articles are freely accessible to readers worldwide. This maximizes the visibility and impact of authors’ work and promotes knowledge sharing within the scientific community.

Comprehensive Media Promotion: We actively promote published articles through various media channels, including social media, newsletters, and academic networks. This helps increase the visibility of authors’ work and attract attention from researchers in relevant fields.

Continuous Access to Published Content: Authors and readers have continuous access to all published content, ensuring that research remains accessible and relevant over time.

Exceptional Customer Support: Our dedicated customer support team is available to assist authors throughout the publishing process. Whether authors have questions about manuscript submission, peer review, or publication, our team is here to provide timely and helpful assistance.

No Charges for Color figures: We do not impose any charges for the use of color in published figures and illustrations, allowing authors to present their findings in the most visually impactful way possible without additional cost.

Subject Covered(but not limited to):

MatSci Express encompasses a broad spectrum of topics within the domain of materials science, including:

Metallurgy and Ceramics: Investigation into the properties and behavior of metallic and ceramic materials at various scales.

Alloy Systems: Exploration of complex alloy systems, including high-entropy and shape memory alloys, with a focus on their structural and functional properties.

Non-crystalline Materials and Glass Science: Study of non-crystalline materials and glasses, delving into their atomic arrangements, properties, and applications.

Composite Materials: Analysis of composite materials comprising multiple phases, exploring their mechanical, thermal, and electrical characteristics.

Biomaterials and Dental Materials: Research on materials designed for biomedical and dental applications, focusing on biocompatibility, mechanical properties, and clinical performance.

Medical Materials: Investigation into materials utilized in medical devices, implants, and prosthetics, emphasizing biocompatibility, durability, and functionality.

Extreme Conditions Materials: Study of materials under extreme environments, such as high pressure, temperature, or radiation, to understand their behavior and stability.

Photovoltaic Materials and Devices: Research on materials used in solar cells, including perovskite, organic, and silicon-based materials, with a focus on efficiency and stability.

Artificial Photosynthesis: Exploration of materials and devices for artificial photosynthesis, aiming to harness solar energy for sustainable fuel production.

Energy Harvesting Technologies: Investigation into materials and devices for energy harvesting, including nanogenerators, piezoelectric materials, and thermoelectric devices.

Battery and Supercapacitor Materials: Research on materials for batteries and supercapacitors, focusing on energy storage capacity, cycling stability, and electrochemical performance.

Flow Batteries: Study of materials utilized in flow batteries, including electrode and electrolyte materials, for grid-scale energy storage applications.

Fuel Cell Technology: Research on materials for fuel cells, exploring catalysts, membranes, and electrode materials for efficient energy generation and conversion.

Catalytic Materials: Investigation into materials and processes for catalysis in energy-related applications, such as hydrogen production, carbon capture, and chemical synthesis.

Nanocomposites: Analysis of nanocomposite materials, incorporating nanoparticles or nanofillers into matrices for tailored properties and functionalities.

Two-dimensional (2D) Materials: Exploration of 2D materials and coatings, including graphene, transition metal dichalcogenides, and MXene, for various applications.

Applications of Nanomaterials: Investigation into the practical uses of nanomaterials and nanodevices across diverse domains including electronics, healthcare, environmental restoration, and sensor technology.

Bioactive Materials: Investigation into materials designed for biomedical applications, focusing on biocompatibility, bioactivity, and interaction with biological systems.

Correlated Electron Materials: Study of exotic correlated electron materials, such as superconductors and topological insulators, exploring their unique electronic properties and potential applications.

Photonics Materials: Research on materials for photonics and electromechanical devices, including photonic crystals, waveguides, and optoelectronic materials.

Quantum Materials: Exploration of quantum materials and devices, focusing on their quantum mechanical properties and potential applications in quantum information processing.

Information Device Physics: Investigation into the physics and engineering of information devices, including transistors, memory devices, and sensors, for computing and communication applications.

Smart Sensing Devices: Research on materials and devices for smart sensing applications, including sensors, actuators, and microelectromechanical systems (MEMS).

Materials Theory and Design: Theoretical studies and computational modeling of materials, including prediction, design, and optimization of materials properties and performance.

Utilization of Artificial Intelligence and Machine Learning: Implementations of AI and ML methodologies in materials science, encompassing data-driven exploration of materials, prediction of properties, and optimization strategies.

Materials Simulation Techniques: Computational techniques for simulating materials behavior, including molecular dynamics, Monte Carlo simulations, and density functional theory calculations.

Thermodynamic and Phase Diagram Calculations: Thermodynamic modeling and phase diagram calculations to predict phase stability, phase transitions, and material properties.

Interatomic Potentials and Force Fields: Development and application of interatomic potentials and force fields for simulating materials behavior and properties at the atomic scale.

Readership

MatSci Express appeals to a broad and diverse readership spanning across multiple disciplines and sectors. Our audience includes professionals and researchers from a wide array of fields, including materials science, chemistry, engineering, information science, electronics, physics, biology, energy science, environmental science, medicine, and pharmaceutical science. Our readership encompasses individuals from both academic institutions and industry, reflecting the interdisciplinary nature of materials science and its widespread applications in various sectors. Whether from academia or industry, our readers are keen to stay abreast of the latest advancements and discoveries in materials science, making MatSci Express their go-to resource for cutting-edge research and insights.

Editorial Board

Editorial Manager

Prof. Ahmad Umar

Department of Materials Science and Engineering

Ohio State University, Columbus, 43210 OH, USA

Email: umar.20@osu.edu

Editor-in-Chief

Prof. Sotirios Baskoutas

Department of Materials Science

University of Patras

Greece

Email: eicmatsci@upatras.gr 

Editors

Prof. P. Davide Cozzoli

University of Salento
Department of Mathematics and Physics “E. De Giorgi”, Lecce, Italy

 

Prof. Zhongchang WANG

School of Chemistry, Beihang University,

Beijing 100191, China

 

Prof. Yao Wang

South China Academy of Advanced Optoelectronics
South China Normal University
Guangzhou-510006, China

 

Prof. Michael Sigalas

Department of Materials Science, University of Patras, Greece

 

Prof. Wen Zeng

College of Materials Science and Engineering

Chongqing University, Chongqing, 400044, China

 

Dr. Savita Chaudhary

Department of Chemistry,

Panjab University, Panjab

India

 

Dr. Atresh Kumar Singh

Department of Chemistry, Deen Dayal Upadhyaya Gorakhpur University,

Gorakhpur, India

 

Dr. Dhammanand Jagdeo Shirale
Department of Electronics, School of Physical Sciences,

Kavayitri Bahinabai Chaudhari North Maharashtra University,

Jalgaon – 425001 (MS) India

 

Prof. Shahid Hussain

Department of Materials Science

Jiangsu University, China

 

Editorial Board Members

Prof. Zaiping Zeng

School of Materials Science and Engineering

Henan University, China

Prof. Nikolaos Bouropoulos

Department of Materials Science

University of Patras

Greece

Prof. David Hayrapetyan

Department of General Physics and Quantum Nanostructures

Russian-Armenian University, Armenia

Prof. Wolfram Schommers

Institute of Nanotechnology,

Karlsruhe, Germany

Prof. M. S. Akhtar

School of Computing, Department of Engineering

La Trobe University, Melbourne, Australia

Prof. Bon Heun Koo

School of Materials Science and Engineering,

Changwon National University, Changwon, South Korea

Dr. Suresh Sagadevan

Nanotechnology & Catalysis Research Centre

University of Malaya, 50603 Kuala Lumpur,

Malaysia.

