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/ 師資陣容 /

Santhana Krishna Kumar

/ 學歷 Education /

2014: Ph.D., Chemistry, Birla Institute of Technology and Science (BITS-Pilani), India.
2008: M.Sc., Chemistry, Madurai Kamaraj University, India.
2005: B.Sc., Chemistry, Bharathiar University, India.

/ 經歷Experience /

2021 to 2023: Assistant professor (adjunct) AGH University Science and Technology, Krakow-Poland.
2014 to 2021: Post-doctoral researcher, National Sun Yat-Sen University, (NSYSU), Kaohsiung-Taiwan
Dr. Santhana Krishna Kumar is an assistant professor joined to the Department of Chemistry, NSYSU, Taiwan from August-2023. Before prior to join NSYSU, he was assistant professor (adjunct) from faculty of geology geo-physical and environmental protection at AGH University Science and Technology (2021–2023), Krakow-Poland. He received Ph.D. from Birla Institute of Technology and Science (BITS-Pilani, India), 2014 under the guidance of Professor N. Rajesh. Subsequently, Dr Krishna joined as a postdoctoral researcher NSYSU-Taiwan (2014-2017) under the guidance of Professor Shiuh-Jen Jiang (retired), thereafter Dr. Krishna moved to Professor Wei-lung Tseng’s Lab (NSYSU-Taiwan) from 2017 to 2021, during his post-doctoral tenure acquired wide variety of experimental knowledge which are mainly involved in the preparation of zero-dimensional, one-dimensional and two-dimensional fluorescent probes for practical application in chemical sensors, bio-imaging & cancer cell treatment and also he has developed numerous photo-catalysts for visible light induced catalytic degradation of aromatic nitro compounds such as [Tri-nitro phenols (TNP), Tri-nitro aniline(TNT) and nitro aniline]. Dr. Krishna has author and co-author for more than 53 research articles in peer-reviewed scientific journal which are includes 2700 citations (as of august-2023 data’s from Google Scholar, h index of 30, Field-Weighted Citation Impact (FWCI) 2.77, i10 index 40, i200 index 3). He is currently serving in different roles (Academic Editor, guest editor, associate editor & editorial board member) for various international journals.
March-2023 to till now: PLOS One Academic Editor, (Peer-reviewed journal)

https://journals.plos.org/plosone/static/editorial-board

March-2023 to till now: Academic Editor, PeerJ-Physical Chemistry (Peer-reviewed journal)
https://peerj.com/physical-chemistry/

March-2023 to till now: Academic Editorial board, Chem Engineering (MDPI) (Peer-reviewed journal)
https://www.mdpi.com/journal/ChemEngineering/editors?search=santhana

Dec-2022 to till now: Guest Editor, Polymers (MDPI)
https://www.mdpi.com/journal/polymers/special_issues/6LK9QK7KYD

Sep-2021 to till now: Associate Editor, Frontiers in chemistry (Analytical)
https://loop.frontiersin.org/people/1465639/editorial
Lithium-ion batteries (LIB) are widely used in various energy storage devices due to their outstanding electrochemical performances, such as high energy density, extended life cycle, and wide-ranging operating temperature. Electronic equipment lifespan is limited due to compatibility, consumer usage, and battery life. However, this growing demand for gadgets, electric vehicles (EV), and other electronic appliances is an extensively escalating in battery usage, which expands the toxic metals comprising electronic wastes. This extensive practice of battery usage has been distressing several complications to the atmospheric environment due to various hazardous substances, such as toxic metals, cathodic components, plastics, and flammable electrolytes, in spent Lithium-ion batteries and e-wastes. Additionally, spent lithium-ion batteries have been disposed of in open agriculture areas, landfills, and water resources, which pollute the soil and water bodies. As a result, spent LIBs pose serious pollution threats to the soil and groundwater without proper handling and unsafe disposal. Concerning the above environmental issues, lithium-ion battery recycling technology has been an increasing concern of the research and development sector, government agencies, and electronic enterprises due to the maintenance of valuable metal sources and environmental protection. Recycling spent lithium-ion batteries has become a hot topic of interest for recovering valuable metals, such as cobalt, nickel and lithium.

/ 著作Works /

1 A. Santhana Krishna Kumar, W-B. Tseng, E. Arputharaj, P-J. Huang, Wei-Lung Tseng, * Tomasz Bajda, * Covalent organic framework nanosheets as an enhancer for light-responsive oxidase-like Nanozymes: multifunctional applications in colorimetric sensing, antibiotic degradation, and antibacterial agents, ACS Sustainable Chemistry Engineering, 2023, 11, 6956-6969.

