Rahul Patil, Ashok Chougale
ChemSci Advances 1(1), 1-2 (2024)
https://doi.org/10.69626/csa.2024.0001Rupali Chavan, Rahul Patil, and Ashok Chougale
Summary: The rise in industrial activities has led to increased synthetic dye pollution, posing threats to ecosystems and human health. This review highlights biochar as a promising adsorbent for dye removal due to its extensive surface area, porosity, and surface functional groups. Production methods and surface modifications enhance biochar’s adsorption capacity and efficiency, making it a sustainable solution for wastewater treatment.
ChemSci Advances 1(1), 3-13 (2024)
https://doi.org/10.69626/csa.2024.0003Sameena R. Mulani, Santosh Bimli, Rajendra Bunkar, Manopriya Samatham, Ekta Choudhary, Ajay Patil, Suman Yadav, Ankit Yadav, Harshada Jadhav, Aayushi Miglani
Summary: Ni-doped LaFeO3 microspheres, synthesized via a hydrothermal route, exhibit excellent photocatalytic efficiency in degrading Rhodamine B dye. Characterization confirms structural, morphological, and optical properties. The LFNO-0.2 catalyst achieved 89.44% degradation efficiency, demonstrating superior performance, cyclic stability, and potential for wastewater remediation.
ChemSci Advances 1(1), 14-20 (2024)
https://doi.org/10.69626/csa.2024.0014Sagar S. Ingole, Akshay R. Jundle, Pradip P. Gaikwad, Rutuja A. Ekunde, Rajaram S. Sutar, Sanjay S. Latthe
Summary: In this work, a self-cleaning superhydrophobic coating on glass using a sol-gel spray method was developed. Synthesized SiO2 particles and PDMS created a rough surface with excellent superhydrophobic properties (WCA 154°, SA 4°). The coating demonstrated strong mechanical resistance to adhesive tape peeling, sandpaper abrasion, and pencil hardness, making it promising for large-scale self-cleaning applications.
ChemSci Advances 1(1), 21-27 (2024)
https://doi.org/10.69626/csa.2024.0021P. S. Chavan, P.S. Shedge, S.S. Deshmukh, R. R. Bhandalkar, S.H. Sutar, S. H. Mujawar
Summary: The increasing need for smart, energy-saving technologies in urbanization is addressed by electrochromic supercapacitors, which combine energy storage with visual color changes for applications like smart windows and displays. Nanoporous WO3 thin films, prepared via cathodic electrodeposition, demonstrated high coloration efficiency (52.61 cm²/C) and fast switching kinetics, making them promising candidates for multifunctional electrochromic supercapacitors.
ChemSci Advances 1(1), 28-33 (2024)
https://doi.org/10.69626/csa.2024.0028T.P. Kamble, S.R. Shingte, V.D. Chavan, Deok-Kee Kim, A.D. Chougale, T.D. Dongale, P.B. Patil
Summary: This study details the synthesis and electrochemical evaluation of MOF-derived CoFe2O4 nanoparticles anchored on carbon nanofibers (CoFe2O4@CNFs) for supercapacitors. The CoFe2O4@CNFs exhibited a specific capacitance of 527 F/g, a power density of 234.93 W/kg, and an energy density of 16.58 Wh/kg. These findings underscore the potential of CoFe2O4@CNFs for high-performance energy storage applications.
ChemSci Advances 1(1), 34-40 (2024)
https://doi.org/10.69626/csa.2024.0034Nazish Parveen, Sajid Ali Ansari
Summary: The research presents a hydrothermal synthesis of OS-MO, achieving a specific capacitance of 629.62 F/g and 89% retention over 1,000 cycles, showcasing its potential for high-performance energy storage applications due to its porous nature and high surface area.
ChemSci Advances 1(1), 41-46 (2024)
https://doi.org/10.69626/csa.2024.0041Welcome to ChemSci Advances (CSA), an esteemed journal published by Ariston Publications, dedicated to
advancing the frontiers of chemical sciences through the rapid dissemination of groundbreaking research. Our mission
is to provide a dynamic platform where scientists, scholars, and researchers can present their pioneering
discoveries and innovations, driving progress and fostering collaboration within the chemical science community.
