Assoc. Prof. Dr. Xiaolong Li | Electrochemistry | Material Chemistry Award

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Assoc. Prof. Dr. Xiaolong Li | Electrochemistry | Material Chemistry Award

Assoc. Prof. Dr. Xiaolong Li | Electrochemistry | Engineering at Shangluo University, China

Dr. Xiaolong Li is an Associate Professor at the School of Chemical Engineering and Modern Materials, Shangluo University. He earned his Ph.D. in Materials Science from Tongji University in 2010 and has since contributed extensively to electrochemical sensors and nanomaterials research. With a career spanning academia and industry, Dr. Li has worked as a lecturer and senior researcher, holding key roles at Shanghai Nanotechnology Research Center and other institutions. His research explores advanced sensing materials, electrochemical gas sensors, and environmental monitoring technologies. Dr. Li has secured multiple research grants and patents, demonstrating his innovation in applied chemistry. He has published widely in high-impact journals and collaborates actively on interdisciplinary projects. His contributions to chemical sensing and nanomaterials are recognized through numerous academic achievements and patents. Currently, he continues to mentor students and lead research on next-generation sensor technologies.

Professional Profile :         

Scopus

Summary of Suitability for Award:

Dr. Xiaolong Li is highly suitable for the “Material Chemistry Award” due to his extensive contributions to materials science, particularly in electrochemical sensors, functional nanomaterials, and thin-film electrodeposition. His research focuses on developing advanced nanomaterials for gas sensors, heavy metal detection, and energy applications, directly aligning with the objectives of material chemistry. His work on C-loaded CuO-CeO₂ composites and electrochemical gas sensors has advanced environmental monitoring and industrial safety, showcasing the real-world impact of his innovations. Dr. Xiaolong Li’s groundbreaking work in electrochemical sensors and nanomaterials has significantly contributed to materials chemistry and environmental applications. His innovations in thin-film materials, composite sensors, and functional coatings have practical applications in pollution control, industrial monitoring, and energy storage. Given his outstanding research output, patents, and recognition in material chemistry, he is an excellent nominee for the “Material Chemistry Award”, representing a blend of academic excellence, industrial impact, and future potential in the field.

🎓Education:

Dr. Xiaolong Li holds a Ph.D. in Materials Science from Tongji University (2007-2010), where he focused on the electrodeposition and characterization of thermoelectric materials. His research explored the fabrication of Bi₂Se₃ thin films, contributing to advancements in energy conversion and sensor applications. Prior to his doctoral studies, he earned an M.Sc. in Applied Chemistry from Xi’an University of Architecture and Technology (2002-2005), specializing in environmental chemistry and chemical sensor development. His master’s research emphasized novel analytical techniques for detecting pollutants, laying the foundation for his work in electrochemical sensing. He began his academic journey with a Diploma in Environmental Monitoring from Baoji University of Arts and Sciences (1996-1999), gaining essential skills in pollution control and environmental analysis. His interdisciplinary education, spanning materials science, chemistry, and environmental monitoring, has shaped his expertise in developing functional nanomaterials and high-sensitivity sensors for industrial and environmental applications.

🏢Work Experience:

Dr. Xiaolong Li has a diverse professional background, blending academic research and industry experience. He currently serves as an Associate Professor at Shangluo University’s School of Chemical Engineering and Modern Materials (2024-present), where he focuses on electrochemical sensor development and nanomaterials research. Prior to this, he worked as a Lecturer at the same institution (2018-2023), mentoring students and conducting research on advanced sensing technologies. His industry experience includes serving as a Senior Manager at Shanghai Yuxing Technology Co., Ltd. (2016-2018), where he led R&D projects in sensor fabrication. From 2013 to 2015, he was an Assistant Researcher at the Shanghai National Engineering Research Center for Nanotechnology, working on surface technology and functional coatings. Earlier in his career, he was a Senior Engineer at Shanghai Hengwei Information Technology (2011-2013), focusing on environmental monitoring systems. His extensive experience bridges fundamental research and practical applications in sensor technology.