Prof. Wenjuan Guo

School of Chemistry and Chemical Engineering, University of Jinan,

Jinan 250022, China

Prof. Hilal Tayara

School of International Engineering and Science

Jeonbuk National University, Republic of Korea

Prof. Georgios Psarras

Department of Materials Science

University of Patras

Greece

Dr. Sajid Ali Ansari

Department of Physics, College of Science

King Faisal University, Kingdom of Saudi Arabia

Prof. Dilip Kumar Dwivedi

Department of Physics and Material Science,

Madan Mohan Malaviya University of Technology,

Gorakhpur-273010, India

Dr. Sarish Rehman

McGill University, Department of Chemistry

Montreal, Canada

Dr. Abdullah Aljaafari

Department of Physics, College of Science

King Faisal University, Al-Ahsa, Kingdom of Saudi Arabia

Prof. Sadia Ameen

Advanced Materials and Devices Laboratory, Department of Bio-Convergence Science,

Jeongeup Campus, Jeonbuk National University, 56212, Republic of Korea

Dr. Nazish Parveen

Department of Chemistry, College of Science

King Faisal University, Kingdom of Saudi Arabia

Prof. Rajesh Kumar Yadav

Department of Chemistry and Environmental Science,

Madan Mohan Malaviya University of Technology,

Gorakhpur 273010, India.

Dr. Faheem Ahmed

Department of Applied Sciences and Humanities

Faculty of Engineering and Technology,

Jamia Millia Islamia, New Delhi-110025, India

Dr. Firoz Alam

Nanotechnology Laboratory,

University College London (UCL), London

Prof. Wenjuan Guo

School of Chemistry and Chemical Engineering,

University of Jinan, Jinan 250022, China.

Prof. Shalendra Kumar

University of Petroleum Energy Studies,

Dehradun, India

Dr. Mohd. Zahid Ansari

Chemical Engineering Program,

Texas A&M University at Qatar, Doha,

23874 Qatar

Dr. S. Stephen Rajkumar Inbanathan

Post graduate and Research Department of Physics

The American College, Madurai-625002, India

 

Prof. Igor Paprotny

Department of Electrical and Computer Engineering

University of Illinois, Chicago, USA

 

Prof. Hayk A. Sarkisyan

Department of General Physics and Quantum Nanostructures

Russian-Armenian University, Armenia

 

Prof. Fatih Ungan

Faculty of Science, Department of Physics,

Sivas Cumhuriyet University, Sivas, Turkey

 

Prof. Ioannis Lelidis

Department of Physics,

National and Kapodistrian University of Athens, Greece

 

Dr. Esam Bashir Yahya

Bioprocess Technology Division, School of Industrial Technology,

Universiti Sains Malaysia, Malaysia

 

Dr Paytsar A Mantashyan,

Department of General Physics and Quantum Nanostructures

Russian-Armenian University, Armenia

 

Dr. Rasool Shah

Department of Computer Science and Mathematics,

Lebanese American University,

Beirut Lebanon

 

Prof. Hong Seok Kang

Department of Nano & Advanced Materials,

Jeonju University, SOUTH KOREA

 

Prof. Maria Antoniadou

Department of Chemical Engineering

University of Western Macedonia, Greece

 

Prof. Yongfeng Shen

School of Materials Science and Engineering,

Northeastern University, P.R. China

 

Prof. Lijun Shang

School of Human Sciences,

London Metropolitan University, London, United Kingdom

 

Prof. Raffaele Barretta
Coordinator of the AIMETA Group of Multiscale Mechanics and Nanostructures (GAMeN)
Department of Structures for Engineering and Architecture
University of Naples Federico II, Naples, Italy

 

Prof. Vassilios Mardiris
Department of Management Science and Technology,
Democritus University of Thrace, Greece

 

Prof. Yang Luo
North China Electric Power University,
Beijing, China

 

Dr. Wang Yinglin
School of Aerospace Science and Technology,
Xidian University, China

 

Dr. Lalla Btissam DRISSI
LPHE-Modeling and Simulations, Department of Physics,
Faculty of Science, and Centre of Physics and Mathematics,
Mohammed V University in Rabat, Morocco

 

Dr. Halit ÇAVUŞOĞLU
Selçuk Üniversitesi, Fen Fakültesi Fizik Bölümü
Alaeddin Keykubat Kampüsü, Konya, TÜRKİYE

 

Dr. Limin Ma
Lanzhou Institute of Chemical Physics,
Chinese Academy of Sciences, China

 

Dr. Sanjay Kumar Swami
Department of Physics, School of Engineering,
Dayananda Sagar University, India

 

Dr. Krishna Chaitanya Pitike
Nuclear Sciences Division,
Pacific Northwest National Laboratory, USA

 

Dr. Joginder Singh
Maharishi Markandeshwar, Mullana, Haryana
India

 

Dr. Heah Cheng Yong
Mechanical Engineering and Technology,
Universiti Malaysia Perlis, Malaysia

 

Dr. Konstantinos Zekentes
Institute of Electronic Structure & Laser (IESL)
Foundation for Research & Technology Hellas (FORTH)
Heraklion, Crete, Greece

 

Dr. Avtar Singh
Research and Development, Molekule Inc, Tampa, Florida, USA

 

Prof. Stefania Pagliara
Interdisciplinary Laboratories for Advanced Materials Physics (i-Lamp)
Dipartimento di Matematica e Fisica,
Università Cattolica del Sacro Cuor, Brescia, Italy

 

Dr. Rajeev Kumar
Department of Environment Studies,
Panjab University, Chandigarh, India

 

Dr. Sofia Evangelou
Department of Electrical and Computer Engineering,
Technical University of Crete, Greece

Guide to Authors

Welcome to MatSci Express (MSE), a distinguished journal dedicated to promptly disseminating top-tier research in materials science. MSE strives to push the boundaries of knowledge in this field through the rapid dissemination of high-quality research. Our primary goal is to offer a dynamic platform for scientists, scholars, and researchers to exchange their latest findings and innovations, promoting collaboration and advancing materials science.

To ensure a seamless submission process and uphold the highest standards of publication ethics, authors are encouraged to adhere to the following comprehensive guidelines. Adhering to these guidelines ensures clarity, consistency, and adherence to best practices in manuscript preparation, ultimately contributing to the quality and impact of the published work in MatSci Express (MSE).