ChemSci Advances recognizes the critical role of interdisciplinary collaboration in pushing the boundaries
of chemical sciences. As such, our journal serves as a nexus for research endeavors spanning across various
disciplines within chemistry and related fields. We welcome contributions from chemists, chemical engineers,
physicists, biologists, materials scientists, environmental scientists, computational scientists, and other experts,
aiming to unite diverse perspectives and expertise to catalyze innovation.
With a focus on both fundamental principles and practical applications, ChemSci Advances explores the
latest frontiers of chemical research, addressing pressing global challenges and driving technological advancements.
From pioneering synthetic methodologies to sustainable chemistry, from materials science to biochemistry, our
journal covers a wide spectrum of topics, reflecting the interdisciplinary nature of modern chemical inquiry.
Our commitment to excellence extends to our rigorous editorial standards and peer-review process, ensuring
that only the highest quality research is published. By providing open access to our content, we strive to promote
inclusivity, collaboration, and the democratization of knowledge, facilitating global engagement and impact within
the scientific community.
We invite researchers and scholars worldwide to join us in advancing the frontiers of chemical sciences by
contributing their expertise and discoveries to ChemSci Advances.
ChemSci Advances endeavors to establish itself as a preeminent platform dedicated to advancing the
frontiers of knowledge in the multifaceted realm of chemical sciences. Our overarching aim is to facilitate the
dissemination of cutting-edge research, providing a dynamic forum where scientists, scholars, and researchers can
present their latest findings, innovations, and insights. By fostering collaboration, driving progress, and
promoting excellence, we aspire to contribute significantly to the ongoing evolution and enrichment of chemical
sciences worldwide.
ChemSci Advances aspires to be a catalyst for progress and excellence in chemical sciences, serving as a
beacon of innovation, collaboration, and scholarly achievement. ChemSci Advances embraces a comprehensive scope that
encompasses a diverse array of topics within chemical sciences. Our journal welcomes contributions across various
domains, including, but not limited to:
Chemical Synthesis and Catalysis: This category encompasses the development and exploration of
innovative synthetic methodologies, catalytic processes, and mechanistic studies aimed at advancing our
understanding of chemical transformations and facilitating the synthesis of complex molecules with diverse
applications.
Materials Chemistry: From the design and synthesis of novel materials to their characterization and
applications, ChemSci Advances covers the full spectrum of materials chemistry. This includes research on polymers,
nanomaterials, composites, biomaterials, and other advanced materials, with a focus on elucidating
structure-property relationships and exploring their potential in diverse technological applications.
Analytical and Physical Chemistry: Advancements in analytical techniques, physical chemistry
principles, and spectroscopic methods form a vital aspect of chemical research. ChemSci Advances provides a platform
for the dissemination of research in this domain, facilitating the development and application of cutting-edge
analytical methodologies to address fundamental questions and practical challenges in chemical sciences.
Biochemistry and Medicinal Chemistry: Understanding the chemical basis of biological processes and
the development of therapeutics are crucial areas within chemical sciences. ChemSci Advances welcomes research
spanning biochemistry, medicinal chemistry, chemical biology, and bioorganic chemistry, with a focus on elucidating
molecular mechanisms, drug discovery, and the development of innovative therapeutic agents.
Environmental and Green Chemistry: In response to global environmental challenges, ChemSci Advances
highlights research in sustainable chemistry, green synthesis, environmental remediation, and renewable energy. By
exploring eco-friendly approaches to chemical synthesis and addressing environmental issues, researchers contribute
to the advancement of sustainable practices and technologies.
Chemical Engineering and Technology: Chemical engineering principles and technological innovations
play a pivotal role in translating fundamental research into practical applications. ChemSci Advances welcomes
contributions in process optimization, industrial applications, and technological advancements in chemical
engineering, aiming to bridge the gap between academic research and industrial implementation.
