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Introduction To Electrodynamics

Morphology control of eco-friendly chitosan-derived carbon aerogels for efficient microwave absorption at thin thickness and thermal stealth

Defect and interface engineering in core@shell structure hollow carbon@MoS2 nanocomposites for boosted microwave absorption performance

Theory of electromagnetic wave propagation

Electrospinning of hierarchical carbon fibers with multi-dimensional magnetic configurations toward prominent microwave absorption

Magnetic-dielectric synergy and interfacial engineering to design yolk–shell structured CoNi@void@C and CoNi@void@C@MoS2 nanocomposites with tunable and strong wideband microwave absorption

Antibacterial properties and drug release study of cellulose acetate nanofibers containing ear-like Ag-NPs and Dimethyloxallyl Glycine/beta-cyclodextrin

Novel Core-shell SnIn4S8@Bi2MoO6 Heterojunction with Highly-enhanced Photocatalytic Activity for Visible Light-driven Cr (VI) Reduction

In-situ fabrication of NixSey/MoSe2 hollow rod array for enhanced catalysts for efficient hydrogen evolution reaction.

Plasmonic nanoparticle synthesis provids a facile and cost-effective bottom-up solution to fabrication of nanoscaled structures. With effective packaging methods like embedding into polymer composites and superlattice assemblies, the chemically synthesized nanoparticles are promising candidates for functional devices. However, compared with precisely patterned surfaces commonly used for device fabrication, the structural inhomogenity and disorder in nanoparticle ensembles give rise to challenge in their characterization using conventional methods and in turn, their application. This work aims to develop models as guideline to design facile characterization methods that can be used to effectively describe the properties of disordered plasmonic nanoparticle ensembles. Two types of nanoparticle ensembles will be examined, including nanoparticle polymer composites and nanoparticle assemblies, representative of disordered nanoparticle packing on two length scales. Multipole expansion of different types and the effective medium approximation will be extensively used to establish models describing the effective optical properties of these systems as an ensemble average. Various analytical and numerical electrodynamic calculations will be performed to analyze the dependence of the effective optical response on structural parameters of the ensembles. The models can be used as a future guideline to design both synthetic procedures and characterization methods for chemically syntheized nanoparticle ensembles according to specific desired applications. Degree Type Dissertation Degree Name Doctor of Philosophy (PhD) Graduate Group Chemistry First Advisor Zahra Fakhraai

Optical Modeling and Analysis of Disordered Plasmonic Nanoparticle Ensembles

Chen Li

Papers

Magnetic-dielectric synergy and interfacial engineering to design yolk–shell structured CoNi@void@C and CoNi@void@C@MoS2 nanocomposites with tunable and strong wideband microwave absorption

Antibacterial properties and drug release study of cellulose acetate nanofibers containing ear-like Ag-NPs and Dimethyloxallyl Glycine/beta-cyclodextrin

Novel Core-shell SnIn4S8@Bi2MoO6 Heterojunction with Highly-enhanced Photocatalytic Activity for Visible Light-driven Cr (VI) Reduction

In-situ fabrication of NixSey/MoSe2 hollow rod array for enhanced catalysts for efficient hydrogen evolution reaction.

Optical Modeling and Analysis of Disordered Plasmonic Nanoparticle Ensembles