Energy & Environment Advances is a pioneering journal dedicated to advancing energy and environmental science through the rapid publication of transformative research. It serves as a dynamic platform for scientists, engineers, policymakers, and scholars to present innovative solutions to global energy and environmental challenges. By fostering interdisciplinary collaboration, the journal bridges diverse fields, encouraging the exchange of ideas and expertise. We publish original research, comprehensive reviews, and impactful communications on key topics such as renewable energy, sustainable technologies, and environmental protection. Our scope includes areas like solar cells, batteries, supercapacitors, fuel cells, hydrogen energy, catalysis, biomass, biofuels, carbon capture and utilization, nuclear energy, wind energy, and thermal energy. The journal also covers environmental science, pollution control, climate change, recycling, waste management, water treatment, and conservation strategies. With a focus on both fundamental principles and practical applications, Energy & Environment Advances reflects the interdisciplinary nature of modern research, addressing challenges in energy generation, storage, and management alongside environmental sustainability. By uniting researchers from diverse disciplines, including materials science, environmental engineering, biology, and public health, we aim to catalyze innovation and drive progress. Our mission is to serve as a vital resource for the global scientific community, fostering collaboration and promoting impactful discoveries to drive sustainable solutions for a cleaner, greener, and energy-secure future.
Saumya Vaish, Shiv Kumar Dixit, Sultan Ahmad, Faheem Ahmed, Zishan Husain Khan
Summary: This review examines the progress and challenges of lead-free perovskite solar cells (PSCs) as sustainable alternatives to lead-based PSCs. Tin-based perovskites show promise due to their eco-friendliness but face stability issues, while germanium and double halide perovskites offer improved stability but limited efficiency. The p-i-n planar structure emerges as a superior device architecture. Future directions focus on material stability, device optimization, scalable manufacturing, and economic considerations to enable competitive, environmentally sustainable photovoltaic technologies.
Energy & Environment Advances 1(4), 146-161 (2024)
https://doi.org/10.69626/eea.2024.0146Noor Zaman Khan, Annayath Maqbool, Arshad Noor Siddiquee
Summary: The study reviews the potential of magnesium-based alloys for hydrogen storage, focusing on their high volumetric capacity and eco-friendliness. It examines challenges like slow kinetics, high operating conditions, and oxidation, proposing solutions such as Severe Plastic Deformation (SPD), alloying, and surface modifications. Additionally, it explores advancements in fabrication techniques and strategies for lowering operating temperatures. By addressing these limitations, the study provides insights into making magnesium-based hydrogen storage systems more viable for clean and sustainable energy applications.
Energy & Environment Advances 1(4), 162-177 (2024)
https://doi.org/10.69626/eea.2024.0162Abhishek Kumar, Rajesh Kumar
Summary: This review explores the integration of nanofluids into solar distillation systems to enhance efficiency and productivity. It highlights the superior thermal properties of nanofluids, such as improved heat transfer and reduced thermal resistance, which significantly boost freshwater yield. The study examines factors influencing nanofluid performance, including nanoparticle material and concentration, and identifies challenges like stability, environmental impacts, and scalability. By addressing these gaps, nanofluid-enhanced solar distillation systems could become a sustainable solution to global water scarcity challenges.
Energy & Environment Advances 1(4), 178-192 (2024)
https://doi.org/10.69626/eea.2024.0178Mohammad Asif Parray, Md. Sarwar
Summary: The review examines the operational dynamics of DC microgrids, focusing on the integration of RES and ESS for enhanced efficiency and resilience. It emphasizes the benefits of DC microgrids, including reduced energy losses, simplified conversion, and superior compatibility with renewable energy technologies. Key challenges like RES intermittency, DC voltage regulation, and energy management are discussed alongside innovative solutions such as hybrid ESS and real-time control algorithms. The study underscores the potential of DC microgrids to revolutionize energy distribution while identifying critical areas for further research and technological advancements.
Energy & Environment Advances 1(4), 193-205 (2024)
https://doi.org/10.69626/eea.2024.0193Anu Malhotra, Suchitra Manjhu, Harish Kumar Meena, Karishma Jain, Sonia Srivastava, Anju Lavania, S.K. Jain, Rama S Lokhande, Balram Tripathi
Summary: The study evaluates the adsorption capacity of methylene blue (MB) dye using a bio-composite of CNT-functionalized Moringa oleifera leaf powder (MOLP). Systematic optimization of adsorption parameters, including pH, dye concentration, temperature, and contact time, revealed the superior efficiency of CNT-MOLP compared to pristine MOLP. Characterization via SEM and FT-IR confirmed enhanced porosity and functional groups essential for dye binding. This work establishes CNT-MOLP as a sustainable, cost-effective adsorbent for industrial wastewater treatment applications.