🏅Awards: 

Dr. Xiaolong Li has received numerous accolades for his contributions to materials science and sensor technology. In 2021, he was awarded the Provincial Key Research Grant Award for his innovative work in developing electrochemical sensors for heavy metal detection. His advancements in gas sensor technology earned him the Industry Innovation Award in 2017, recognizing his role in designing high-sensitivity electrochemical sensors for environmental applications. He received the Best Paper Award in 2015 for his pioneering research on amperometric CO sensors. In 2024, he was honored with a Patent Recognition Award for securing multiple patents related to electrochemical gas sensors and functional nanomaterials. Additionally, he was named an Outstanding Researcher in 2022 for his significant contributions to applied nanotechnology. His achievements reflect his commitment to advancing sensor materials and environmental monitoring, bridging the gap between academic research and industrial applications.

🔬Research Focus:

Dr. Xiaolong Li’s research is centered on the development of electrochemical sensors, functional nanomaterials, and environmental monitoring technologies. His work in electrochemical gas sensors has led to the creation of high-sensitivity detection devices for pollutants such as carbon monoxide and heavy metals. He explores nanomaterials for sensing applications, particularly C-loaded CuO-CeO₂ composites and other advanced materials, to enhance sensor performance. His expertise in environmental chemistry is evident in his development of novel chemical detection methods for wastewater treatment and air quality monitoring. Additionally, he investigates thin film electrodeposition, optimizing electrode materials for energy and sensor applications. His interdisciplinary approach integrates nanotechnology with analytical chemistry, fostering innovation in real-world applications such as industrial safety, healthcare diagnostics, and environmental protection. His research has led to groundbreaking advancements in chemical sensing, contributing to sustainable and efficient monitoring technologies for diverse industrial and scientific fields.

Publication Top Notes:

  • “A V₁₀O₂₄·nH₂O Layered Material with Low Crystal Water Content as a High-Performance Cathode for Aqueous Zinc-Ion Batteries

  • “The Effect of Zn²⁺ on the Positive Electrolyte for All-Vanadium Redox Flow Battery”

  • “High-Sensitivity CO Electrochemical Gas Sensor Based on Superconductive C-Loaded CuO-CeO₂ Nanocomposite”

 

Prof. Rizwan Raza | Electrochemistry | Outstanding Scientist Award

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Prof. Rizwan Raza | Electrochemistry | Outstanding Scientist Award

Prof. Rizwan Raza | Electrochemistry | Professor at COMSATS University Islamabad ,Pakistan

Dr. Rizwan Raza is a Tenured Professor in the Department of Physics at COMSATS University Islamabad, Lahore Campus, Pakistan. He earned his Ph.D. in Energy Technology from the Royal Institute of Technology (KTH), Sweden, specializing in fuel cell technology. He completed postdoctoral research at Chalmers University of Technology, Sweden, and has over 20 years of experience in academia and research. Dr. Raza has authored over 200 publications with an h-index of 46 and 6,800+ citations. His research focuses on energy conversion and storage, including fuel cells, solar cells, batteries, and supercapacitors. He played a key role in developing a novel “New Energy Conversion Device” reported in Nature Nanotechnology. As the Head of the Clean Energy Research Group, he has supervised numerous Ph.D. and MSc students. He actively collaborates with international institutions and serves on the editorial boards of multiple scientific journals.

Professional Profile :         

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Summary of Suitability for Award:

Dr. Rizwan Raza is an accomplished researcher and innovator in clean energy and fuel cell technology, making him highly suitable for the “Outstanding Scientist Award”. His contributions span fundamental and applied research in energy conversion, hydrogen technology, and nanostructured materials. With an extensive publication record in high-impact journals like Nature Nanotechnology, he has made pioneering advancements in solid oxide fuel cells, perovskite solar cells, and sustainable energy storage systems. His innovative energy conversion device has set new benchmarks for efficiency and cost-effectiveness, positioning him as a leader in green energy solutions. Dr. Rizwan Raza’s outstanding contributions to clean energy research, groundbreaking innovations in fuel cell technology, and global recognition in the scientific community make him a highly deserving candidate for the “Outstanding Scientist Award”. His impactful research, international collaborations, and dedication to sustainable energy solutions have positioned him as a visionary leader in renewable energy technology.