2 J. Kodali, S. Puram, P. Srinivas, B. Arunraj, T. Bajda, B. Tomaszewska, A Santhana Krishna Kumar,* Wei-Lung Tseng,* N Rajesh,* C18-functionalized zirconized silica for effective removal of phorate pesticide from agricultural runoff involving groundwater remediation, Groundwater for Sustainable Development, 2023, 100993

3 A. Santhana Krishna Kumar, J. Warchol, J. Matusik, W.-L. Tseng, N. Rajesh, T. Bajda, Heavy metal and organic dye removal via a hybrid porous hexagonal boron nitride-based magnetic aerogel, Nature portfolio journal, NPJ Clean Water 2022, 5,1-12.

4 E. Arputharaj, A. Santhana Krishna Kumar,* W. L. Tseng,* S. J. Jiang, Y.L. Huang,* H.-U. Dahms,* Self-Assembly of poly(ethyleneimine)-modified g‑C3N4 Nanosheets with lysozyme fibrils for chromium detoxification, Langmuir 2021, 37, 7147−7155.

5 A. Santhana Krishna Kumar, C-Y Lu, W.-L. Tseng, Two in one: Poly(ethyleneimine)-modified MnO2 nanosheets for ultrasensitive detection and catalytic reduction of 2,4,6-Trinitrotoluene and other nitro aromatics, ACS Sustainable Chemistry Engineering, 2021, 9, 1142-1151.

6 A. Santhana Krishna Kumar, W-B. Tseng, M-J. Wu, Y-Y. Huang, W-L. Tseng, L-cystine-linked BODIPY-adsorbed monolayer MoS2 quantum dots for ratio-metric fluorescent sensing of bio-thiols based on the inner filter effect, Analytica Chimica Acta, 2020, 1113, 43-51.

7 A. Santhana Krishna Kumar, J.-G. You, W.-B. Tseng, G. D. Dwivedi, N. Rajesh, S.-J. Jiang, W.-L. Tseng, Magnetically separable nano-spherical g-C3N4@Fe3O4 as a recyclable viable material for chromium adsorption and visible light driven catalytic reduction of aromatic nitro compounds, ACS Sustainable Chemistry Engineering, 2019, 7, 6662-6671.

8 A. Santhana Krishna Kumar, Shiuh-Jen Jiang, J. Warchoł, Synthesis and characterization of two-dimensional transition metal dichalcogenide magnetic MoS2@Fe3O4 nanoparticles for adsorption of Cr(VI)/Cr(III), ACS Omega 2017, 2, 6187-6200.

9 A. Santhana Krishna Kumar, Shiuh-Jen Jiang, Synthesis of magnetically separable and recyclable magnetic nanoparticles decorated with β-cyclodextrin functionalized graphene oxide an excellent adsorption of As(V)/(III), Journal of Molecular Liquids 2017, 237, 387-401.

10 A. Santhana Krishna Kumar, Shiuh-Jen Jiang, Chitosan-functionalized graphene oxide: A novel adsorbent an efficient adsorption of arsenic from aqueous solution, Journal of Environmental Chemical Engineering 2016, 4, 1698-1713. (most downloaded article)

11 A. Santhana Krishna Kumar, Shiuh-Jen Jiang, Wei-Lung Tseng, Effective adsorption of chromium(VI)/Cr(III) from aqueous solution using ionic liquid functionalized multiwalled carbon nanotubes as a super sorbent, Journal of Materials Chemistry A., 2015, 3, 7044-7057.

12 A. Santhana Krishna Kumar, C. Uday Kumar, Vidya Rajesh, N. Rajesh, Microwave assisted preparation of n-butylacrylate grafted chitosan and its application for Cr(VI) adsorption, International Journal of Biological Macromolecules 2014, 66, 135–143.

13 A. Santhana Krishna Kumar, S. S. Kakan, N. Rajesh, A novel amine impregnated graphene oxide adsorbent for the removal of hexavalent chromium, Chemical Engineering Journal, 2013, 230, 328-337.

14 A. Santhana Krishna Kumar, R. Ramachandran, S. Kalidhasan, V. Rajesh, N. Rajesh, Potential application of do-decylamine modified sodium montmorillonite as an effective adsorbent for hexavalent chromium, Chemical Engineering Journal, 2012, 211-212, 396-405.

15 A. Santhana Krishna Kumar, T. Gupta, S. S. Kakan, S. Kalidhasan, Manasi, V. Rajesh, N. Rajesh, Effective adsorption of hexavalent chromium through a three centre (3c) co-operative interaction with an ionic liquid and biopolymer. Journal of Hazardous Materials 2012, 39-240, 213-224.

/ 專利Patents /