Dr. Krishan Kumar
Krishan Kumar received his bachelor’s degree in June 2015 in Chemistry from Ramjas College, University of Delhi, India. In 2017, he completed M.Sc. degree with a specialization in Physical Chemistry from the Department of Chemistry, University of Delhi, India. In October 2021, he completed his Ph.D. in Biophysical Chemistry under the supervision of Prof. Pannuru Venkatesu from the University of Delhi. He started his Postdoctoral research in January 2022 in the Department of Biological Engineering, Inha University, South Korea under the supervision of Prof. Yun Suk Huh, working at the interface of Material Science and Biology. He joined Responsive Polymer Therapeutics Group as Juan de la Cierva fellow working under the leadership of Prof. Marcelo Calderon to develop his research in the preparation of nanogels for drug delivery applications.
During Ph.D. his work was focused on studying the polymer phase transitions in presence of different additives such as proteins, ionic liquids, and deep eutectic solvents. His post-doctoral research work was focused on the preparation of MXene based nano catalysts for mimicking the activity of natural enzymes.
Publicaciones
Pt-VS2-MXene nanozyme for on-site pesticide and H2O2 sensing: Bridging computational insights and experiment
J. Ahn, A. Mohammadi, K. Kumar, M. Pachin, S. Tamang, Y. Xu, R. Maleki, A. Vilian, Y. Huh and Y. Han
Biocompatibility and immunomodulation of MXenes for targeted delivery of bioactive agents and drugs
M. Ramezani Farani, D. Mirzaee, A. Hatami, K. Kumar, S. Ghoreishian and Y. Huh
Harnessing Supramolecular J-Aggregates in Deep Eutectic Solvents for Tunable NIR Photothermal and Photodynamic Therapy
Kumar K., Gurol M., Sanjarnia P., Orellano M.S., Beloqui A., Ebo L., Picchio M.L. and Calderón M.
Auto-Generated Valence States in Electrocatalysts for Boosting Oxygen and Hydrogen Evolution Kinetics in Alkaline Water/Alkaline Seawater/Simulated Seawater/Natural Seawater
Tiwari J.N., Bhaskaran G., Kumar K., Huh Y.S. and Han Y.-K.
Enzyme-Polymer Hybrids for Chemoenzymatic Catalysis
K. Kumar, A. Ontoria and A. Beloqui
Engineered Metal-Loaded Biohybrids to Promote the Attachment and Electron-Shuttling between Enzymes and Carbon Electrodes
A. Rodriguez-Abetxuko, E. Romero-Ben, A. Ontoria, M. Heredero, B. Martín-García, K. Kumar, S. Martín-Saldaña, F. Conzuelo and A. Beloqui
Eutectogels as Promising Materials in Biocatalysis
K. Kumar, M. Calderón, A. Beloqui and M. Picchio
Core-Shell Nanogels With Raspberry Architecture and Amine Loading in the Core via Precipitation Polymerization: A Mechanistic Study
B. Espuche, K. Kumar, P. Moretti, M. Ortore, O. Ivashchenko, E. Coy, H. Amenitsch, S. Moya and M. Calderón
Materials Containing Single-, Di-, Tri-, and Multi-Metal Atoms Bonded to C, N, S, P, B, and O Species as Advanced Catalysts for Energy, Sensor, and Biomedical Applications
J. Tiwari, K. Kumar, M. Safarkhani, M. Umer, A. Vilian, A. Beloqui, G. Bhaskaran, Y. Huh and Y. Han
Ionic Liquids Mediated Micellization of Pluronic Copolymers: Aggregation Behavior of Amphiphilic Triblock Copolymers
K. Kumar, R. Umapathi and P. Venkatesu