Theoretical and Computational Chemistry: Theoretical studies, computational modeling, and molecular
simulations provide invaluable insights into chemical phenomena and aid in the design of new materials and
compounds. ChemSci Advances provides a platform for researchers to showcase their theoretical and computational
work, facilitating the exploration of complex chemical systems and phenomena.
In pursuit of our overarching aims, ChemSci Advances sets forth the following objectives:
Facilitating Knowledge Exchange: By providing a platform for the
dissemination of original research articles, reviews, and communications, ChemSci Advances aims to foster knowledge
exchange and facilitate dialogue among researchers, scholars, and practitioners within chemical sciences.
Promoting Interdisciplinary Collaboration: Recognizing the interdisciplinary nature of modern
chemical research, ChemSci Advances endeavors to foster collaboration among experts from diverse backgrounds,
including chemists, engineers, physicists, biologists, and environmental scientists. By promoting interdisciplinary
collaboration, we aim to catalyze innovation and address complex scientific challenges.
Maintaining Editorial Excellence: ChemSci Advances is committed to upholding the highest editorial
standards, ensuring the rigor, integrity, and quality of published research. Through a robust peer-review process
and adherence to ethical guidelines, we strive to maintain the credibility and trustworthiness of our journal.
Advancing Open Science: ChemSci Advances is dedicated to promoting the principles of open science
by providing open access to published research content. By removing barriers to access and encouraging the free
exchange of knowledge, we aim to enhance the visibility, impact, and reach of scientific research within the global
community.
Driving Scientific Innovation: By highlighting groundbreaking research, addressing pressing global
challenges, and exploring emerging frontiers of chemical sciences, ChemSci Advances aims to drive scientific
innovation and contribute to the development of transformative technologies and solutions with real-world
applications.
Supporting Researcher Development: ChemSci Advances is committed to supporting the professional
development of researchers and scholars by providing a platform for the dissemination of their work, recognition of
their contributions, and opportunities for networking, collaboration, and career advancement.
ChemSci Advances covers a broad spectrum of subjects within the field of chemical sciences, including but not limited to:
Chemical Synthesis and Catalysis: Innovative synthetic methodologies, catalytic processes, and mechanistic studies.
Materials Chemistry: Design, synthesis, characterization, and applications of advanced materials, including polymers, nanomaterials, composites, and biomaterials.
Analytical and Physical Chemistry: Developments in analytical techniques, physical chemistry principles, and spectroscopic methods.
Biochemistry and Medicinal Chemistry: Chemical basis of biological processes, drug discovery, development, and mechanism of action, as well as chemical biology and bioorganic chemistry.
Environmental and Green Chemistry: Sustainable chemistry, green synthesis, environmental remediation, pollution prevention, and renewable energy.
Chemical Engineering and Technology: Principles of chemical engineering, process optimization, industrial applications, and technology development.
Theoretical and Computational Chemistry: Theoretical studies, computational modeling, molecular simulations, and quantum chemistry approaches to understand chemical phenomena.
Interdisciplinary Research: Studies that bridge chemistry with other scientific disciplines such as biology, physics, materials science, and engineering.
Organic Chemistry: Synthesis, structure, and reactivity of organic compounds, including natural product synthesis and methodology development.
Inorganic Chemistry: Coordination chemistry, organometallic chemistry, and the synthesis and characterization of inorganic compounds and materials.
Physical Organic Chemistry: Investigation of the relationship between molecular structure and chemical reactivity, including reaction mechanisms and kinetics.
Supramolecular Chemistry: Study of non-covalent interactions and the assembly of molecular complexes and materials through self-assembly processes.
Nanotechnology: Development and application of nanomaterials, nanostructures, and nanodevices for various chemical, biological, and technological applications.
Surface Science: Study of the properties and behavior of surfaces and interfaces, including surface modification, catalysis, and adsorption phenomena.
Polymer Chemistry: Synthesis, characterization, and applications of polymers and macromolecules, including polymerization mechanisms and polymer materials.
Chemical Education: Research on effective teaching methods, curriculum development, and educational resources in the field of chemical sciences.
