Research Interest

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 Our Ongoing Applied Research: Smart Organic Nanomaterials, Nanoelectronics and Devices

• Design, Synthesis, Fabrication of Organic Nanomaterials and Developing Innovative Application

• Synthesis of Polymers, Fabrication of Their Nanomaterials and Establishing Innovative Properties

• Fabrication of Crossbar Devices and Discovery of Novel Organic Nanoelectronics

• Organic and Polymer Materials for Security and Inkless Data Printing

• Organic Solar Cell Devices

• Energy Storage and Grid Devices

• RRAM, WORM and other Memory Devices

• Super Capacitor & Negative Capacitor

• Medical Sensing Devices

• Smart Organic and Polymer Materials for Bioimaging, Biomedical and Engineering

• Nanomaterials for the Diagnosis and Treatment of Ovarian, Lung and other Cancers

• Poisonous Gas, Lethal Drinking Water Pollutantand Explosive Material Sensing Devices

• Smart Sensing Devices through Non-invasiveRemote Signaling Diagnosis for Cardiac, CNS, Blood Pressure, Sugar, Various Cancers and other diseases

• Peptide-Based Smart Materials Operated by Halogen Bonding for MultidimensionalApplication

 

Ongoing Academic Research Catalysis & Organic Synthesis

• C-H Activation            

• Photocatalysis 

• NHC Catalysis                      

• Organometallic Catalysis

• Organocatalysis

• Dual Catalysis   

• Ionic Liquid Catalysis

• Diverse Cyclization Catalysis

• Sustainable Catalysis

• Nanocatalysis by Functionalized Nanoparticles

• Catalysis by Metal Cluster

• Hypervalent Iodine Chemistry                 

• Carbohydrate Chemistry

• Peptide Chemistry

• Studies of Reaction Mechanism by Computational Chemistry (DFT Calculation)

• Reaction mechanism by XPS, EPR, ATR-Mid-IR, UV-Vis-NIR, and Fluorescence spectroscopy

 

1. Supervised Research Scholars (Total): 70

   • Ph. D. students: 37

   • Postdoctoral Fellows: 33