🎓Education:

Dr. Rizwan Raza earned his Ph.D. in Energy Technology from the Royal Institute of Technology (KTH), Sweden, with a specialization in fuel cell technology and nanocomposites for advanced energy systems. He pursued postdoctoral research at KTH, focusing on hybrid fuel cell and solar cell technology. Additionally, he completed research fellowships at Chalmers University of Technology and Linköping University, Sweden, where he contributed to hydrogen energy devices and semiconductor materials research. Dr. Raza has undertaken specialized training in hydrogen safety and ethical aspects of nanotechnology from prestigious institutions across Europe. His academic foundation includes a Master’s degree in Physics from the University of the Punjab, Pakistan. With extensive exposure to multidisciplinary research, his education has been centered around energy conversion, sustainable materials, and innovative nanotechnologies for green energy solutions. His expertise bridges the gap between fundamental research and real-world applications, driving advancements in clean and efficient energy technologies.

🏢Work Experience:

Dr. Rizwan Raza is a tenured Professor at COMSATS University Islamabad, Lahore Campus, where he has served in various academic and administrative roles. He has led the Department of Physics and played a key role in establishing and managing the Clean Energy Research Lab (CERL). He has guided numerous graduate and undergraduate students, contributing to research in energy storage and conversion. His professional journey includes research and teaching positions at KTH Sweden, where he worked on fuel cell and solar cell hybrid systems. He has also served as a visiting researcher at Linköping University and Chalmers University, Sweden, collaborating on hydrogen generation and catalyst development projects. His extensive experience spans academia, research, and administration, making him a leader in sustainable energy technologies. His contributions extend beyond academia, with strong industry collaborations and innovative approaches in clean energy research.

🏅Awards: 

Dr. Rizwan Raza has been recognized globally for his contributions to clean energy and fuel cell research. He received the prestigious Gold Medal from the Pakistan Academy of Science for his groundbreaking work. His innovation in energy conversion technology earned him awards such as the Idea to Product (I2P) Stockholm recognition and the NANOSMAT Award in Rome. He has been honored multiple times with the Research Productivity Award from Pakistan’s top scientific institutions. His contributions to fuel cell advancements were acknowledged by the GETT Fuel Cells AB with a Best Performance Award. He has also been named the Young Productive Scientist of Pakistan by the Pakistan Council for Science and Technology (PCST). His pioneering work has been featured in top-tier journals, including Nature Nanotechnology, solidifying his reputation as a leading researcher. His international recognition reflects his dedication to advancing energy solutions for a sustainable future.

🔬Research Focus:

Dr. Rizwan Raza’s research is centered on developing next-generation energy conversion and storage devices. His work encompasses solid oxide fuel cells, perovskite solar cells, lithium-ion batteries, and supercapacitors. He has significantly contributed to the synthesis and optimization of nanostructured materials for hydrogen generation and chemical looping gasification. His research group explores the integration of fuel cell technology in various applications, from stationary power to portable energy solutions. A key highlight of his work is the development of an innovative energy conversion device, a cost-effective alternative to traditional fuel cells, which was published in Nature Nanotechnology. His research also extends to climate change mitigation through clean hydrogen production and sustainable energy solutions. Collaborating with leading global institutions, he aims to advance energy-efficient technologies that address environmental challenges and contribute to a cleaner, more sustainable future.