Chemical Biology: Integration of chemical principles and techniques with biological systems to understand biological processes and develop new therapeutic agents.
Biophysical Chemistry: Study of the physical principles underlying biological processes, including protein structure and function, molecular recognition, and enzyme kinetics.
Metabolomics: Analysis and characterization of metabolites and metabolic pathways in biological systems using analytical chemistry techniques.
Food Chemistry: Study of the composition, properties, and interactions of food components, including food additives, flavor chemistry, and food safety.
ChemSci Advances appeals to a broad and diverse readership spanning across multiple disciplines and sectors within the realm of chemical sciences. Our readership is characterized by individuals who are dedicated to advancing scientific knowledge, driving innovation, and addressing real-world challenges through interdisciplinary collaboration and cutting-edge research in chemical sciences. Whether from academia or industry, our readers rely on ChemSci Advances as their trusted source for high-quality research and insights, reflecting the diverse and dynamic nature of the chemical science community. Our audience includes professionals and researchers from a wide array of fields, including:
Chemistry: Chemists and researchers engaged in fundamental and applied research across various sub-disciplines of chemistry, including organic, inorganic, physical, and analytical chemistry.
Chemical Engineering: Chemical engineers and professionals involved in process development, optimization, and industrial applications of chemical processes and technologies.
Materials Science: Materials scientists, engineers, and researchers interested in the design, synthesis, characterization, and applications of advanced materials, including polymers, nanomaterials, and composites.
Biotechnology and Pharmaceuticals: Professionals working in biotechnology, pharmaceuticals, and drug discovery and development, including medicinal chemists, biochemists, and biophysicists.
Environmental Science: Environmental scientists, engineers, and policymakers interested in sustainable chemistry, green technologies, and environmental remediation.
Energy Science: Researchers and professionals involved in energy production, storage, and conversion, including those working on fuel cells, batteries, solar cells, and alternative energy sources.
Biochemistry and Molecular Biology: Biochemists, molecular biologists, and researchers studying the chemical basis of biological processes, including protein structure and function, enzyme kinetics, and molecular interactions.
Computational Chemistry: Computational chemists and researchers utilizing computational modeling and simulation techniques to study chemical systems and predict molecular properties and behaviors.
Academic Institutions: Faculty members, students, and researchers from universities, colleges, and research institutions worldwide, seeking to stay abreast of the latest developments and discoveries in chemical sciences.
Industry: Professionals from chemical, pharmaceutical, biotechnology, energy, materials, and other industries interested in leveraging scientific advancements for product development, process optimization, and innovation.
Prof. Ahmad Umar
Department of Materials Science and Engineering
Ohio State University, Columbus, 43210 OH, USA
Email: umar.20@osu.edu
Dr. Rahul Patil
Shri Yashwantrao Patil Science College,
Shivaji University Kolhapur, India.
Email: eic-chemsciadvances@aristonpubs.com
Dr. Ashok Chougale
The New College,
Shivaji University Kolhapur, India.
Email: ashokdchougale@gmail.com
Dr. Sandeep Gholap
A* STAR-The Agency for Science, Technology and Research
Singapore.
Dr. Prashant Patil
The New College,
Shivaji University Kolhapur, India.
Dr. Vijay Karade
Department of Physics and Astronomy,
University of Toledo, Ohio, USA.
Dr. Jyotiprakash Yadav
Scientific Officer, USIC-CFC-SAIF,
Shivaji University Kolhapur, India.
Dr. Atresh Kumar Singh
Department of Chemistry, Deen Dayal Upadhyaya Gorakhpur University,
Gorakhpur, India
Prof. Xiang Wu
School of Materials Science and Engineering,
Shenyang University of Technology, Shenyang 110870,
PR China
Prof. S. Baskoutas
Department of Materials Science
University of Patras, Patras, Greece.
Prof. V. B. Patil
Department of Physics, School of Physical Sciences,
PAH Solapur University, India.