Journal Policy:

Authors are required to strictly adhere to the Journal Policy of MatSci Express (MSE) to uphold the integrity and authenticity of published research. MSE maintains a rigorous standard of accepting only original and unpublished work. Manuscripts submitted to MSE must not contain any text, data, figures, tables, or materials that have been previously reported or published elsewhere, in any format or medium. Upon submission, authors must affirm that their research is entirely original and has not been published previously. Any attempt to submit redundant or duplicate publications will result in immediate editorial action, including manuscript rejection. Authors bear the responsibility of ensuring that their manuscripts are new, original, and devoid of plagiarism, fraud, or improper attribution. Reproducing or modifying previously published abstracts or papers, whether in conferences or journals, is strictly prohibited. The corresponding author is required to provide a clear statement affirming the originality and unpublished status of the manuscript during submission. They must confirm that the manuscript has not been published, either partially or entirely, in any language, format, or medium, and that it does not violate the copyrights of others.

General Information

Types of articles

Journal welcomes the publication of various types of articles:

Original Research Articles: These articles present novel research findings, methodologies, or theoretical frameworks in the field of materials science. Original research articles are not restricted by word count, except for the abstract, which must adhere to a 250-word limit. Authors are encouraged to present their content concisely in accordance with the journal’s standards. Original research articles typically include sections such as Introduction, Methods, Results, Discussion, and Conclusion. Maximum number of allowed figures for Original research articles are 15.

Review Articles: State-of-the-art review articles provide comprehensive summaries and analyses of existing research literature on specific topics within materials science. They often offer insights into recent advancements, current trends, and future directions in the field. Review articles have no restrictions on page limits and should include a table of contents. Authors are encouraged to provide biographies and photos for all contributors following the reference section. It is imperative to cite proper references in the captions of all previously published figures, tables, and illustrations, including the authors’ own work. Furthermore, authors must obtain copyright permissions from relevant publishers and authors.

Short Communications: Short communications are concise research articles that present significant findings or preliminary results in a brief format. They provide a rapid means of sharing important discoveries with the scientific community. Short communications are concise and should not surpass 2500 words, encompassing elements such as the title page, author affiliations, abstract, keywords, main text, table and figure captions, acknowledgments, and so on. The reference section is excluded from the word count limit. Additionally, short communications should include no more than 20 references.

Perspective Articles: Perspective articles offer personal viewpoints, opinions, or reflections on key issues, debates, or emerging trends in materials science. They provide insights from experts in the field and stimulate discussion among researchers. Normally, the perspective articles are invited by the journal editors.

Editorials: Editorials are written by the editorial board or guest editors and provide introductions, commentary, or reflections on the content featured in a specific issue of the journal. They may also highlight important developments or initiatives in the field.

Letters to the Editor: Letters to the editor allow readers to communicate feedback, comments, or questions regarding published articles or other aspects of the journal. They provide a platform for scholarly discourse and engagement with the journal’s content.

Subjects Covered (but not limited to):

MatSci Express encompasses a broad spectrum of topics within the domain of materials science, including:

Metallurgy and Ceramics: Investigation into the properties and behavior of metallic and ceramic materials at various scales.

Alloy Systems: Exploration of complex alloy systems, including high-entropy and shape memory alloys, with a focus on their structural and functional properties.

Non-crystalline Materials and Glass Science: Study of non-crystalline materials and glasses, delving into their atomic arrangements, properties, and applications.

Composite Materials: Analysis of composite materials comprising multiple phases, exploring their mechanical, thermal, and electrical characteristics.

Biomaterials and Dental Materials: Research on materials designed for biomedical and dental applications, focusing on biocompatibility, mechanical properties, and clinical performance.

Medical Materials: Investigation into materials utilized in medical devices, implants, and prosthetics, emphasizing biocompatibility, durability, and functionality.

Extreme Conditions Materials: Study of materials under extreme environments, such as high pressure, temperature, or radiation, to understand their behavior and stability.

Photovoltaic Materials and Devices: Research on materials used in solar cells, including perovskite, organic, and silicon-based materials, with a focus on efficiency and stability.

Materials Tailored for Artificial Photosynthesis: Research in this area explores materials and catalysts used in artificial photosynthesis, a process that mimics natural photosynthesis to produce fuels and chemicals from sunlight, water, and carbon dioxide. Exploration of materials and devices for artificial photosynthesis, aiming to harness solar energy for sustainable fuel production.

Technologies and Materials Used for Energy Harvesting: This category encompasses research on materials and devices used to harvest energy from various sources, such as mechanical vibrations, thermal gradients, and electromagnetic radiation, for applications in self-powered electronics, sensors, and wearable devices.

Thermoelectric Devices and Materials: Thermoelectric materials convert temperature differences into electrical voltage and vice versa. Research in this area focuses on discovering new thermoelectric materials with high efficiency and exploring their applications in waste heat recovery and solid-state cooling.

Materials for Batteries and Supercapacitors: This category covers research on materials used in rechargeable batteries and supercapacitors, including electrode materials, electrolytes, and separators. Studies aim to improve energy storage capacity, cycling stability, and safety of battery and supercapacitor systems.

Battery Technologies like Flow Batteries: Flow batteries are a type of rechargeable battery in which electrolyte solutions are stored externally in tanks and circulated through the battery cells during charging and discharging. Research in this area focuses on developing new electrolyte chemistries, electrode materials, and cell designs to enhance the performance and scalability of flow battery systems.

Fuel Cell Technology and Related Electrode and Catalyst Materials: Fuel cells are electrochemical devices that convert chemical energy into electrical energy through the reaction between a fuel and an oxidant. Research in this area explores materials and catalysts used in fuel cells to improve efficiency, durability, and cost-effectiveness.

Electrolysis-Related Materials: Electrolysis is a process that uses electricity to drive a non-spontaneous chemical reaction, such as splitting water into hydrogen and oxygen gases. Research in this area focuses on developing materials for electrolysis cells, including electrolytes, electrodes, and membrane separators, to enhance efficiency and reduce energy consumption.

Catalytic Materials and Processes for Energy Generation, Conversion, and Storage: Catalytic materials play a crucial role in energy-related processes, such as hydrogen production, fuel synthesis, and pollutant removal. Research in this area aims to design and optimize catalysts for improved activity, selectivity, and stability in energy conversion and storage applications.

Nanocomposites: Nanocomposites are materials composed of nanoparticles dispersed in a matrix material. Research in this area explores the synthesis, characterization, and application of nanocomposites in various fields, including electronics, aerospace, automotive, and biomedical engineering.

2D Materials and Coatings: 2D materials, such as boron nitride, transition metal dichalcogenides, graphene, and so on have unique properties due to their atomically thin structure. Research in this area focuses on the synthesis, characterization, and application of 2D materials and coatings in electronics, photonics, and energy storage devices.

