Vinayak Balkrishna Ranmale | Supercapacitor | Best Researcher Award 

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Mr. Vinayak Balkrishna Ranmale | Supercapacitor | Best Researcher Award 

Rayat Shikshan Sanatha's Swami Ramanand Vidyalaya and Junior College | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Mr. Vinayak Balkrishna Ranmale began his academic journey in Sangli, Maharashtra, India. He completed his S.S.C. from the Kolhapur Board in March 1998, securing 58.13%, followed by his H.S.C. from the same board in February 2000 with 47.00%. He then pursued a B.Sc. from Shivaji University, Kolhapur, graduating in April 2003 with a commendable 60.32%. He continued his education with an M.Sc. from Shivaji University, which he completed in April 2007, achieving 56.08%. Recently, he embarked on a Ph.D. program at Shivaji University, Kolhapur, where he received B Grades in his Pre-Ph.D. examination in September 2022.

PROFESSIONAL ENDEAVORS

Mr. Ranmale's professional career is marked by significant teaching experience. He served as a Junior College Teacher at Yashawantrao Chavan Institute of Science, Satara, from 2011 to 2017. Following this, he continued his teaching career at Swami Ramanand Vidyalaya and Junior College, Ramanandnagar, where he has been working since 2017.

CONTRIBUTIONS AND RESEARCH FOCUS

Mr. Ranmale's research focus is on the development and synthesis of advanced materials for energy storage applications, specifically supercapacitors. During his Master's degree, he completed a project titled “Automatic Temperature Controlled Fan,” which demonstrated his early interest in automation and control systems. His Ph.D. research is centered on the "Chemical Synthesis of Nickel Doped Bismuth Ferrite Thin Films for Supercapacitor." This work is crucial for advancing the performance and efficiency of supercapacitors, which are vital for energy storage in various electronic devices and systems.

IMPACT AND INFLUENCE

Mr. Ranmale's work on supercapacitors has significant implications for the field of energy storage. His innovative approach to doping Bismuth Ferrite with Nickel aims to enhance the material properties, making it more suitable for high-performance supercapacitors. This research not only contributes to the academic understanding of advanced materials but also holds potential for practical applications in developing more efficient and durable energy storage devices.

ACADEMIC CITES

Mr. Ranmale’s contributions to the academic community include his research on supercapacitors, which is expected to be cited by future researchers working on similar topics. His work on Nickel Doped Bismuth Ferrite Thin Films provides a valuable reference point for studies focused on improving the efficiency and capacity of energy storage devices.

LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Mr. Ranmale aims to continue his research in the field of advanced materials and energy storage. His ongoing work on supercapacitors will likely lead to further innovations and improvements in the performance of these critical devices. By enhancing the understanding and application of Nickel Doped Bismuth Ferrite Thin Films, Mr. Ranmale is set to leave a lasting legacy in the realm of energy storage technologies. His future contributions are expected to influence both academic research and practical applications, driving forward the development of more efficient and sustainable energy solutions.

SUPERCAPACITOR

Mr. Ranmale's expertise in the field of supercapacitors positions him as a key figure in the advancement of energy storage technologies. His research on the chemical synthesis of Nickel Doped Bismuth Ferrite Thin Films aims to improve the performance characteristics of supercapacitors, making them more efficient and reliable for various applications. The emphasis on supercapacitors highlights the importance of his work in addressing the growing demand for high-capacity and durable energy storage systems.

NOTABLE PUBLICATION

 

sanjun fan | Electrochemistry | Best Researcher Award

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Dr. sanjun fan | Electrochemistry | Best Researcher Award

The Ohio State University | United States

Author Profile

Scopus

Early Academic Pursuits:

Sanjun Fan's academic journey commenced with a Bachelor of Chemistry at Heilongjiang University, Harbin, China, from 2005 to 2009. This laid the foundation for his subsequent accomplishments. His commitment to academic excellence led him to pursue an M.S. in Organic Chemistry at Guangzhou University, China (2009-2012), under the guidance of Prof. Jianhua Song. Eager to broaden his horizons, he pursued another M.S. in Analytical Chemistry at Auburn University, USA (2012-2015), mentored by Prof. Curtis Shannon. His insatiable thirst for knowledge culminated in a Ph.D. in Analytical Chemistry at the University of New South Wales, Sydney, Australia (2016-2020), under the mentorship of Scientia Prof. Justin Gooding.

