Bahareh Heidary | Energy | Women Researcher Award

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Dr. Bahareh Heidary | Energy | Women Researcher Award

Assistant Professor | University of Tehran | Iran

Dr. Bahareh Heidary is an emerging scholar at the University of Tehran, Iran, recognized for her interdisciplinary contributions to sustainable development, water governance, and agricultural policy research. With 6 published documents, 103 citations, and an h-index of 4, she has built a growing academic footprint focused on understanding the socio-environmental challenges faced by farming communities. Her research examines how individual, social, and institutional characteristics shape adaptive capacity in response to water and energy crises, emphasizing evidence-based approaches to enhance resilience in resource-scarce environments. Dr. Heidary’s 2025 open-access article in Water Policy, “Examining the impact of farmers’ individual and social characteristics on enhancing adaptive capacity to water and energy crises,” demonstrates her methodological rigor and commitment to addressing real-world sustainability issues through empirical analysis. She frequently collaborates with national and international researchers, integrating perspectives from environmental management, rural livelihoods, social sciences, and resource economics to generate holistic insights relevant to policymakers, water management institutions, and development agencies. Her work contributes significantly to global conversations on climate adaptation, sustainable agricultural systems, and equitable resource management. By identifying key behavioral and community-level drivers of adaptive decision-making, Dr. Heidary provides practical guidance for designing resilience-oriented policies and supporting vulnerable rural populations. Her emerging scholarship reflects both academic excellence and societal relevance, positioning her as a promising researcher dedicated to advancing sustainable and resilient solutions at the intersection of environmental change, agriculture, and community development.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate

Featured Publications

Heidary, B., Hassan-Beygi, S. R., Ghobadian, B., & Taghizadeh, A. (2013). Vibration analysis of a small diesel engine using diesel–biodiesel fuel blends. Agricultural Engineering International: CIGR Journal, 15(3), 117–126. Cited by: 65

Heidary, B., Hashjin, T. T., Ghobadian, B., & Roshandel, R. (2018). Optimal integration of small-scale hybrid solar–wind RO–MSF desalination system. Renewable Energy Focus, 27, 120–134. Cited by: 55

Akbarnia, A., Farhani, F., & Heidary, B. (2013). Economic comparison of tillage and planting operations in three tillage systems. Agricultural Engineering International: CIGR Journal, 15(4), 180–184. Cited by: 13

Heidary, B., Hassan-Beygi, S. R., & Ghobadian, B. (2013). Investigating a power tiller vibration transmissibility using diesel–biodiesel fuel blends under stationary conditions. Journal of Mechanical Engineering and Technology (JMET), 5(1). Cited by: 12

Heidary, B., Hashjin, T., Ghobadian, B., & Roshandel, R. (2019). Performance analysis of hybrid solar–wind RO–MSF desalination system. Resource-Efficient Technologies. Cited by: 10

Bhawna Yadav Lamba | Energy | Best Researcher Award

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Prof. Dr. Bhawna Yadav Lamba | Energy | Best Researcher Award

Professor | University of Petroleum and Energy Studies| India

Prof. Dr. Bhawna Yadav Lamba, currently serving as Professor of Chemistry at the University of Petroleum and Energy Studies (UPES), Dehradun, is an accomplished academic and researcher whose expertise lies in sustainable energy and environmental chemistry, with specific focus on biofuels, wastewater management, and plastic waste valorization. She earned her Ph.D. in Chemistry from H.N.B. Garhwal University in 2010, following a Master’s in Polymer Technology from Delhi College of Engineering (2004), an M.Sc. in Organic Chemistry (2000), and a B.Sc. in Chemistry, Botany, and Zoology from DAV (PG) College, Dehradun (1998). With more than two decades of teaching and research experience at UPES since 2004, she has developed and delivered courses in Chemistry, Polymer Materials, and Applied Sciences while mentoring students and training industry professionals. Her research interests include biodiesel preparation and optimization, microalgae-mediated wastewater reclamation coupled with bio-oil and biogas production, and conversion of plastic waste—including municipal plastics and COVID-19 PPE—into alternative fuels such as Plasto-oil. Skilled in experimental chemistry, analytical techniques, interdisciplinary collaborations, and advanced computational approaches, she has contributed to high-impact publications in globally recognized journals such as Journal of Analytical and Applied Pyrolysis, International Journal of Hydrogen Energy, Journal of Materials Chemistry A, and Food Chemistry, with her work widely indexed in Scopus, IEEE, and other reputed platforms. Dr. Lamba’s outstanding contributions have been recognized through numerous awards, including the S.R. Bhatnagar Memorial Research Award (2023–24), Young Scientist Award (2023), IGEN Women Achiever Award (2021), and multiple Best Paper and R&D recognitions, along with consistent acknowledgment as an inspiring teacher. Beyond academia, she has coordinated CSR initiatives like Abhilasha, reinforcing her commitment to community development. With her strong academic foundation, impactful research outputs, and international collaborations, Prof. Lamba continues to advance sustainability, environmental resilience, and green chemistry, making her a deserving candidate for recognition and a role model for future scientific leadership.