Utilization of Nanomaterials and Nanodevices in Various Fields: Nanomaterials and nanodevices have diverse applications in fields such as electronics, medicine, environmental remediation, and sensors. Research in this area explores novel nanomaterial-based technologies and their impact on various industries.

Bioactive Materials: Investigation into materials designed for biomedical applications, focusing on biocompatibility, bioactivity, and interaction with biological systems.

Correlated Electron Materials: Study of exotic correlated electron materials, such as superconductors and topological insulators, exploring their unique electronic properties and potential applications.

Photonics Materials: Research on materials for photonics and electromechanical devices, including photonic crystals, waveguides, and optoelectronic materials.

Quantum Materials: Exploration of quantum materials and devices, focusing on their quantum mechanical properties and potential applications in quantum information processing.

Information Device Physics: Investigation into the physics and engineering of information devices, including transistors, memory devices, and sensors, for computing and communication applications.

Smart Sensing Devices: Research on materials and devices for smart sensing applications, including sensors, actuators, and microelectromechanical systems (MEMS).

Materials Theory and Design: Theoretical studies and computational modeling of materials, including prediction, design, and optimization of materials properties and performance.

Utilization of Artificial Intelligence and Machine Learning: Implementations of AI and ML methodologies in materials science, encompassing data-driven exploration of materials, prediction of properties, and optimization strategies.

Materials Simulation Techniques: Computational techniques for simulating materials behavior, including density functional theory (DFT) calculations, molecular dynamics, Monte Carlo simulations, and so on.

Thermodynamic and Phase Diagram Calculations: Thermodynamic modeling and phase diagram calculations to predict phase stability, phase transitions, and material properties.

Interatomic Potentials and Force Fields: Development and application of interatomic potentials and force fields for simulating materials behavior and properties at the atomic scale.

Quick Guide to Authors

Welcome to MatSci Express! Below is a guide to assist authors in preparing and submitting their manuscript:

Manuscript Preparation:

Originality: Ensure the novelty of the manuscript by verifying that it unveils original research findings that have not been previously published or are concurrently under review for publication elsewhere.

Formatting: Follow our formatting guidelines closely. Manuscripts should be formatted according to the journal’s template, including font size, style, margins, and line spacing.

Title and Abstract: Craft a concise and informative title that accurately reflects the content of your manuscript. Provide an abstract summarizing the key findings and significance of your research.

Keywords: Incorporate a set of keywords that succinctly encapsulate the principal subjects and themes explored in your manuscript, facilitating its searchability and indexing.

Introduction: Provide a clear and compelling introduction that outlines the background, objectives, and significance of your research.

Materials and Methods: Describe the materials, experimental setup, and methodologies used in your study in sufficient detail to allow reproducibility by other researchers.

Results and Discussion: Present your results objectively and comprehensively. Interpret the findings and discuss their implications within the context of existing literature.

Conclusions: Concisely outline the primary findings of the research and deliberate on their wider implications.

References: Cite relevant literature accurately and consistently. Ensure that all sources are properly cited and listed in the reference section.

Submission Process:

Online Submission: Utilize the online submission platform to submit the manuscript, adhering to the guidelines outlined on the website. Make sure to follow the prescribed TEMPLATE for file submission.

Cover Letter: Write a brief cover letter introducing your manuscript to the editorial team. Highlight the significance of your research and its contribution to the field of materials science.

Manuscript Files: Upload your manuscript files, including the main text, figures, tables, and any supplementary materials, using the online submission system. Make sure to follow the designated TEMPLATE for file submission.

Review Process:

Editorial Evaluation: Upon submission, your manuscript will undergo an initial editorial evaluation to ensure that it meets the journal’s criteria for scope, originality, and quality

Peer Review Process: If deemed suitable for further consideration, your manuscript will be sent for peer review. Experts in the field will evaluate the scientific merit, methodology, and significance of your research.

Reviewer Feedback: You will receive feedback from the peer reviewers, which may include suggestions for revisions or clarifications. Address any comments or concerns raised by the reviewers in a timely manner.

Decision Process:

Editorial Decision: Based on the peer reviewers’ feedback and the manuscript’s overall suitability for publication, the editorial team will make a decision regarding acceptance, rejection, or the need for revisions.

Notification: You will be notified of the editorial decision via email. If revisions are requested, you will receive detailed instructions on how to address the reviewers’ comments.

Revisions (if applicable): Revise your manuscript according to the feedback provided by the peer reviewers and the editorial team. Make sure to submit the revised manuscript within the specified timeframe.

Publication Process:

Final Approval: Once your revised manuscript is submitted, it will undergo a final review to ensure that all revisions have been addressed satisfactorily.

Proofreading: You will receive proofs of your manuscript for final approval before publication. Review the proofs carefully for any errors or inaccuracies.

Publication: Upon final approval, your manuscript will be published online in MatSci Express. You will receive information about the publication date and a link to access your published article.

Open Access: MatSci Express follows an open access policy, making your research freely available to readers worldwide. Your published article will be accessible on the journal’s website, maximizing its impact and visibility in the scientific community.

Submission Checklist

Designate a corresponding author: A corresponding author with full contact details (Email, Phone, Full postal address) should be provided.

Uploaded Files: Ensure that all necessary files have been uploaded, including:

  • Graphical Abstract (Colored graphical figure with short description of the work)
  • Research Highlights (3-5 bullet points)
  • Cover Letter
  • Manuscript file which include
    • Title page including manuscript title, authors names and their affiliations, corresponding author name, email, phone number, and postal address.
    • Abstract
    • Keywords
    • Text
    • Figures with appropriate captions and proper citation inside the main text
    • Tables with appropriate captions and proper citation inside the main text
    • Acknowledgements, if applicable
    • Conflict of Interest Statement
    • Authors contribution statement
    • References (All references should be cited in the main text as mentioned in the reference list)
    • Supplementary files, if applicable.
  • A list of 3 reviewers should be provided who might review the manuscript.
  • Manuscript should be prepared in correct English language. Spell and grammar checked should be done before the submission
  • Permission should be obtained for the copyrighted material from the original source, if applicable.

Manuscript Preparation:

General Information

Language and Submission Method: Manuscripts should be written in English and submitted electronically through our online submission system. This facilitates efficient processing and review.

Formatting Guidelines: Authors should strictly adhere to the journal’s formatting guidelines, available in the Manuscript Template downloadable from our website. These guidelines ensure consistency and adherence to publication standards.

Clarity and Organization: Manuscripts should be concise, well-organized, and written with clarity. This enhances readability and understanding of the research presented, contributing to the overall quality of the publication.

Abbreviations: In instances where abbreviations are not commonly recognized within the field, it is imperative to define them in a footnote on the first page of the article. Additionally, any abbreviations deemed necessary in the abstract should be defined at their initial mention within the abstract itself and reiterated in the footnote. Consistency in the use of abbreviations throughout the article is crucial for clarity and comprehension. Therefore, authors should ensure uniformity in the application of abbreviations across all sections of the manuscript.

