The purpose of this project is to study the fluorescent properties and photochemistry of thiazolothiazole viologens for solar energy applications. In particular we will study the photoinduced electron transfer events from a donor chromophore to an acceptor thiazolothiazole viologen (TTz). We will monitor these dynamics by studying the fluorescence both of the donor and acceptor molecules.
AUTHOR
Tom Schmedake
Project 3 - Light-Activated Multifunctional Silica-Based Nanoparticles for Therapeutic Applications
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The purpose of this project is to develop novel multifunctional silica-based hybrid nanoparticles with outstanding properties for photodynamic therapy (PDT) and photodynamic inactivation (PDI) applications.
Project 4 - Light Effect Transistors (LETs) in Photonic Integrated Circuits
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The purpose of this project is to develop novel applications of LETs in photonic integrated circuits (PICs).Read more…
Project 5 - Computational design of materials for harnessing heat as a renewable energy resource
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The purpose of this project is to computationally design nanomaterials to control the flow of light and heat for energy applications.
Project 6 - Silicon pincer complexes for organic electronic applications
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The goal of this project is to synthesize, characterize, and study the properties of new silicon pincer compounds to enable more efficient organic electronic devices. Read more…
Project 7 - Synthesis, Growth Mechanism Study, and Property Measurement of Metalloid Tellurium Nanostructures
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The goal of this project is to synthesize one-dimensional (1D) oxide nanostructures using chemical vapor deposition (CVD) and study their plasmonic properties for plasmon enhanced photocatalytic applications.Read more…
Project 8 - Dynamic Assembly of Electroactive Organometallic Polymers
The main goal of this project is to use synthetic molecular clusters as building blocks to
assemble a new class of multi-dimensional coordination solids.
Project 9 - Dynamic RNA Nanoparticles and Reconfigurable Nanoassemblies with Controllable Immunological Properties
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The goal of this project is to investigate new designing principles for engineering programmable RNA nanoassemblies that can be activated in response to various stimuli and have controllable immunological properties.
Project 10 - Reconfigurable RNA-based Supra-assemblies
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Despite the existing variety of RNA (and DNA) nanoparticles (NPs) and computational tools for their design, the use of RNA NPs as modular building blocks for constructing RNA networks has never been systematically investigated. To address this need and thereby shift the existing paradigm, the goal of this project is to develop an RNA-based, programmable networking platform that simultaneously encodes targeted biophysical, mechanical, and biochemical properties through networks with multiple independently programmable architectural parameters.