Energy & Environment Advances 1(4), 206-218 (2024)
https://doi.org/10.69626/eea.2024.0206Md Rizwan, Asfar Ali Khan, Suhaib Ahmad Khan
Summary: The study investigated the AC breakdown voltage of mineral and synthetic ester oils modified with Co₃O₄ nanoparticles. Using S-S and VDE electrode configurations, the research demonstrated improved dielectric performance of nanofluids, with the highest enhancements of 16.10% for mineral oil (S-S) and 18.76% for synthetic ester oil (VDE). The improved breakdown voltage, attributed to reduced leakage currents and uniform electric field distribution, underscores the potential of nanotechnology to revolutionize transformer insulation systems.
Energy & Environment Advances 1(3), 102-111 (2024)
https://doi.org/10.69626/eea.2024.0102Akanksha Sandhu, Mrinmoy Kumar Chini
Summary: We synthesized quasi 2D halide perovskites (n = 3) using arginine as a bulky organic ligand. Structural, optical, and electrochemical studies revealed high crystallinity, a bandgap of 3.67 eV, and outstanding supercapacitive performance. Capacitance values under light exposure surpassed those in dark conditions, showcasing a photo-rechargeable effect. These findings establish the material’s promise for sustainable energy storage systems and highlight its multifunctional nature, bridging structural design with advanced electrochemical applications
Energy & Environment Advances 1(3), 112-119 (2024)
https://doi.org/10.69626/eea.2024.0112Nancy, Pradeep Kumar, Ritesh Verma, Preeti Thakur, Atul Thakur
Summary: The study synthesized CoFe₂O₄, ZnFe₂O₄, and CoFe₂O₄/ZnFe₂O₄ nanoparticles via precise methods. XRD confirmed their spinel structure, TEM demonstrated nanocrystalline morphology, and UV-Vis spectroscopy revealed band gap values of 4.978 eV, 2.693 eV, and 2.529 eV, respectively. These results, complemented by Rietveld refinement and SAED patterns, emphasize the composite’s superior properties, laying a foundation for advanced material applications.
Energy & Environment Advances 1(3), 120-128 (2024)
https://doi.org/10.69626/eea.2024.0120Praveena Shandilya, Ratnesh Mishra, K. P. Tiwary
Summary: The study investigates the power consumption of encryption algorithms in energy production systems, comparing AES and RSA. It identifies AES as faster and more energy-efficient than RSA, providing practical insights into balancing security and energy efficiency. Real-world case studies in hydroelectric and solar facilities underscore the findings. The research proposes lightweight cryptographic solutions and adaptive security systems to enhance system resilience while conserving energy. Future directions include post-quantum cryptography and machine learning-driven encryption strategies.
Energy & Environment Advances 1(3), 129-137 (2024)
https://doi.org/10.69626/eea.2024.0129Rayes Ahmad Lone, Sheikh Javed Iqbal, Ahmed Sharique Anees
Summary: The study analyzes the techno-economic feasibility of integrating a 7678 kW solar photovoltaic (PV) system into a 7-bus power distribution network. Positioned at bus-2, the system reduces power losses by 57.05% and improves voltage profiles. Over 25 years, it achieves significant cost savings with a low tariff of $0.037/kWh. Practical scenarios, including transmission losses and operational hours, are considered, emphasizing system reliability. The research highlights the potential of optimized PV systems for sustainable and cost-efficient energy solutions.
Energy & Environment Advances 1(3), 138-145 (2024)
https://doi.org/10.69626/eea.2024.0138Shweta Yadav, R. K. Chauhan, Rajan Mishra
Summary: Through SCAPS-1D simulations, the performance of CZTS, CZTSe, and CZTSSe absorber layers was analyzed. CZTSSe demonstrated superior efficiency (30.01%) with optimized parameters, including absorber thickness (1500 nm) and doping concentrations. This research emphasizes material selection and device optimization for advanced kesterite-based solar cells.