Nomenclature and Units: Adhering to internationally accepted rules and conventions is paramount when presenting nomenclature and units within a manuscript. The use of the International System of Units (SI) is strongly recommended. In cases where other units or quantities are referenced, it is essential to provide their equivalents in SI units. Authors are encouraged to consult authoritative sources such as the International Union of Pure and Applied Chemistry (IUPAC) Nomenclature of Organic Chemistry for comprehensive guidance on nomenclature conventions. By following these standards, authors ensure consistency, accuracy, and adherence to established scientific practices.

Title Page: Each submission should include a title page containing essential information:

Names and Affiliations of All Authors: Provide the full names and institutional affiliations of all contributing authors.

Corresponding Author’s Contact Information: Include the contact details of the corresponding author, such as email address and affiliation. This facilitates communication throughout the submission and review process.

Manuscript Structure

The manuscript structure outlined here provides a systematic framework for organizing and presenting research findings in a clear, coherent, and comprehensive manner. Each section plays a distinct yet interconnected role in communicating the research process, outcomes, and implications to the scientific community.

Title of the Manuscript: The title should accurately reflect the content and focus of the research.

Abstract: A succinct and informative abstract is necessary for any research manuscript. It should succinctly outline the research’s objectives, key findings, and principal conclusions. Since abstracts are often read independently of the full article, they must effectively summarize the study’s essence. Authors should refrain from using non-standard or uncommon abbreviations. If unavoidable, such abbreviations must be defined upon their first mention within the abstract itself to ensure clarity and comprehension. Thus, a concise and informative abstract, not exceeding 250 words, should be included.

Keywords: Authors are encouraged to provide 3-5 keywords below the abstract to facilitate indexing and enhance the discoverability of the manuscript. Carefully selected keywords improve the visibility of the publication in relevant databases and search engines.

Introduction: The introduction serves as the gateway to the research, providing readers with a concise yet comprehensive overview of the study’s background, objectives, and significance. It lays the groundwork for the research by presenting relevant literature, defining the research problem, and clearly stating the study’s aims and objectives. By contextualizing the research within the broader scientific landscape, the introduction sets the stage for the subsequent sections of the manuscript.

Experimental Section: The experimental section provides a detailed account of the materials, methods, and procedures employed in the study. It offers sufficient information to enable reproducibility, allowing other researchers to replicate the experiments and validate the findings. Authors should meticulously describe the experimental setup, including any equipment or instruments used, as well as the procedures followed to collect and analyze data. Clear and precise documentation of the experimental methodology enhances the transparency and credibility of the research.

Results and Discussion: In the results and discussion section, authors present the outcomes of the study and critically analyze their implications. This section is where the research findings are showcased, often through the use of tables, figures, and graphs. Authors should interpret the results in the context of existing literature, highlighting any significant trends, patterns, or deviations observed. Discussion of the findings should delve into their broader implications, addressing how they contribute to advancing scientific knowledge and understanding. This section may also encompass comparisons with previous studies, explanations for unexpected results, and suggestions for future research directions.

Conclusion: The conclusion encapsulates the main findings of the study and emphasizes their significance in relation to the research objectives. It provides a concise summary of the key findings, reiterating the main points discussed in the results and discussion section. Authors may also offer insights into the practical implications of the research and propose avenues for further investigation. By synthesizing the study’s outcomes, the conclusion reinforces the study’s contribution to the field and underscores its relevance and potential impact.

Figures: In the realm of academic publishing, figures serve as vital tools for visually communicating complex data and findings. To ensure their effectiveness, figures should adhere to rigorous standards of quality and clarity. The resolution for all figures should not be less than 300 dpi.

High-Quality Presentation: Figures should be meticulously crafted to uphold a standard of excellence in visual representation. Clear imaging and precise labeling are essential to facilitate comprehension and interpretation by readers. Authors should prioritize the creation of visually appealing and informative figures that enhance the overall professionalism of the manuscript.

File Format and Resolution: Authors must adhere to specific file format and resolution requirements when submitting figures. Figures should be provided in TIFF, JPEG, or EPS format to ensure compatibility with the publication process. Additionally, figures must maintain a minimum resolution of 300 dots per inch (dpi) to guarantee optimal clarity and legibility. Compliance with these standards ensures seamless integration of figures into the manuscript and enhances their visual impact.

Tables: Tables play a fundamental role in organizing and presenting data in a structured and accessible format. Proper formatting and presentation of tables are essential to facilitate understanding and interpretation by readers.

Editability and Format: Authors are advised to ensure that tables are editable and provided in DOC or DOCX format. This enables ease of access and manipulation, allowing for efficient formatting adjustments or updates as necessary. Providing tables in editable formats enhances their usability and facilitates any necessary revisions or modifications during the publication process.

Clarity and Organization: Tables should be meticulously organized and clearly labeled to facilitate easy comprehension by readers. Authors should employ concise and informative table titles and headings, ensuring that data are presented logically and coherently. Clear formatting and consistent use of fonts and styles contribute to the overall professionalism and readability of the tables within the manuscript.

Reference style:

References in the manuscript must adhere to the Harvard style, presented on a dedicated page and numbered in accordance with their appearance in the text. Numerical citations in the text should be enclosed within brackets [ ], corresponding to the sequential order of references listed at the end of the manuscript. The formatting for listing references follows the Harvard Referencing format. Example for the references are as follows:

Journal Articles:

[1] Li, Y., Min, J., Jiang, Y., Dong, T., Xu, D., Feng, Z., Yan, Y., Garoufalis, C.S., Baskoutas, S., Shen, H. and Zeng, Z., 2024. Rational Design of Tetrahedral Derivatives as Efficient Light-Emitting Materials Based on “Super Atom” Perspective. Nano Letters24(10), pp.3237-3242.

Book:

[1] Andrews, D., Nann, T. and Lipson, R.H., 2019. Comprehensive Nanoscience and Nanotechnology. Academic press.

Book Chapters:

[1] Benelmekki, M. and Erbe, A., 2019. Nanostructured thin films–background, preparation and relation to the technological revolution of the 21st century. In Frontiers of Nanoscience (Vol. 14, pp. 1-34). Elsevier.

For Patents:

[1] Rogers, J.A., Rockett, A.A., Nuzzo, R., Yoon, J. and Baca, A., University of Illinois, 2015. Arrays of ultrathin silicon solar microcells. U.S. Patent 9,105,782.

Instructions to prepare Graphical Abstract

Authors are required to submit a graphical abstract along with the manuscript for publication in the journal. A graphical abstract serves as a visual summary of the article, providing readers with a quick overview of the research findings. Below are guidelines on how to prepare a graphical abstract and the limitations for its description:

Preparing a Graphical Abstract:

Content: Graphical abstract should highlight the key points of the research, including the main objectives, methodologies, and significant findings.

