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Mr. Sabin Aryal | Materials Science | Best Researcher Award

Mr. Sabin Aryal, Amrit Campus, Nepal

Mr. Sabin Aryal is a dedicated researcher and academic with a Master of Science in Chemistry from Amrit Campus, Tribhuvan University, Nepal. With a strong academic foundation, he specializes in developing sustainable materials for energy storage, as evidenced by his M.Sc. thesis on supercapacitors derived from natural sources. Currently serving as a research assistant at Kathmandu Valley School and College, Mr. Aryal has contributed to numerous research articles focusing on activated carbon materials and their applications in renewable energy storage systems.

Education:

Master of Science in Chemistry

Amrit Campus, Tribhuvan University (2020–2022)

CGPA: 3.43/4, Grade: B+

Bachelor of Science in Chemistry

Amrit Campus, Tribhuvan University (2016–2020)

Second Division (59.5%)

Intermediate Education

Kathmandu Bernhardt H.S. School (2014–2016)

First Division (69.2%)

Secondary Education

Mahakali Higher Secondary School (2014)

Distinction (82.5%)

Professional Profile:

ORCID Profile

Professional Experience:

Professionally, Sabin has been serving as a research assistant at Kathmandu Valley School and College, Kalanki, since 2022. His instrumental and software handling skills include expertise with potentiostats, hydrothermal systems, spectrophotometers, and software such as Endnote, Origin Lab, and Chemdraw. His academic achievements include receiving the Best Poster Award at the International Conference on Advanced Functional Materials 2024, Kathmandu.

Sabin has co-authored multiple articles, several of which are published or under review in respected journals, focusing on the electrochemical performance of activated carbon materials for energy storage applications. His participation in conferences and workshops further underscores his active engagement in the scientific community, notably presenting at events like the International Conference on Advanced Functional Materials 2024 and the 12th National Science Day. Sabin’s exceptional academic background, combined with his research acumen and professional experiences, positions him as an emerging contributor to the field of sustainable energy storage technologies.

Research Interests:

Sabin’s primary research interests lie in the development of safe, sustainable energy storage solutions that align with renewable energy integration while minimizing environmental impacts. His M.Sc. thesis explored the super-capacitive performance of activated carbon derived from Prunus persica seed stones, reflecting his expertise in material design and electrochemical energy storage. His B.Sc. project involved synthesizing magnesium-doped hydroxyapatite using eggshells via microwave methods.

 

Publications:

Aryal, K. R. Shrestha, T. Shrestha, H. B. Oli, I. Pathak, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Unveiling the Potential of Activated Carbon Derived from the Seed Stones of Prunus persica as a Negatrode Material for High-Performance Super-Capacitor Applications, Journal of Molecular Structure, (Accepted), doi: https://doi.org/10.1016/j.molstruc.2024.140810.

K. Mishra, S. Aryal, H. B. Oli, T. Shrestha, T. Sapkota, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Enhanced Energy Storage: Electrochemical Performance of Activated Carbon Derived from Acacia catechu Bark by KOH activation, E3S Web Conferences, (Accepted)

P. Bhattarai., S. Aryal, K. R. Shrestha, P. K. Mishra, T. Shrestha, P. L. Homagai, H. B. Oli, and R. L. (Swagat) Shrestha. Study of electrochemical performance of Zanthoxylum armatum seed-derived potassium hydroxide assisted activated carbon as a negatrode material for supercapacitor application, Materials Advances, (Under Review).

P. Bhattarai., S. Aryal, K. R. Shrestha, P. K. Mishra, T. Shrestha, P. L. Homagai, R. L. (Swagat) Shrestha, and H. B. Oli. Exploring Electrochemical Performance of Zanthoxylum armatum Seed-Derived Activated Carbon Using Phosphoric acid (H3PO4) for Sustainable Energy Storage Applications, Carbon Trends, (Under Review)

K. Mishra, S. Aryal, H. B. Oli, T. Shrestha, D. Jha, K. R. Shrestha, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Study of Electrochemical Performance of Activated Carbon Derived from Acacia catechu (Khair) Seeds as Electrode Materials for Energy Harvesting Application, Vietnam Journal of Chemistry, (Revision submitted)

K. Mishra, S. Aryal, H. B. Oli, T. Shrestha, K. R. Shrestha, Md. Al Mamun, R. L. (Swagat) Shrestha, and D. P. Bhattarai. Enhanced Energy Storage: Electrochemical Performance of ZnCl2-Activated Carbon Derived from Acacia catechu Bark, Mongolian Journal of Chemistry, (Revision submitted)

S. Timalsina, H. B. Oli, S. Aryal, K. Panthi, R. L. (Swagat) Shrestha, D. P. Bhattarai. “Removal of Pb (II) from aqueous solution using xanthate modified waste walnut shells” (Under review)

 

Conclusion:

Mr. Sabin Aryal is a highly suitable candidate for the Best Researcher Award, given his outstanding academic record, innovative research in sustainable energy materials, and active participation in the scientific community. His ability to tackle pressing global challenges such as renewable energy storage positions him as a promising young researcher. Addressing areas like publication impact, project leadership, and international collaboration would further solidify his candidacy and enable him to reach even greater heights in his research career.

 

 

 

 

Sabin Aryal | Materials Science | Best Researcher Award

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