Energy & Environment Advances 1(2), 49-58 (2024)
https://doi.org/10.69626/eea.2024.0049Mansi Rana, Shivani Dangwal, Saurabh Rawat, Charu Dwivedi, Himani Sharma
Summary: BiVO4 nanoparticles and BiVO4/WO3 heterostructures were synthesized using sol-gel and solvothermal methods, respectively. Characterization confirmed a reduced bandgap (2 eV) and enhanced electron transport in the hybrid system. BiVO4/WO3 exhibited superior photocatalytic efficiency (87.2% for methylene blue degradation) and improved HER performance with a lower onset potential (0.388 V vs. RHE) and reduced charge transfer resistance (83.92 kΩ). These findings highlight its potential for sustainable energy and environmental applications.
Energy & Environment Advances 1(2), 59-73 (2024)
https://doi.org/10.69626/eea.2024.0059S. Ruby, S. S. R. Inbanathan, D. Rani Rosaline, Sotirios Baskoutas
Summary: The study successfully synthesized magnesium-doped bismuth ferrite (BMO) nanoparticles using a microwave-assisted method. XRD and SEM analyses confirmed improved structural and morphological properties, including reduced crystallite size and uniform particle distribution. Mg doping lowered the band gap energy, enhancing light absorption and charge carrier separation. Photocatalytic experiments demonstrated superior degradation of methyl orange dye under visible light, achieving an 83% degradation efficiency. These findings establish Mg-doped BFO as a promising photocatalyst for wastewater treatment, showcasing significant advancements in nanostructured environmental materials.
Energy & Environment Advances 1(2), 74-84 (2024)
https://doi.org/10.69626/eea.2024.0074Iram Masood, Mukesh Pratap Singh, Mohd Amir
Summary: This study focuses on optimizing the performance of P3HT:PCBM-based organic solar cells (OSCs) by adjusting the thickness of the active layer, transport layers, and electrodes. Using OghmaNano simulation software, the optimized device achieved a PCE of 9.60%, with enhanced VOC, JSC, and FF values. The ZnSe electron transport layer facilitated effective electron collection, while PEDOT:PSS improved hole extraction. Analysis of recombination and temperature stability highlighted the device’s improved efficiency and reliability, paving the way for advancements in OSC technology.
Energy & Environment Advances 1(2), 85-94 (2024)
https://doi.org/10.69626/eea.2024.0085Kanhaiya Lal Mevta, Harish Kumar Meena, Karishma Jain, S. K. Jain, Shalini Dixit, Reena Verma, Balram Tripathi
Summary: The study optimizes P3HT:PCBM bilayer PSCs through controlled spin-coating and post-production annealing. Structural and morphological properties were characterized using XRD, FT-IR spectroscopy, and SEM, confirming uniform films with improved crystallinity. Electrical analysis revealed that optimized bilayer thickness and annealing significantly enhanced PCE by reducing recombination losses and improving short-circuit current density (Jsc) and open-circuit voltage (Voc). These results underscore the role of bilayer structure and thermal processing in improving photovoltaic performance, offering valuable insights for the advancement of polymer-based solar technologies.
Energy & Environment Advances 1(2), 95-101 (2024)
https://doi.org/10.69626/eea.2024.0095Faheem Ahmed and Zishan Husain Khan
Energy & Environment Advances 1(1), 01-03 (2024)
https://doi.org/10.69626/eea.2024.0001Diksha, Shrestha Bhattacharya, Riya Bansal, Meenakshi, Ashutosh Pandey, Prathap Pathi, Vamsi K. Komarala, Sanjay K. Srivastava
Summary: The study explores the impact of micro-texturing and surface passivation on CZ and FZ silicon wafers using a KOH process and thin i-a-Si:H/n-nc-Si:H layers. Enhanced minority carrier lifetime (MCLT) of 677.79 µs (CZ) and 1788.30 µs (FZ) and implied open-circuit voltages of 708 mV (CZ) and 714 mV (FZ) validate the effectiveness of the passivation layers. Reflectance data confirm no compromise on light harvesting properties. The findings establish the potential of these passivation strategies for high-performance heterojunction solar cells.