Design: Preferably, use color to enhance the visual appeal of the graphical abstract. Ensure that the design is clear, concise, and visually engaging.

Size: The maximum dimensions for the graphical abstract should be 4 cm (Height) X 10 cm (Width).

Resolution: Maintain a resolution of at least 300 dots per inch (dpi) to ensure clarity and legibility.

Submission: Submit the graphical abstract as a separate file along with the manuscript during the submission process.

Limitations for the Description of the Graphical Abstract:

Length: The description accompanying the graphical abstract should be concise and limited to a maximum of 20 words.

Content: Focus on conveying the unique aspects and key findings of the research within the limited word count.

Clarity: Ensure that the description provides a clear and accurate summary of the graphical abstract, enabling readers to grasp the essence of the research at a glance.

We encourage authors to adhere to these guidelines to create an effective graphical abstract that complements your manuscript.

Ethical Compliance:

Authors submitting manuscripts to our journal are expected to adhere to high ethical standards throughout the research process. This includes but is not limited to ensuring that the research conducted is in compliance with relevant ethical guidelines and regulations, obtaining necessary approvals from institutional review boards or ethics committees, and obtaining informed consent from participants when applicable. Authors should also disclose any potential conflicts of interest, including sources of funding or any affiliations that may influence the interpretation of the research findings.

Authors Contribution Statement:

In the Authors Contribution Statement, authors are required to clearly outline the specific contributions of each individual involved in the research project. This may include conceptualization, methodology, data collection and analysis, writing, editing, and review of the manuscript. Each author should provide a brief description of their role in the study to ensure transparency and accountability in authorship.

Informed Consent Statement:

Authors conducting research involving human subjects are obligated to obtain informed consent from participants prior to their involvement in the study. The Informed Consent Statement should detail the procedures followed to obtain consent, including information provided to participants about the purpose of the study, risks and benefits, confidentiality, and their right to withdraw participation at any time. Authors should also specify whether written or verbal consent was obtained and provide assurance that participants’ rights were respected throughout the research process.

Acknowledgements:

The Acknowledgements section provides authors with the opportunity to express gratitude to individuals or organizations that contributed to the research project but do not meet the criteria for authorship. This may include funding agencies, research assistants, technical support staff, or colleagues who provided valuable feedback or assistance. Authors should ensure that all individuals acknowledged have granted permission to be included in the Acknowledgements section.

Conflict of Interest:

Authors must declare any potential conflicts of interest that could be perceived as influencing the research process or the interpretation of the findings. This may include financial interests, employment affiliations, consulting arrangements, or personal relationships that could bias the results or create the perception of bias. Authors should provide a clear statement indicating any conflicts of interest and describe how they were managed throughout the research process to maintain integrity and objectivity.

Authorship Changes:

Authors are strongly advised to carefully deliberate the composition and sequence of authors before submitting their manuscript. The final roster of authors should be furnished upon initial submission. Any modifications to the authorship—whether additions, deletions, or reordering—must be proposed prior to the manuscript’s acceptance and necessitate approval from the Editor. To initiate an authorship change, the corresponding author must furnish the Editor with the following: (a) A comprehensive rationale for the proposed alteration in the author list. (b) Written confirmation, such as an email or letter, from all authors endorsing the addition, removal, or reordering of authors. In cases of additions or removals, consent from the affected author is also mandated. Exceptions to this protocol are granted sparingly. Requests for authorship adjustments post-acceptance will be evaluated by the Editor, albeit only under extraordinary circumstances. Throughout the deliberation process, publication of the manuscript will be temporarily halted. In instances where the manuscript has already been published online, any approved changes will be accompanied by a corrigendum.

Guide for Reviewers and Editors

Guide to Reviewers: MatSci Express

Welcome to the Instructions for Reviewers for MatSci Express. As a valued reviewer, your expertise and insights play a crucial role in maintaining the quality and integrity of the journal’s publications. Your thorough evaluation and constructive feedback are instrumental in shaping the direction of scientific discourse in the field of materials science. Below are guidelines to assist you in conducting a comprehensive review of manuscripts submitted to MatSci Express.

Confidentiality: As a reviewer for MatSci Express, it’s crucial to maintain the confidentiality of the manuscripts you’re assigned to review. This means refraining from discussing the content of the manuscripts with anyone other than the editorial office. By upholding confidentiality, you contribute to the integrity of the peer review process.

Timeliness: Time is of the essence in the peer review process. Reviewers are expected to evaluate manuscripts promptly and submit their reports within the specified deadline. If circumstances arise that prevent you from meeting the deadline, it’s important to communicate with the editorial office and request an extension in advance.

Constructive Feedback: Reviewers play a pivotal role in providing constructive feedback to authors. When assessing manuscripts, focus on identifying both strengths and weaknesses. Your comments should be specific, objective, and aimed at helping authors improve their work. Point out areas where the manuscript excels and areas where it could be enhanced.

Originality and Ethical Standards: Evaluate the originality of the research presented in the manuscript and ensure that it meets ethical standards. Verify that proper citations are provided for previously published work and assess whether the research has been conducted in accordance with ethical guidelines and regulations.

Content Evaluation: Dive deep into the content of the manuscript and evaluate its significance, novelty, and scientific rigor. Scrutinize the methodology used, the interpretation of results, and the contribution the research makes to the field. Your evaluation should be thorough and objective, focusing on the scientific merit of the work.

Clarity and Presentation: Assess the clarity and organization of the manuscript. Consider factors such as the writing style, structure, and coherence of the presentation. Provide feedback on how the manuscript could be improved to enhance clarity and readability for readers.

Recommendation: Based on your evaluation, make a recommendation regarding the manuscript’s fate—whether it should be accepted, revised, or rejected. Justify your recommendation with specific comments and suggestions for improvement. Your recommendation will be instrumental in guiding the editorial decision-making process.

Conflicts of Interest: Be transparent about any potential conflicts of interest that may influence your review. If you have personal or professional connections to the authors or their research, disclose them to the editorial office. If you feel that a conflict of interest may compromise your impartiality, notify the editorial office immediately.

Respectful Communication: Maintain professionalism and respect in all communications related to the peer review process. Avoid personal or derogatory remarks and focus solely on the scientific content of the manuscript. Your goal is to provide feedback that is helpful and constructive, regardless of your recommendation.

Final Decision: Your review will be considered alongside those of other reviewers by the editorial team to make a final decision on the manuscript. Your feedback is invaluable in ensuring the quality and integrity of the research published in MatSci Express. Thank you for your dedication to the peer review process.

Guide to Editors: MatSci Express

Welcome to the comprehensive Guide to Editors for MatSci Express. As an editor for our esteemed journal, your pivotal role revolves around ensuring the quality, integrity, and timely dissemination of groundbreaking research within the realm of materials science. This detailed guide is designed to equip you with the necessary instructions and best practices to navigate the editorial process with proficiency and efficacy. Your dedication and commitment as an editor are invaluable to the success and reputation of MatSci Express.