Dr. Rajesh Kumar
Department of Chemistry,
Jagdish Chandra DAV College, Dasuya, 144205, India
Dr. Sunit Rane
Scientist ‘E’, Centre of Excellence on Additive Manufacturing,
Centre for Materials for Electronics Technology (C-MET) Pune, India.
Dr. Muralikrishna Sreeramareddygari
Pilot Plant Development and Training Institute,
King Mongkut’s University of Technology Thonburi, Bangkok, Thailand.
Dr. Dilbag Rana
Department of Environmental Sciences,
Central University of Himachal Pradesh,
Dharamshala-176215, HP, India
Dr. Sanjay Latthe
Vivekanand College (Autonomous)
Shivaji University Kolhapur, India.
Prof. Deepak Subedi
Department of Physics, School of Science,
Kathmandu University, Nepal.
Dr. Vishal Dawkar
Biotechnology and Pharma Division,
MITCON Foundation Pune, India.
Dr. Kuldeep Kumar
Career Point University Hamirpur, Bhoranj (Tikker – Kharwarian),
Hamirpur, [H.P] – 176041, India
Dr. Deepak Patil
Department of Chemical Engineering,
Inha University, South Korea.
Dr. Sarfraj Mujawar
Department of Physics,
Yashwanytrao Chavan Institute of Science Satara, India.
Dr. Rajeev Joshi
Department of Physics,
Central University of Karnataka, Kalaburagi, India.
Dr. Rajesh Hyam
Department of Physics,
Goa University, India.
Dr. Rahul Mane
Department of Chemistry,
Shivaji University Kolhapur, India.
Dr. Naganatha G. Patil
King Abdullah University of Science and Technology (KAUST)
Kingdom of Saudi Arabia
Dr. Amol Mahalingappa Hengne
A* STAR-The Agency for Science, Technology and Research
Singapore.
Welcome to the Instructions for Reviewers for ChemSci Advances (CSA). As a valued reviewer, the expertise and insights of the reviewer play a crucial role in maintaining the quality and integrity of the journal’s publications. A thorough evaluation and constructive feedback of the reviewers are instrumental in shaping the direction of scientific discourse in the field of chemical sciences. Below are guidelines to assist the reviewers in conducting a comprehensive review of manuscripts submitted to ChemSci Advances (CSA).
Welcome to the comprehensive Guide to Editors for ChemSci Advances. 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 chemical sciences. 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 ChemSci Advances.
Editorial Workflow:
Manuscript Handling:
Ethical Considerations:
Collaboration and Communication:
Continuous Improvement:
At ChemSci Advances (CSA), 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.
Authors are expected to adhere to the following ethical principles:
Authorship Criteria:
Originality and Plagiarism:
Conflict of Interest:
Data Integrity:
Editorial Integrity:
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.
Corrections and Retractions:
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.
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.
ChemSci Advances, while currently not indexed, is actively working towards being indexed in prominent databases and directories relevant to chemical science and related fields. Our aim is to ensure that the valuable research published in ChemSci Advances 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 ChemSci Advances, thereby increasing its impact and reach within the scientific community.
At present, there are no article processing charges (APCs) associated with publishing in ChemSci Advances. 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 ChemSci Advances. This approach ensures equitable access to scientific knowledge and supports the dissemination of research findings across the global scientific community.
ChemSci Advances 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 chemical sciences 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 ChemSci Advances. 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
ChemSci Advances 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 ChemSci Advances, 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.
By publishing conference-related research in ChemSci Advances, authors can benefit from the journal’s wide readership and open access model, maximizing the visibility and impact of their work within the chemical science community. We look forward to the opportunity to collaborate with you on showcasing cutting-edge research from your conference in our journal.
For any inquiry, please contact at: info@aristonpubs.com
Nazish Parveen, Sajid Ali Ansari
Summary: The research presents a hydrothermal synthesis of OS-MO, achieving a specific capacitance of 629.62 F/g and 89% retention over 1,000 cycles, showcasing its potential for high-performance energy storage applications due to its porous nature and high surface area.
ChemSci Advances 1(1), 41-46 (2024)
https://doi.org/10.69626/csa.2024.0041