Publication Top Notes:

Fabrication of efficient composite anode based on SiC for direct carbon fuel cell

Supercapacitors: Shaping the future energy storage landscape for flexible, implantable, and wearable electronic devices

Ultrathin broadband terahertz metamaterial based on single-layer nested patterned graphene

Citations: 10

Unveiling the potential surface-coated electrolyte with elevated performance for low-temperature ceramic fuel cells

Advanced optical reinforcement materials based on three-dimensional four-way weaving structure and metasurface technology

Citations: 10

Electrochemical study of Ag2O/MWCNTs composite electrode material for energy storage devices

High-Entropy Li-doped rock salt catalyst for low-Temperature ceramic fuel cells

Citations: 1

The Composite La2-xNdxCe2O7-δ Material for New Energy Conversion Devices: A Physiochemical and Electrochemical Study

Emerging semiconductor ionic materials tailored by mixed ionic-electronic conductors for advanced fuel cells

Citations: 7

Codoped Ceria Electrolyte for Direct Carbon Fuel Cell with Carbon Fly Ash Fuel

Dr. Fernando Zinola | Electrochemistry | Outstanding Scientist Award

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Dr. Fernando Zinola | Electrochemistry | Outstanding Scientist Award

Dr. Fernando Zinola | Electrochemistry | Full Profesor at UDELAR, Uruguay

Dr. Carlos Fernando Zinola Sánchez is a distinguished electrochemist and professor at Universidad de la República, Uruguay. As a Full Professor of Electrochemistry and Head of the Electrochemical Engineering Interdisciplinary Group, he has significantly contributed to electrochemistry and renewable energy research. His pioneering work in fuel cells, hydrogen production, and electrocatalysis has led to groundbreaking technological developments, including patents in platinum electrodeposition, fuel cell design, and seawater desalination. He has served as the President of Sociedad Iberoamericana de Electroquímica (SIBAE) (2022–2024) and remains an active member of the International Society of Electrochemistry (ISE). With over 100 peer-reviewed publications, 4 books, and 5 book chapters, Dr. Zinola has made substantial contributions to fundamental and applied electrochemistry. His work on molecular oxygen reduction, catalyst development, and energy conversion has shaped modern electrochemical applications. His leadership in scientific research, industrial collaborations, and academic mentorship establishes him as a leading figure in his field.

Professional Profile :         

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Summary of Suitability for Award:

Carlos Fernando Zinola Sánchez is an exceptional candidate for the “Outstanding Scientist Award” due to his significant contributions to electrochemistry, renewable energy, and sustainable hydrogen production. As a Full Professor and Head of the Electrochemical Engineering Interdisciplinary Group at Universidad de la República, he has played a pivotal role in advancing electrochemical science through groundbreaking research and technological innovations. His extensive academic background, including postdoctoral research in Germany and Spain, has enriched his expertise in electrocatalysis, fuel cells, and electrochemical energy conversion. Carlos Fernando Zinola Sánchez is highly suitable for the “Outstanding Scientist Award” based on his groundbreaking research, technological innovations, and significant contributions to electrochemistry and renewable energy. His leadership, patents, and extensive publication record underscore his excellence as a scientist. His work has had both academic and industrial impact, making him a distinguished researcher with a lasting legacy in clean energy technologies. Recognizing him with this award would honor his dedication to advancing science and sustainability

🎓Education:

Carlos Fernando Zinola Sánchez obtained his Bachelor of Science degree in Chemistry from Universidad de la República, Uruguay. He pursued his Master’s and Ph.D. in Chemistry at the Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas (INIFTA), Universidad Nacional de La Plata, Argentina, specializing in electrocatalysis and molecular oxygen reduction. He further expanded his expertise through postdoctoral research in Germany at the University of Bonn, focusing on the application of ultra-high vacuum techniques to electrochemistry. He continued postdoctoral training in Spain at Universidad de La Laguna, where he studied hybrid techniques integrating infrared spectroscopy and mass spectrometry with electrochemical potential modulation. His diverse academic background reflects a deep commitment to advancing electrochemical methodologies and fuel cell technologies. With extensive interdisciplinary training, he has developed a strong foundation in fundamental and applied electrochemistry, contributing significantly to innovations in renewable energy, hydrogen production, and catalytic material design.

