Mohan Reddy - Energy storage devices - Best Researcher Award

Yeungnam University - South Korea

AUTHOR PROFILE

GOOGLE SCHOLAR

MOHAN REDDY: PIONEER IN ENERGY STORAGE SYSTEMS AND MATERIALS SCIENCE ⚡

OVERVIEW OF EXPERTISE 🔍

Mohan Reddy is a highly skilled researcher specializing in energy storage systems, particularly supercapacitors and batteries. His work focuses on the development and testing of advanced energy storage devices for applications in technology vehicles and electronics. With a strong background in product development, Mohan has made significant contributions to the field through innovative research and collaboration with experienced research associates.

RESEARCH EXPERIENCE AND ACHIEVEMENTS 🧪

Currently, Mohan is engaged in the design and development of energy storage devices, emphasizing supercapacitors and batteries. His research includes the fabrication of these devices and rigorous testing to evaluate their electrochemical properties. He has published several noteworthy papers in reputable SCI journals, showcasing his contributions to the advancement of supercapacitor technology.

PAST RESEARCH AND DEVELOPMENT 📈

Before his current focus, Mohan spent four years researching absorber materials such as Cu2SnS3 (CTS), SnS, SnSe, and buffer layers like CdS, along with window layers of ZnO and metal contacts like Mo, Ni, and Al. He also has experience from his time at the International Advanced Research Centre (ARCI) from 2013 to 2014, where he worked on solar selective coatings for concentrated solar power (CSP) applications.

ACADEMIC POSITIONS AND TEACHING 🏫

Mohan has held several academic positions at Yeungnam University, South Korea. As a Research Professor in Chemical Engineering since 2022, and in Mechanical Engineering from 2021 to 2022, he has led research on the fabrication and real-time stability testing of energy storage devices. His post-doctoral work from 2020 to 2021 also at Yeungnam University involved investigating energy storage materials and synthesis processes for commercial device development.

AREAS OF INTEREST AND SPECIALIZATION 🌟

Mohan's research interests are diverse and include:

Energy Storage Devices (Supercapacitors and Batteries)
Thin-Film Solar Cells
Sulfide-Based Compounds (CTS, SnS) and Selenium-Based Compounds (CTSe, SnSe)
Metal Oxides Thin Films for Various Applications
Materials Science and Applications
Solar Selective Surface Coatings

FUTURE OUTLOOK AND MOTIVATION 🚀

Driven by a strong motivation to extend his knowledge and skills, Mohan is dedicated to advancing his research career. His work aims to innovate and improve energy storage technologies, contributing to the development of robust and efficient systems for modern technological applications. Mohan's future endeavors promise to bring further breakthroughs in materials science and energy storage solutions.

NOTABLE PUBLICATION

Z-scheme photocatalysis and photoelectrochemical platform with a Co3O4-CuO heterogeneous catalyst for the removal of water pollutants and generation of energy 2023 (23)

Pseudocapacitive Performance of Freestanding Ni₃V₂O₈ Nanosheets for High Energy and Power Density Asymmetric Supercapacitors 2022 (25)

Multiple structural defects in poor crystalline nickel‐doped tungsten disulfide nanorods remarkably enhance supercapacitive performance 2022 (27)

Bio-derived graphitic carbon quantum dot encapsulated S-and N-doped graphene sheets with unusual battery-type behavior for high-performance supercapacitor 2023 (43)

Review on Cu2SnS3, Cu3SnS4, and Cu4SnS4 thin films and their photovoltaic performance 2019 (99)

EARLY ACADEMIC PURSUITS:

Ms. Rawdah Whba's academic journey began with distinction, completing her first bachelor's degree in Chemistry at Taiz University, Yemen, with an impressive cumulative grade of 91.12%. She continued her pursuit of knowledge, obtaining a second bachelor's degree, this time from the Faculty of Applied Science at Taiz University, with an exceptional cumulative grade of 93.18%. Her academic excellence was recognized with prizes from the President of Yemen and the National Organization for Community Development.

PROFESSIONAL ENDEAVORS:

Following her academic achievements, Ms. Whba served as a lecturer in the Chemistry Department at Taiz University from 2009 to 2014. During this period, she received numerous distinctions and certificates of appreciation. Notably, she represented the syndicate of Taiz University staff in Yemen from 2014 onwards, showcasing her leadership and collaborative skills.

RESEARCH FOCUS AND CONTRIBUTIONS:

Ms. Whba's research journey began with a scholarship from the Yemeni government to pursue a master's and Ph.D. In 2017, she earned her master's degree in Chemistry Science from the University Kebangsaan Malaysia (UKM), and in 2022, she completed her Ph.D. in Chemistry at the same institution. Her research interests span polymer chemistry and physical chemistry, with a focus on electrochemistry. Notably, her work includes the synthesis of grafted polymers based on epoxidized natural rubber and the characterization of energy storage devices.

PUBLICATIONS AND ACADEMIC CITES:

Ms. Whba's contributions to the field are evident through her publications in international refereed journals. These publications cover topics such as electroconductivity of composite membranes and the synthesis and characterization of solid biopolymer electrolytes. As a reviewer, she has evaluated research articles and book chapters, showcasing her expertise in the field.

LEGACY AND FUTURE CONTRIBUTIONS:

Ms. Rawdah Whba's legacy is marked by her academic achievements, research contributions, and active involvement in professional memberships. Her continuous pursuit of knowledge, evident from her undergraduate studies to her postdoctoral fellowship at Istanbul Medeniyet University (IMU) in Turkey, positions her as a dynamic and promising scholar. With proficiency in various analytical and research techniques, she is poised to make significant contributions to the fields of polymer chemistry and electrochemistry in the future.