Editorial Workflow:

  • Your initial task involves the meticulous assignment of suitable reviewers, drawing upon their expertise and availability to ensure thorough and insightful assessments.
  • Efficiently manage the peer review process by overseeing the timely completion of reviews and judiciously evaluating reviewer comments to make informed editorial decisions.
  • Maintain proactive communication with authors throughout the review process, providing updates, guidance, and constructive feedback as required.
  • Thoughtfully evaluate the feedback provided by reviewers and exercise sound judgment in determining manuscript acceptance, revision, or rejection, upholding the journal’s standards of excellence.

Manuscript Handling:

  • Uphold the journal’s submission guidelines rigorously, ensuring that submitted manuscripts adhere to formatting requirements and ethical standards.
  • Conduct a comprehensive initial assessment of manuscripts to ascertain their suitability for peer review, considering factors such as novelty, relevance, and scientific rigor.
  • Effectively manage revisions and resubmissions, facilitating productive interactions between authors and reviewers to address queries, concerns, or suggestions for improvement.
  • Strive for consistency and rigor in the editorial process, upholding the journal’s reputation for scholarly excellence and integrity.

Ethical Considerations:

  • Familiarize yourself thoroughly with the journal’s policies on plagiarism, authorship, conflicts of interest, and ethical conduct, ensuring strict adherence to established guidelines.
  • Promptly address any instances of ethical misconduct or concerns, conducting impartial investigations and implementing appropriate measures in accordance with established procedures.
  • Maintain the utmost confidentiality throughout the editorial process, safeguarding the anonymity of reviewers and respecting the privacy of authors to uphold the integrity of the peer review process.

Collaboration and Communication:

  • Foster a collaborative and supportive environment conducive to constructive dialogue and scholarly exchange among authors, reviewers, and editorial board members.
  • Encourage open communication and facilitate constructive feedback to foster continuous improvement in manuscript quality and scientific rigor.
  • Serve as a liaison between authors and reviewers, facilitating effective communication and resolution of any conflicts or misunderstandings that may arise during the editorial process.

Continuous Improvement:

  • Stay abreast of the latest developments and advancements in the field of materials science and scholarly publishing, adapting editorial practices to reflect evolving standards and expectations.
  • Solicit feedback from authors, reviewers, and colleagues to identify areas for improvement and implement changes that enhance the efficiency, transparency, and effectiveness of the editorial process.
  • Strive for continuous improvement in all aspects of editorial management, contributing to the enhancement of the journal’s reputation and impact within the scientific community.

Publication Ethics

At MatSci Express, published by Ariston Publications, we uphold the highest ethical standards in scientific publishing to ensure the integrity, credibility, and trustworthiness of the research we disseminate. Our commitment to ethical practices extends across all stages of the publication process, from manuscript submission to post-publication dissemination. Our publication ethics policies are designed to guide authors, reviewers, editors, and all stakeholders involved in the publishing process. Adherence to these ethical principles is paramount to maintain transparency, fairness, and trust in scholarly communication.

1. Authorship and Author Responsibilities:

Authors are expected to adhere to the following ethical principles:

Authorship Criteria:

  • Authorship eligibility hinges upon significant contributions to conceiving, designing, executing, or interpreting the research study.
  • All contributors with substantial involvement in the work merit authorship recognition, while those offering support or assistance without meeting authorship criteria should be acknowledged accordingly.
  • Authors are required to reveal any potential conflicts of interest that could impact the research process or the interpretation of the results.

Originality and Plagiarism:

  • Authors bear the responsibility of verifying the originality of their work and confirming that it has not been previously published or is under consideration elsewhere for publication.
  • Any form of plagiarism, including self-plagiarism, is unacceptable and will lead to immediate rejection or retraction.
  • Any form of plagiarism, whether it involves directly copying text, ideas, or data without appropriate acknowledgment, is strictly forbidden.
  • Editors utilize plagiarism detection software to screen submitted manuscripts and address any suspected cases of plagiarism promptly.

Conflict of Interest:

  • Authors must reveal any potential conflicts of interest that might impact the research process or the interpretation of the results.
  • This includes financial interests, employment affiliations, consulting arrangements, or personal relationships.

Data Integrity:

  • Authors bear the responsibility of verifying the accuracy and integrity of their data, presenting research findings with honesty and transparency.
  • Studies involving human subjects, animals, or sensitive data must adhere to ethical guidelines and obtain the requisite approvals and permissions.
  • Fabrication, falsification, or manipulation of data is considered unethical and constitutes scientific misconduct.

2. Peer Review Process:

  • Reviewers must uphold the confidentiality of the peer review process and refrain from sharing any details about the manuscript or their assessment with unauthorized individuals without permission from the journal.
  • Peer review is conducted with fairness.
  • Reviewers are expected to conduct their evaluations impartially and offer constructive feedback aimed at enhancing the manuscript’s quality.
  • Reviewers should declare any potential conflicts of interest and evaluate manuscripts objectively, focusing solely on their scientific quality.
  • Editors oversee the peer review process to ensure its integrity and rigor, avoiding bias or favoritism.

3. Editorial Responsibilities:

Editorial Integrity:

  • Editors uphold the integrity and quality of the editorial process, maintaining objectivity and impartiality in decision-making.
  • Manuscripts are evaluated based on their scientific quality, significance, originality, and methodological rigor, without discrimination based on factors such as race, gender, religion, region, or institutional affiliation.

Conflict of Interest:

Editors are responsible for managing conflicts of interest transparently and impartially, ensuring that they do not compromise the integrity of the editorial process.

Transparency:

Editors should ensure transparency in the publication process by clearly communicating the editorial policies, peer review process, and any conflicts of interest.

4. Post-Publication Concerns:

Corrections and Retractions:

  • Authors, editors, and publishers are responsible for promptly addressing errors or inaccuracies in published articles, issuing corrections, clarifications, or retractions as necessary.
  • Corrections are published promptly to rectify errors and maintain the integrity of the scientific record.

Ethical Concerns:

Any concerns about ethical issues, such as research misconduct or violations of publication ethics, will be thoroughly investigated by the journal and appropriate actions will be taken.

5. Compliance with Policies and Guidelines:

All stakeholders are expected to comply with the journal’s policies, guidelines, and ethical standards, as well as relevant regulatory requirements and best practices in scholarly publishing.

Indexing and Abstracting

MatSci Express, while currently not indexed, is actively working towards being indexed in prominent databases and directories relevant to materials science and related fields. Our aim is to ensure that the valuable research published in MatSci Express reaches a wide audience of scholars, researchers, and practitioners in the field. We are in the process of applying for indexing in key databases and directories to enhance the visibility and discoverability of articles published in our journal. Stay tuned for updates as we progress in our efforts to expand the indexing coverage of MatSci Express, thereby increasing its impact and reach within the scientific community.