🏢Work Experience:

Carlos Fernando Zinola Sánchez serves as a Full Professor of Electrochemistry at Universidad de la República, where he leads the Electrochemical Engineering Interdisciplinary Group. His work extends beyond academia, involving technological advancements in hydrogen production, electrocatalysis, and renewable energy systems. As a researcher in the National System of Researchers, he has played a pivotal role in scientific developments under the Ministry of Education. His expertise has contributed to pioneering projects such as the manufacturing of hydrogen-powered buses and fuel cell technology development. He has collaborated with leading international institutions and industries, integrating electrochemical innovations into practical applications. Additionally, his active engagement in research networks, including PEDECIBA and the Sociedad Iberoamericana de Electroquímica, has positioned him as a key figure in advancing sustainable energy solutions. His extensive leadership in electrochemical engineering has led to significant contributions in clean energy, fuel cells, and electrocatalysis.

🏅Awards: 

Carlos Fernando Zinola Sánchez has received prestigious recognitions for his contributions to electrochemistry and renewable energy. He was honored with the Génesis Award for his groundbreaking patent on platinum electrodeposition techniques. His research has been acknowledged through patents on electrocatalytic surface modifications and energy generation technologies. He has been an esteemed member of the International Society of Electrochemistry and served as President of the Sociedad Iberoamericana de Electroquímica. His influential work in sustainable energy systems has earned him national and international accolades, including funding from leading research organizations. As a distinguished scientist, he has been instrumental in hydrogen production projects, desalination innovations, and electrocatalysis advancements. His impactful contributions to the scientific community have led to multiple leadership roles and invitations to collaborate on high-impact projects, reinforcing his status as a leading expert in electrochemical engineering and sustainable energy solutions.

🔬Research Focus:

Carlos Fernando Zinola Sánchez specializes in electrocatalysis, fuel cells, and hydrogen energy systems. His research focuses on developing innovative electrochemical methods for energy conversion, emphasizing sustainable hydrogen production, catalytic efficiency, and advanced electrode materials. He has contributed significantly to the understanding of molecular oxygen reduction and interfacial electrochemical processes. His work integrates computational and experimental approaches to optimize electrocatalytic surfaces, reducing the impact of poisoning effects in fuel cells. He has pioneered technological advancements in hydrogen-based transportation, desalination systems, and hybrid electrochemical techniques. His interdisciplinary research extends to the application of nanostructured materials for energy storage and conversion. His contributions have played a vital role in developing practical solutions for clean energy technologies, water purification, and efficient electrochemical reactors.

Publication Top Notes:

Theoretical and Experimental Study of Linear Momentum Contours in Pristine and Aged Nafion 117 Membranes

Current Densities at Hemispherical and Columnar Pt Electrocatalysts under Föppl and Burger Vortex Conditions

Current Density Profiles at Thin Layer Electrochemical Cells under Laminar and Turbulent Regimes

Carbon Monoxide Oxidation Assisted by Interfacial Oxygen-Water Layers

Structural Characterization and Electrochemical Performance of Zr₁₋ₓTiₓCr₀.₇Mo₀.₃Ni Alloys

Electrochemical Transformation of Platinum Spheres into Nanocubes and Nanocubebipyramids

Thermodynamic Analysis of AB₂ Hydrides: ZrCr₁₋ₓTiₓNiMo₀.₃ Alloys

A Method for the Synthesis of Platinum Nanoparticles with Defined Crystalline Orientations and Their Catalytic Activity towards Nitrogen and Carbon Monoxide Oxidations

Direct Estimation of Surface Pressures by Hydrogen Adsorbates on Platinum Surfaces in Perchloric Acid

