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个人简介
I am currently working at the University of Missouri as a post-doctoral researcher. In our Advanced Soft and Functional Materials Lab; we study organic chemistry, polymers, soft matter nanotechnology, and biomedical engineering. We use our expertise in molecular design, synthesis, self-assembly, and advanced characterization strategies to create new soft functional materials with controlled bulk state dynamics and biological system interfacial properties. Fundamental research in novel soft matter nanotechnology and biomedical engineering will be used to create multifunctional polymers/macromolecules for advanced technologies to solve energy, environment, and healthcare issues.
'Solvent-Solute Interactions in Supramolecular Self-Assemblies' was my PhD topic at Indian Institute of Science Education and Research Kolkata. I am a highly motivated researcher with expertise in spectroscopic, synthetic, and computational methods, a fast learner, and a great collaborator. I want to understand organic functional material design. I study supramolecular self-assemblies, organic photovoltaics, photo-responsive systems, and related topics. I designed and studied several systems to understand solvent-induced interactions in supramolecular self-assemblies and their use in functional materials. Hydrogen bonding interaction with the protic solvent controls the side-group planarity and molecular packing, allowing a single molecule to form three supramolecular polymorphs with different colours, morphologies, packing, and aggregation mechanisms. Temperature and pH can be used to reversibly switch between the three polymorphs in solution and in a solid silica-gel matrix. In another study, I examined the photo-response of self-assembled structures in different solvents and how pH affects photo-switchability. This photo-switchable aggregate is more efficient than molecular switches at mechanical work. I reported the photophysical properties of the Accepter-Donor-Acceptor triad, a molecular foldamer system used to study PET self-assembly to make efficient OPVs. Another study describes a phase-selective organo-gelator powder that solidifies heavy crude oil from water in seconds for oil spill remediation. I've used NMR, FTIR, UV-Visible, Raman, Fluorometer, XRD, FESEM, TEM, AFM, SAED, CV, CD, DLS, DSC, TGA, Microscope, Rotary evaporator, and more. I've done lots of organic synthesis, purification, and characterization. I also know several kinetic and thermodynamic models and fittings and density functional theory computationally (DFT).
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