Energy & Environment Advances 1(1), 04-14 (2024)
https://doi.org/10.69626/eea.2024.0004Anju Rani, Mrinal Dutta, Chander Shekhar, Ayana Bhaduri
Summary: Using SCAPS-1D, the performance of CdTe/CdS/SnO₂ solar cells was analyzed with a focus on optimizing layer thickness, CdS electron affinity, and the introduction of a p+ CdTe back surface field. Optimal thicknesses of 4 µm (CdTe), 15 nm (CdS), and 0.2 µm (SnO₂) yielded an efficiency of 23.36%, with metrics JSC=25.14 mA/cm², VOC=1.054 V, and FF=88.16%. The study demonstrates that reducing CdS electron affinity and adding a p+ CdTe layer significantly enhance device efficiency and quantum efficiency.
Energy & Environment Advances 1(1), 15-24 (2024)
https://doi.org/10.69626/eea.2024.0015Azra Parveen, Mohahmmad Zaid
Summary: Iron-doped CuAlO₂ nanoparticles were synthesized via a sol-gel method. Characterization confirmed structural integrity, reduced band gap (~2.8 eV), and improved conductivity. Photocatalytic activity achieved 34% methylene blue degradation under visible light. These enhancements stem from increased charge carrier mobility and reduced recombination.
Energy & Environment Advances 1(1), 25-32 (2024)
https://doi.org/10.69626/eea.2024.0025Aiswarya M., P. Predeep
Summary: Capsaicin-doped MAPbI₃ single crystals were synthesized using inverse temperature crystallization. Vibrational spectroscopy and XRD confirmed enhanced phase purity, reduced defects, and improved structural stability. Capsaicin modulated nucleation rates, promoting larger, high-quality crystals with reduced water absorption and enhanced molecular interactions. These findings highlight the promise of Capsaicin and similar organic dopants for advanced optoelectronic applications.
Energy & Environment Advances 1(1), 33-40 (2024)
https://doi.org/10.69626/eea.2024.0033Mohd Sarvar, Shah Masheerul Aalam, Islam Uddin, Javid Ali
Summary: CNTFETs with ZnO gate dielectrics of varying thickness (10–40 nm) were analyzed for dynamic performance. Thinner ZnO layers (10 nm) exhibited superior switching speed, low threshold voltage, and improved current modulation, while thicker layers reduced leakage currents. SEM confirmed well-aligned CNT channels and robust CNT-metal contacts. The study highlights ZnO’s versatility as a tunable dielectric material for advancing high-performance, energy-efficient electronic devices, paving the way for next-generation nanoscale technologies.
Energy & Environment Advances 1(1), 41-48 (2024)
https://doi.org/10.69626/eea.2024.0041Energy & Environment Advances
Welcome to Energy & Environment Advances, a distinguished journal published by Ariston Publications, dedicated to advancing the boundaries of energy and environmental science through the rapid dissemination of transformative research. Our mission is to provide a dynamic platform for researchers, scientists, engineers, and policymakers to present their pioneering discoveries and innovations, fostering progress and collaboration in the global quest for sustainable energy solutions and environmental stewardship.
Energy & Environment Advances recognizes the critical importance of interdisciplinary approaches in addressing the pressing challenges of energy production, resource conservation, pollution mitigation, and climate change. As such, the journal serves as a vibrant nexus for research spanning a diverse range of disciplines, including renewable energy technologies, environmental science, materials science, catalysis, energy storage systems, climate studies, and public health. By embracing diverse expertise and perspectives, we aim to catalyze innovation, promote sustainability, and drive meaningful impact.
With a steadfast focus on both fundamental research and practical applications, Energy & Environment Advances explores the latest breakthroughs and solutions in energy and environmental science. From cutting-edge solar cell technologies to advanced waste treatment methods, from carbon capture innovations to sustainable bioenergy systems, the journal encompasses a broad spectrum of topics that reflect the interdisciplinary and transformative nature of modern research in energy and the environment.
Our commitment to excellence is reflected in our rigorous peer-review process and editorial standards, ensuring that only the most impactful and high-quality research is published. Through open-access publishing, we strive to democratize knowledge, promote inclusivity, and facilitate global engagement, enabling researchers, innovators, and stakeholders worldwide to access and contribute to the journal’s growing repository of knowledge.
We invite researchers, scientists, engineers, and environmental experts from across the globe to join us in shaping the future of energy and environmental science by sharing their groundbreaking work and discoveries with Energy & Environment Advances. Together, we can address global challenges and forge a path toward a sustainable, energy-secure, and environmentally resilient future.