Profile: Google Scholar | Scopus ORCID

Featured Publications

  1. Raj, T., Kapoor, M., Gaur, R., Christopher, J., Lamba, B., Tuli, D. K., & Kumar, R. (2015). Physical and chemical characterization of various Indian agriculture residues for biofuels production. Energy & Fuels, 29(5), 3111–3118. Cited by: 258

  2. Joshi, G., Rawat, D. S., Lamba, B. Y., Bisht, K. K., Kumar, P., Kumar, N., & Kumar, S. (2015). Transesterification of Jatropha and Karanja oils by using waste egg shell derived calcium based mixed metal oxides. Energy Conversion and Management, 96, 258–267. Cited by: 178

  3. Sharma, M., Jain, S., & Lamba, B. Y. (2020). Epigrammatic study on the effect of lockdown amid Covid-19 pandemic on air quality of most polluted cities of Rajasthan (India). Air Quality, Atmosphere & Health, 13(10), 1157–1165. Cited by: 66

  4. Rawat, D. S., Joshi, G., Lamba, B. Y., Tiwari, A. K., & Kumar, P. (2015). The effect of binary antioxidant proportions on antioxidant synergy and oxidation stability of Jatropha and Karanja biodiesels. Energy, 84, 643–655.
    Cited by: 60

  5. Rawat, D. S., Joshi, G., Lamba, B. Y., Tiwari, A. K., & Mallick, S. (2014). Impact of additives on storage stability of Karanja (Pongamia Pinnata) biodiesel blends with conventional diesel sold at retail outlets. Fuel, 120, 30–37. Cited by: 53

Jorge González-Morales | Energy Storage | Best Researcher Award

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Dr. Jorge González-Morales | Energy Storage | Best Researcher Award

Postdoc at Instituto de la Ceramica y Vidrio CSIC, Spain

Dr. Jorge Gonzalez Morales is a promising researcher in the field of electrochemistry, with a Ph.D. from Universidad Autónoma de Madrid. His doctoral work focused on developing bifunctional electrocatalysts using non-strategic transition metals to enhance the performance of aqueous zinc-air batteries. Conducted at the Instituto de Cerámica y Vidrio (ICV-CSIC), his research emphasized sustainable, cost-effective materials for improved oxygen reduction and evolution reactions. Dr. Morales has actively participated in scientific training and outreach programs, supervised academic theses, and contributed to public science engagement. His work demonstrates strong expertise in energy storage, catalysis, and material science, making him a suitable candidate for the Best Researcher Award. With a foundation in environmental sciences and hydrology, his interdisciplinary background strengthens his innovative approach. Continued development in publication output and international collaborations could further elevate his profile. Overall, Dr. Morales exhibits the qualities of a dedicated and impactful early-career researcher.

Professional Profile 

Education

Dr. Jorge Gonzalez Morales has a strong academic background rooted in interdisciplinary scientific training. He began his higher education with a Bachelor’s degree in Environmental Sciences, followed by a Master’s degree in Hydrology and Water Resources Management, providing him with a solid foundation in environmental and sustainability studies. Driven by a growing interest in renewable energy and electrochemical applications, he pursued and successfully completed his Ph.D. at the Universidad Autónoma de Madrid. His doctoral research, conducted at the prestigious Instituto de Cerámica y Vidrio (ICV-CSIC), focused on the design and development of bifunctional electrocatalysts based on non-strategic transition metals for high-performance aqueous zinc-air batteries. This academic journey reflects his commitment to addressing global energy challenges through advanced materials and electrochemical technologies. His education has equipped him with both theoretical knowledge and practical laboratory skills, fostering an innovative mindset that bridges environmental science and cutting-edge electrochemical research.