Article Processing Charges

At present, there are no article processing charges (APCs) associated with publishing in MatSci Express. As an open-access journal, all articles are published free of cost to authors. The publisher covers the expenses incurred in the publication process, allowing authors to disseminate their research without any financial burden. There are no fees for submission, processing, or publication of articles in MatSci Express. This approach ensures equitable access to scientific knowledge and supports the dissemination of research findings across the global scientific community.

Special Issues

MatSci Express welcomes proposals for special issues that align with the journal’s scope and objectives. Special issues provide an opportunity to delve into specific topics or emerging areas within materials science and related fields, offering a focused platform for in-depth exploration and discussion.

If you have a proposal for a special issue, please submit it to the editorial office for consideration. Your proposal should include a brief outline of the proposed topic, its significance and relevance to the field, potential contributors, and a proposed timeline for publication.

Once your proposal is received, it will undergo careful evaluation by the editorial team to assess its suitability for publication in MatSci Express. If approved, you will be invited to serve as a guest editor or co-editor for the special issue, working closely with the editorial team to oversee the review and publication process.

We look forward to receiving your proposals and collaborating with you to bring forth exciting and impactful special issues for our readership.

Please submit the special issue proposal at: info@aristonpubs.com 


Special Issue

On

“Advanced Catalysts, Sensors, Batteries, and Supercapacitors for Environmental Sustainability”

Scope of the Special Issue:

In an era of unprecedented technological advancement and environmental awareness, the need for sustainable innovations has never been greater. The integration of advanced catalysts, sensor technologies, next-generation batteries, and cutting-edge supercapacitors offers transformative potential for a greener and more sustainable future. Recognizing this crucial intersection, MatSci Express is proud to announce a special issue dedicated to “Advanced Catalysts, Sensors, Batteries, and Supercapacitors for Environmental Sustainability.” This special issue aims to serve as a comprehensive platform for the latest research and developments in these pivotal areas, promoting interdisciplinary collaboration and innovative solutions.

The special issue seeks to bring together groundbreaking research that explores the synergy between materials science, energy technology, and environmental sustainability. By addressing both fundamental principles and practical applications, this issue aims to showcase innovative solutions that contribute to environmental monitoring, energy efficiency, and sustainable practices. We invite contributions that push the boundaries of current knowledge and offer novel insights into the development and application of advanced materials for catalysts, sensors, batteries, and supercapacitors.

Topics of Interest:

We welcome original research articles, comprehensive reviews, and insightful communications on a wide range of topics, including but not limited to:

Catalysis for Environmental Applications:

  • Catalysts for pollution control, including air and water purification.
  • Photocatalysis and electrocatalysis for sustainable energy production.
  • Catalysts for the degradation of hazardous substances and waste treatment.

Advanced Sensor Technologies:

  • Development of high-sensitivity and selective sensors for environmental monitoring.
  • Novel materials for chemical, biological, and physical sensors.
  • Wearable and flexible sensors for health and environmental applications.

Battery Science and Technology:

  • Innovations in battery materials and design for improved performance and safety.
  • Next-generation batteries: lithium-ion, solid-state, flow batteries, and beyond.
  • Recycling, sustainability, and lifecycle analysis of battery technologies.
  • Applications of batteries in renewable energy systems and electric vehicles.

Supercapacitors:

  • Design and synthesis of advanced materials for supercapacitors.
  • Hybrid systems combining batteries and supercapacitors for enhanced energy storage.
  • Characterization and performance metrics of supercapacitor technologies.
  • Environmental impact and recycling of supercapacitor materials.

Interdisciplinary Applications:

  • Cross-disciplinary approaches integrating materials science, engineering, and environmental science.
  • Innovative applications in healthcare, environmental monitoring, and smart cities.
  • Future trends and challenges in sustainable energy and sensor technologies.

Why Submit to This Special Issue?

Visibility and Impact: Your research will be part of a high-visibility special issue that addresses critical advancements in materials science and environmental sustainability.

Interdisciplinary Collaboration: Engage with a broad audience of scientists, engineers, and environmentalists, fostering interdisciplinary collaboration and innovation.

Rapid Publication: Benefit from MatSci Express’s commitment to rapid dissemination of cutting-edge research.

Submission Guidelines:

  • Manuscripts should be written in English and adhere to the journal’s submission guidelines.
  • All submissions will undergo a rigorous peer-review process to ensure the highest quality of published research.
  • Authors should submit their manuscripts through the MatSci Express online submission system, clearly indicating their submission is for the special issue on “Advanced Catalysts, Sensors, Batteries, and Supercapacitors for Environmental Sustainability.”

Key Dates:

Submission Deadline: 25 July, 2024
Notification of Acceptance: 30 August, 2024
Publication Date: 15 September, 2024

We look forward to your valuable contributions and are excited to see the innovative solutions and discussions this special issue will bring to the forefront of materials science and environmental sustainability.

Guest Editors:

Dr. Dhammanand Jagdeo Shirale
Department of Electronics, School of Physical Sciences,
Kavayitri Bahinabai Chaudhari North Maharashtra University,
Jalgaon – 425001 (MS) India
Email: shiraledj@gmail.comdjshirale@nmu.ac.in

For further inquiries, please contact the special issue editorial team at [shiraledj@gmail.comdjshirale@nmu.ac.in].

Conferences

MatSci Express welcomes the opportunity to collaborate with organizers of conferences, symposiums, and workshops to publish special issues or proceedings featuring research articles presented at these events.

If you are organizing a conference or similar academic gathering and wish to publish selected research papers in MatSci Express, we encourage you to reach out to our editorial office with your proposal. Your proposal should include details such as the theme and scope of the conference, the number of anticipated submissions, and a proposed timeline for publication.

Upon receiving your proposal, our editorial team will review it carefully to assess its alignment with the journal’s scope and objectives. If approved, we will work closely with you to facilitate the submission and review process for the conference papers, ensuring timely publication in a dedicated special issue or proceeding.

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Article in Press

Current Issue

Modelling the Optical Properties of Gold Nanoparticles using COMSOL Multiphysics: Influence of Geometry, Environment, and Temperature

Tigran A. Sargsian, Maksim Ya. Vinnichenko, David B. Hayrapetyan

Summary: The study investigates the optical properties of gold nanoparticles (Au NPs) using COMSOL Multiphysics simulations, exploring the effects of geometry, environment, and temperature. Various shapes, including nanospheres, nanorods, and core/shell structures, were analyzed in different media, and the dielectric function was modeled as a function of size and temperature. Results showed that larger particle sizes and higher temperatures cause a red-shift in localized surface plasmon resonance (LSPR), offering insights for tailoring Au NP properties for applications like imaging and drug delivery.

Modelling the Optical Properties of Gold Nanoparticles using COMSOL Multiphysics: Influence of Geometry, Environment, and Temperature
Research Article | PUBLISHED ONLINE: 11 August 2024

MatSci Express 1(4), 278-290 (2024)

https://doi.org/10.69626/mse.2024.0278