Aims
Energy & Environment Advances aims to bridge the gap between cutting-edge energy research and environmental sustainability by providing a multidisciplinary platform for publishing impactful and innovative studies. The journal seeks to foster global collaborations, encourage the development of novel technologies, and address pressing challenges such as clean energy production, environmental pollution, and climate change. By publishing high-quality research, the journal aspires to contribute to sustainable development, improve resource management, and promote eco-friendly practices for a cleaner and healthier planet.
The journal provides comprehensive coverage of research spanning diverse areas of energy and environmental science, with a strong emphasis on interdisciplinary approaches. Contributions are welcome from experimental, theoretical, and computational studies, as well as policy-oriented analyses. Topics include, but are not limited to:
Subject Covered (but not limited to):
Energy & Environment Advances provides comprehensive coverage of research spanning diverse areas of energy and environmental science, with a strong emphasis on interdisciplinary approaches. Contributions are welcome from experimental, theoretical, and computational studies, as well as policy-oriented analyses. Topics include, but are not limited to:
Energy & Environment Advances attracts a diverse and multidisciplinary readership, reflecting the broad scope and significant impact of energy and environmental research across various sectors. Our audience includes professionals, researchers, and enthusiasts from fields such as energy science, environmental engineering, chemistry, materials science, climate science, environmental policy, public health, sustainability, and more.
Our readership spans academic institutions, research organizations, industry professionals, and government agencies, highlighting the interdisciplinary and applied nature of energy and environmental studies. Whether from academia, public institutions, or the private sector, our readers rely on Energy & Environment Advances to stay informed about groundbreaking research, innovative technologies, and sustainable solutions that address global challenges.
By offering cutting-edge insights and fostering collaboration across diverse disciplines, Energy & Environment Advances serves as an indispensable resource for those advancing the future of energy systems, environmental protection, and sustainability. We aim to support those shaping the transition toward a cleaner, greener, and more sustainable world.
Dr. Faheem Ahmed
Department of Applied Science and Humanities
Jamia Millia Islamia, New Delhi, India
Email: fahmed@jmi.ac.in
Prof. Zishan Husain Khan
Department of Applied Science and Humanities
Jamia Millia Islamia, New Delhi, India
Email: zishanhk70@gmail.com
Prof. Tom Macdonald
University College London
United Kingdom
Dr. Sarish Rehman
Department of Chemistry,
McGill University, Montreal, Canada
Prof. Michael Sigalas
Department of Materials Science
University of Patras
Greece
Prof. Bon Heun Koo
Materials Science and Engineering, Changwon National University
Changwon, South Korea
Dr. Savita Chaudhary
Department of Chemistry,
Panjab University, Panjab
India
Prof. Sung Hun Lee
Korea Institute of Materials Science,
Changwon, South Korea
Dr. Suresh SAGADEVAN
Nanotechnology & Catalysis Research Centre
University of Malaya, 50603 Kuala Lumpur,
Malaysia.
Dr. Firoz Alam
University College London,
United Kingdom
Dr. Furqan Ahmad
College of Engineering, Dhofar University,
Salalah, Oman
Dr. Afzal Hussain
Department of Pharmacognosy, College of Pharmacy,
King Saud University, Riyadh, Kingdom of Saudi Arabia
Prof. Pau Loke Show
Chemical & Petroleum Engineering, Khalifa University,
Abu Dhabi, UAE
Prof. Mohammad Mudassir Husain
Department of Applied Sciences and Humanities,
Faculty of Engineering and Technology
Jamia Millia Islamia, New Delhi-110025, India
Prof. Nikolaos Bouropoulos
Department of Materials Science
University of Patras
Greece
Dr. Sana Zafar
Department of Applied Sciences and Humanities,
Faculty of Engineering and Technology
Jamia Millia Islamia, New Delhi-110025, India
Prof. Adil Alshoaibi
Department of Physics, College of Science
King Faisal University, Al Ahsa, Kingdom of Saudi Arabia
Prof. Ameer Azam
Department of Physics, Islamic University of Madinah,
Kingdom of Saudi Arabia
Prof. Georgios Psarras
Department of Materials Science
University of Patras
Greece
Dr. Mukesh Pratap Singh
Department of Applied Sciences and Humanities,
Faculty of Engineering and Technology
Jamia Millia Islamia, New Delhi-110025, India
Prof. Shalendra Kumar
Department of Physics
UPES, Dehradun, India
Dr. Islam Uddin
Department of Applied Sciences and Humanities,
Faculty of Engineering and Technology
Jamia Millia Islamia, New Delhi-110025, India
Dr. Nishat Arshi
Department of Physics, College of Science,
King Faisal University, Al Ahsa, Kingdom of Saudi Arabia
Dr. S. S. Gill
Centre for Biotechnology, MD University,
Rohtak, Haryana, India
Dr. Ashi Ikram
Department of Applied Sciences and Humanities,
Faculty of Engineering and Technology
Jamia Millia Islamia, New Delhi-110025, India
Prof. Wenjuan Guo
School of Chemistry and Chemical Engineering,
University of Jinan, Jinan 250022, China.