Electrochemical Determination of Physicochemical and Mechanical Properties in ZrCr₁₋ₓNiMoₓ Hydrides

Dr. Miglena Slavova | Electrochemistry | Best Researcher Award

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Dr. Miglena Slavova | Electrochemistry | Best Researcher Award

Dr. Miglena Slavova , Institute of Electrochemistry and Energy Sources – Bulgarian Academy of Sciences, Todor Kableshkov University of Transport , Bulgaria

Dr. Miglena Petkova Slavova, a distinguished researcher and academic, is affiliated with the Institute of Electrochemistry and Energy Systems (IEES) of the Bulgarian Academy of Sciences and serves as an Associate Professor at Todor Kableshkov University of Transport. She holds a Ph.D. in Organic Chemistry from Shumen University and a Master’s in Analytical Chemistry from Sofia University. Based in Sofia, Bulgaria, her work focuses on developing innovative Zn/air batteries and advancing electrochemical energy systems. Dr. Slavova’s contributions are evident in her extensive research publications, patents, and active participation in international projects like Horizon 2020 and FP7 initiatives. She has co-authored books on analytical chemistry and has a growing citation index reflecting her academic influence. Passionate about fostering sustainability in energy systems, she seamlessly integrates her research expertise with her teaching responsibilities, nurturing the next generation of scientists.

Professional Profile

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Summary of Suitability for Award:

Dr. Miglena Petkova Slavova is an exceptional candidate for the “Best Researcher Award” due to her significant contributions to energy research and innovative advancements in electrochemical systems. Her expertise in Zn/air batteries and solid oxide fuel cells is exemplified by her participation in prestigious international projects, such as Horizon 2020 and FP7, which address critical challenges in energy sustainability. Dr. Slavova’s research has not only resulted in 35 impactful publications but also led to groundbreaking patents, including carbon-free gas diffusion electrodes, demonstrating her ability to translate scientific insights into practical innovations .Dr. Slavova embodies the qualities of a “Best Researcher Award” through her groundbreaking contributions to energy storage technologies, academic excellence, and sustained innovation. Her work addresses global energy challenges while fostering educational advancements, making her a highly deserving candidate for this prestigious recognition.

🎓Education:

Dr. Miglena Petkova Slavova holds a Master’s degree in Analytical Chemistry from Sofia University, where she developed a deep understanding of chemical analysis techniques and methodologies. She later earned a Ph.D. in Organic Chemistry from Shumen University, focusing on innovative materials and processes in energy systems. Her academic foundation is further strengthened by her involvement in co-authoring educational textbooks, such as “Analytical Chemistry” and “Analytical Chemistry Protocols for Quantitative Analysis”, which serve as vital resources for students and researchers. Through her educational journey, Dr. Slavova has cultivated a multidisciplinary expertise, integrating organic, physical, and analytical chemistry, making her an asset in both academia and applied research.

🏢Work Experience:

Dr. Slavova is a Research Assistant at the Institute of Electrochemistry and Energy Systems (IEES), Bulgarian Academy of Sciences, where she works on sustainable energy solutions, including Zn/air batteries. Concurrently, she serves as an Associate Professor at Todor Kableshkov University of Transport, teaching chemistry and ecology. Her extensive experience includes contributions to prestigious EU-funded projects such as Horizon 2020 and FP7, focusing on developing advanced materials for batteries and fuel cells. Dr. Slavova’s hands-on expertise in electrochemical studies is complemented by her role as a co-author of analytical chemistry textbooks and her innovative patents, including designs for gas diffusion electrodes. Her dual roles in teaching and research exemplify her dedication to advancing science while mentoring future chemists.

🏅Awards: 

Dr. Slavova has received multiple accolades for her groundbreaking work in energy systems. Her patents, including those for carbon-free gas diffusion electrodes, have been recognized by the Bulgarian Patent Office for their innovation. As a key participant in Horizon 2020 and other EU-funded projects, she has earned accolades for her contributions to international research collaborations. Her co-authored textbooks on analytical chemistry have been celebrated as significant academic resources, enhancing educational quality in electrochemistry. These honors, coupled with her role in leading impactful research projects, underscore her commitment to advancing sustainable energy technologies and fostering knowledge dissemination.

