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Orbital Engineering Directed Electronic Structure Studies: Design of Pseudo 𝜋 Aromatic Molecules, Borophenes and Borophites
The many ways of using three-membered rings as a design element in molecules and borophenes (2D sheets of boron) will be presented. The underlying design principles require constructing and manipulating molecular orbitals ...
Room Temperature Phosphorescence and Circularly Polarized Luminescence Characteristics of Phosphine Oxides and Phosphoramides
Room temperature phosphorescence (RTP) materials have attracted much attention in recent years owing to their potential applications in organic light-emitting diodes (OLEDs), security writing, time-gated bio-imaging, ...
Atto-second Dynamics in Molecular Systems
The thesis describes the attosecond dynamics of small molecular systems, focusing on ionization delay times and hole migration delay times. These time delays are some of the fastest events in electronic dynamics. When an ...
Self-Assembled Coordination Architectures for Fluorescence Modulation, Photocatalysis, and Light Harvesting
Self-assembly and noncovalent interactions play a pivotal role in the design of complex, and
intricate functional structures. Among several design approaches, metal-ligand coordinationdriven self-assembly has emerged as ...
Binding, activation, and oxidative addition of dihydrogen using Ir-pincer systems and implications in hydrogenation catalysis
Binding of unreactive small molecules, such as H2, N2, CO2, CH4, etc. on a transition metal center and their subsequent activation are fundamental problems that have been extensively studied in organometallic chemistry for ...
Interfacial Studies Using Organized Organic and Inorganic Films
Interfaces play an important role in various fields, such as catalysis, charge transfer / electrochemical processes, chemical reactions, molecular electronics, wetting, and biology. Building functional structures with a ...
Thermodynamics of Protein Adsorption on Gold and Carbonaceous Nanoparticles Probed by Second Harmonic Light Scattering
Over the past two decades, interaction of small molecules, peptides, and proteins
with nanoparticles of various shapes and size have been keenly pursued for two reasons: to find
application of these nanoparticle-molecule ...
Chemistry of bimetallic, chalcogenide and highly reactive metal nanoparticles
The remarkable modifications in the characteristics of materials on a nanoscale, caused by surface effects, quantum confinement, and dependence on shape, leads to diverse applications of nanomaterials, such as in catalysis, ...
Studies on chalcopyrite phosphides and phenolic acid-based derivatives towards lithium storage and chemical sensors
Li-ion batteries are among the highly promising power sources for many emerging technologies, including electric vehicles and smart grids. However, an increased demand for energy density and long cycle life cannot be ...
Nanomaterials for Magnetism and Catalysis
Nanomaterials possess unique physical and chemical properties allowing for advancement and innovation in diverse scientific and technological fields. The remarkable magnetic and catalytic properties of these nanomaterials ...