Professional Experience

Dr. Jorge Gonzalez Morales possesses extensive professional experience in the fields of electrochemistry, energy storage, and sustainable materials. His research career has been marked by significant contributions to the development of bifunctional electrocatalysts for rechargeable aqueous zinc-air batteries, utilizing non-strategic transition metals. Throughout his tenure at the Instituto de Cerámica y Vidrio (ICV-CSIC), he actively engaged in both fundamental and applied research, advancing materials science for renewable energy applications. He collaborated with multidisciplinary teams on the design, synthesis, and electrochemical characterization of catalysts, contributing to innovations that enhance battery performance and sustainability. Beyond research, Dr. Gonzalez Morales has presented his work at national and international conferences and has authored several scientific publications, reflecting his dedication to knowledge dissemination. His professional journey demonstrates a strong blend of academic rigor and practical expertise, positioning him as a key contributor to the advancement of clean energy technologies and next-generation energy storage solutions.

Research Interest

Dr. Jorge Gonzalez Morales’s research interests lie at the intersection of sustainable energy, materials science, and electrochemistry, with a primary focus on energy storage systems. He is particularly interested in the development of advanced, low-cost, and high-performance electrocatalysts for metal-air batteries, especially zinc-air batteries, which are considered promising alternatives for next-generation energy storage. His work emphasizes the use of non-strategic, earth-abundant transition metals to replace costly noble metals in catalytic applications, aiming to enhance efficiency while maintaining sustainability. Dr. Gonzalez Morales is also deeply engaged in understanding the fundamental mechanisms governing oxygen reduction and evolution reactions (ORR and OER) within these systems. His research seeks to bridge the gap between material design and practical implementation, contributing to the creation of more reliable and environmentally friendly energy technologies. Through his innovative approaches, he aims to address global energy challenges and promote the transition toward cleaner, more sustainable power sources.

Award and Honor

Dr. Jorge Gonzalez Morales has been the recipient of several prestigious awards and honors that reflect his outstanding contributions to the field of materials science and sustainable energy. His dedication to research and academic excellence has earned him recognition from both national and international institutions. Notably, he has received multiple research grants and fellowships that support his work on advanced energy storage systems and electrocatalysis. Dr. Gonzalez Morales has been invited to present his research at leading scientific conferences, further highlighting his reputation in the global research community. In acknowledgment of his scientific achievements, he has been honored with awards for innovation and excellence in research by various academic and scientific organizations. His work has also led to high-impact publications in reputed journals, for which he has received accolades from peers and reviewers alike. These honors underscore his commitment to advancing science and developing solutions to address pressing global energy challenges.

Research skill

Dr. Jorge Gonzalez Morales possesses a robust set of research skills that enable him to excel in the fields of materials science, electrochemistry, and sustainable energy systems. His expertise spans the synthesis and characterization of advanced materials, particularly for applications in energy storage and conversion, such as supercapacitors and batteries. He is proficient in a wide range of experimental techniques including scanning electron microscopy (SEM), X-ray diffraction (XRD), and electrochemical impedance spectroscopy (EIS), which he utilizes to analyze material properties and optimize performance. Dr. Gonzalez Morales also demonstrates strong analytical and problem-solving skills, essential for designing experiments, interpreting complex datasets, and developing innovative solutions to scientific challenges. Additionally, his experience in interdisciplinary collaboration and grant writing highlights his ability to manage research projects from conception to publication. His strong communication and mentoring abilities further support his effectiveness in both academic research and knowledge dissemination within the scientific community.

Conclusion

Jorge Gonzalez Morales is a strong early-career researcher with demonstrated excellence in sustainable electrochemistry and battery innovation. His focus on real-world applications and commitment to outreach and training make him a valuable contributor to the scientific community.

However, for Best Researcher Award (often highly competitive), his candidacy would be significantly strengthened by:

  • A detailed list of published peer-reviewed articles (especially in high-impact journals),

  • Demonstrated leadership in research projects, and

  • Greater international visibility or recognitions.

Publications Top Noted

  • Title: Carbon-Free Cathode Materials Based on Titanium Compounds for Zn-Oxygen Aqueous Batteries
    Authors: J. González-Morales, J. Mosa, S. Ishiyama, N.C. Rosero-Navarro, A. Miura, …
    Year: 2024
    Citation: Batteries, 10(3), 94

  • Title: Electrochemical and Structural Properties of Binder-Free Iron-Based Bifunctional Catalyst for Aqueous Zinc-Oxygen Batteries
    Authors: J. González-Morales, M. Aparicio, N.C. Rosero-Navarro, F.M. Zanotto, …
    Year: 2024
    Citation: Open Ceramics, 20, 100667

  • Title: A Stable Rechargeable Aqueous Zn–Oxygen Battery with Mn-Based Bifunctional Electrocatalysts
    Authors: J. González-Morales, M. Aparicio, N.C. Rosero-Navarro, J. Mosa
    Year: 2024
    Citation: ACS Applied Energy Materials, 7(16), 7096–7109