Dr. Zoheb Karim
Alfa Laval, Denmark
Dr. Sajid Ali Ansari
Department of Physics, College of Science
King Faisal University, Kingdom of Saudi Arabia
Dr. Mohd. Zahid Ansari
Chemical Engineering Program,
Texas A&M University at Qatar, Doha,
23874 Qatar
Dr. Shahidul Islam
Department of Applied Sciences and Humanities,
Faculty of Engineering and Technology
Jamia Millia Islamia, New Delhi-110025, India
Prof. Abdullah Aljaafari
Department of Physics, College of Science
King Faisal University, Al Ahsa, Saudi Arabia
Prof. Nagih Shaalan
Assiut University, Egypt
Guide to Reviewers: Energy & Environment Advances
Welcome to the Instructions for Reviewers for Energy & Environment Advances. 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 Energy and Environment. Below are guidelines to assist you in conducting a comprehensive review of manuscripts submitted to Energy & Environment Advances.
Guide to Editors: Energy & Environment Advances
Welcome to the comprehensive Guide to Editors for Energy & Environment 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 Energy and Environmental Science and Engineering. 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 Energy & Environment Advances.
Editorial Workflow:
Manuscript Handling:
Ethical Considerations:
Collaboration and Communication:
Continuous Improvement:
Publication Ethics for Energy & Environment Advances
At Energy & Environment Advances, 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.
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.
Energy & Environment Advances is committed to achieving high visibility and widespread dissemination of the research it publishes. While the journal is currently not indexed, we are actively working towards being indexed in prominent databases and directories relevant to energy and environmental science, materials science, and related fields. Our goal is to ensure that the valuable and impactful research published in Energy & Environment Advances reaches a broad audience of scholars, researchers, and practitioners in the field.
We are in the process of applying for indexing in key databases and directories, such as Scopus, Web of Science, and others, to enhance the visibility and discoverability of articles published in the journal. As we progress in our efforts to expand the journal’s indexing coverage, we aim to increase its impact and ensure that the research published in Energy & Environment Advances contributes to the advancement of knowledge and practical solutions in energy and environmental science. Stay tuned for updates as we work towards achieving these goals and further elevating the journal’s reach within the global scientific community.
At present, there are no article processing charges (APCs) associated with publishing in Energy & Environment 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 Energy & Environment Advances. This approach ensures equitable access to scientific knowledge and supports the dissemination of research findings across the global scientific community.
Energy & Environment Advances welcomes proposals for special issues that align with the journal’s aims, scope and objectives. Special issues provide an opportunity to delve into specific topics or emerging areas within Energy and Environmental Science and Technology 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 Energy & Environment 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
Energy & Environment 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 Energy & Environment 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 Energy & Environment Advances, authors can benefit from the journal’s wide readership and open access model, maximizing the visibility and impact of their work within the Energy and Environmental Science and Technology community. We look forward to the opportunity to collaborate with you on showcasing cutting-edge research from your conference in our journal.
Anu Malhotra, Suchitra Manjhu, Harish Kumar Meena, Karishma Jain, Sonia Srivastava, Anju Lavania, S.K. Jain, Rama S Lokhande, Balram Tripathi
Summary: The study evaluates the adsorption capacity of methylene blue (MB) dye using a bio-composite of CNT-functionalized Moringa oleifera leaf powder (MOLP). Systematic optimization of adsorption parameters, including pH, dye concentration, temperature, and contact time, revealed the superior efficiency of CNT-MOLP compared to pristine MOLP. Characterization via SEM and FT-IR confirmed enhanced porosity and functional groups essential for dye binding. This work establishes CNT-MOLP as a sustainable, cost-effective adsorbent for industrial wastewater treatment applications.
Energy & Environment Advances 1(4), 206-218 (2024)
https://doi.org/10.69626/eea.2024.0206