🔬Research Focus:

Dr. Slavova’s research centers on developing cutting-edge energy systems, particularly rechargeable Zn/air batteries and solid oxide fuel cells. Her expertise lies in electrochemical analysis, focusing on improving the efficiency, durability, and sustainability of these systems. She has made significant strides in material science, particularly in designing carbon-free and zeolite-based gas diffusion electrodes, evidenced by her patents. Her work also explores degradation mechanisms in energy devices, contributing to predictive models for battery lifespan. Additionally, Dr. Slavova integrates her research into academia, developing innovative teaching methodologies and co-authoring textbooks to bridge the gap between theoretical knowledge and practical applications.

Publication Top Notes:

Application of zeolite and comparable porous materials for enhancing the performance of different types of secondary batteries: A review article

Authors: Slavova, M.; Slavov, I.; Terziev, V.; Mladenova, E.; Abrashev, B.

Year: 2024

Citations: 0

Electrochemical testing of zeolite-based gas-diffusion electrodes for secondary metal-air batteries—in memory of Prof. A. Milchev

Authors: Slavova, M.; Abrashev, B.; Mladenova, E.; Pandev, M.; Mihaylova-Dimitrova, E.

Year: 2024

Citations: 1

Analysis of serum antioxidant activity in women with impaired bone density and effect on it of serum concentrations of copper and zinc

Authors: Tomova, R.; Asenova, S.; Atanasova, L.; Nikolova, M.; Slavova, M.

Year: 2023

Citations: 0

Optimized zinc electrode for rechargeable zinc-air batteries

Authors: Slavova, M.; Abrashev, B.; Mladenova, E.; Burdin, B.; Raikova, G.

Year: 2023

Citations: 0

Investigation of Ni- and Co-Based Bifunctional Electrocatalysts for Carbon-Free Air Electrodes Designed for Zinc-Air Batteries

Authors: Mladenova, E.; Slavova, M.; Abrashev, B.; Burdin, B.; Raikova, G.

Year: 2023

Citations: 31

NEW EVIDENCE FOR FREQUENCY-DEPENDENT PERMITTIVITY RESPONSE OF BIOLOGICAL MATTER PART II: CARBOHYDRATE TESTING BY DIELECTRIC IMPEDANCE SPECTROSCOPY

Authors: Mladenova, E.; Slavova, M.; Dobreva, L.; Kostadinova, O.; Danova, S.

Year: 2023

Citations: 0

NEW EVIDENCE FOR FREQUENCY-DEPENDENT PERMITTIVITY RESPONSE OF BIOLOGICAL MATTER PART I: BOVINE MILK, SOY MILK AND WHEY PROTEIN INVESTIGATION

Authors: Mladenova, E.; Dobreva, L.; Slavova, M.; Kostadinova, O.; Danova, S.

Year: 2022

Citations: 1

Monolithic carbon-free gas diffusion electrodes for secondary metal-air batteries

Authors: Mladenova, E.; Slavova, M.; Mihaylova-Dimitrova, E.; Raikova, G.; Vladikova, D.

Year: 2021

Citations: 10

ELECTROCHEMICAL PROPERTIES OF AN OPTIMIZED GAS-DIFFUSION ELECTRODE (GDE) FOR RECHARGEABLE Zn-AIR BATTERIES

Authors: Abrashev, B.; Slavova, M.; Mladenova, E.; Raikova, G.; Petrov, K.

Year: 2021

Citations: 2

Zeolite based air electrodes for secondary batteries

Authors: Slavova, M.; Mihaylova-Dimitrova, E.; Mladenova, E.; Burdin, B.; Vladikova, D.

Year: 2020

Citations: 11