Professional Endeavors:

Sanjun Fan's professional journey showcases his dedication to advancing the field of electrochemistry. He served as a Graduate Research Assistant at Guangzhou University, China (2009-2012), Auburn University, USA (2012-2015), and the University of New South Wales, Australia (2016-2020). Post-Ph.D., he furthered his expertise as a Postdoctoral Research Fellow at the Institute for Advanced Study, Shenzhen University, China (2020-2022), working under the guidance of Prof. Zheng Li. His current role as a Postdoctoral Research Fellow at The Ohio State University, USA (2022-2024), under the supervision of Prof. Zachary D. Schultz, showcases his global engagement in cutting-edge research.

Teaching Experience:

Sanjun Fan's commitment to education is evident in his diverse teaching experiences. As a Graduate Research Assistant at Guangzhou University (2009-2012), he contributed to the experimental design and training of undergraduate students. Additionally, his part-time role as a High-School Chemistry Teacher at Zhuoyue School, Guangzhou, China (2009-2012), highlighted his dedication to fostering scientific curiosity among secondary school students. During his time at Auburn University (2012-2015), he served as a Graduate Teaching Assistant, providing invaluable guidance to undergraduate students in chemistry labs. His teaching prowess extended to serving as a TOEFL Reading Teacher at YingMei International School, Guangzhou, China (2015-2016).

Professional Memberships:

Sanjun Fan actively engages with professional societies, including the Alabama Academy of Science, American Chemical Society (ACS), Electrochemical Society (ECS), Coblentz Society, and the Society for Applied Spectroscopy. His involvement in leadership roles, such as Secretary and Vice President of the ECS Auburn Student Chapter, underscores his commitment to fostering collaboration and knowledge exchange.

Accolades and Recognition:

Sanjun Fan's academic prowess is underscored by numerous accolades. Notable among them is the 2023 Biosensors and Bioelectronics prize at the 33rd World Biosensor Congress (Busan), recognizing his outstanding contributions to the field.

Research Focus and Impact:

Sanjun Fan's research interests span bipolar electrochemistry, electrochemical sensors, electrochemiluminescence (ECL), surface-enhanced Raman scattering (SERS), electrochemical single molecule fluorescence, and super-resolution Raman spectroscopy. His groundbreaking work on "Controlling Biomolecular Binding Events Using Potential Pulsing" for his Ph.D. dissertation reflects his innovative contributions. His exploration of optimal gold nanoparticles for single-particle SERS sensing, presented at SciX 2022, Cincinnati, OH, USA, exemplifies his commitment to advancing the field.

Legacy and Future Contributions:

Sanjun Fan's legacy lies in his multifaceted contributions to academia, research, and education. His journey from diverse educational backgrounds to impactful research positions reflects his resilience and passion for knowledge. As he continues his journey, his dedication to shaping the next generation of scientists and pushing the boundaries of electrochemistry promises a lasting influence on the scientific community.

In conclusion, Sanjun Fan stands as a beacon in the realms of electrochemistry and education, weaving a narrative of academic excellence, collaborative engagement, and impactful research. His story serves as inspiration for aspiring researchers and educators, emphasizing the profound impact of interdisciplinary pursuits and a global perspective in scientific exploration.

Notable Publication:

Negatively Charging Nonprecious Metal Phosphides/Selenides via General Polyaniline Coating for Improved Alkaline H2 Evolution  2023 (2)

Single-atom nanozymes: From bench to bedside  2022 (21)

Electrochemiluminescence Quenching by Halide Ions at Bipolar Electrodes  2015 (1)

In Situ Characterization of Bipolar Electrodes by using Vibrational Stark Spectroscopy and Surface-Enhanced Raman Spectroelectrochemistry  2015 (7)

Non-heme Iron Single-Atom Nanozymes as Peroxidase Mimics for Tumor Catalytic Therapy  2023 (1)