Physical Sciences and Mathematics Commons^™

Synthesis, Characterization, And Spectroscopy Of Donor-Acceptor Charge Transfer Complexes, Dominic K. Kersi

Chemistry and Chemical Biology ETDs

A series of square-planar metal (diimine)(dichalcogenolene) chromophoric complexes have been synthesized, characterized and studied spectroscopically. Studies conducted on diimineplatinum(II) dichalcogenolene complexes (LPtL’) using time resolved spectroscopic techniques such as transient absorption and emission, reveal a charge-separated excited state of the type dichalcogenolene → diimine charge-transfer (LL’CT) [(dichalcogenolene^•+)Pt(diimine^•-) with an open shell donor-acceptor biradical character. Long-live excited state lifetimes were observed for these complexes upon visible photoexcitation of the LL’CT or MMLL’CT band. A direct linear relationship is observed to exist between photoluminescence rates, calculated SOC matrix elements, and ¹³C-NMR chemical shifts.

A series of …

Formation Of Highly Functionalized Indole Through Carbon-Carbon Bond Cleavage, Ryan A. S. Pike

Chemistry and Chemical Biology ETDs

Indoles are one of the most abundant heterocycles found in nature and have a wide range of functions. There are a wide variety of indole synthesis methods known both in synthetic chemistry and through biosynthesis. Many of the known indole synthesis routes use a benzene derivative or cyclized ring structure derivative as a starting material. Here, we describe a novel synthetic method utilizing 1, 3-diketones and fumaronitrile with a catalytic amount of base to form a highly functionalized indole as our product. We have isolated and characterized 12 functionalized indoles.

Construction Of Synthetic Signal Pathways In Mammalian Cells Via Induced Protein Proximity, Guihua Zeng

Chemistry and Chemical Biology ETDs

Cell signaling translates extracellular signals into intracellular processes that carry out cellular functions. The introduction of artificial signaling networks using synthetic biology methods has facilitated the investigation of signaling mechanisms and the generation of novel cell functions. Several synthetic biology methods that are based on chemical controls have been developed to provide precise temporal regulation. In my dissertation, we constructed new synthetic biology engineering strategies to control tailored cellular events.

Described in Chapter 2, we developed a new chemical strategy to generate de novo signaling pathways that link a signaling molecule, H₂O₂, to different downstream cellular …

Novel Design Strategies For Platinum-Containing Conjugated Polymers And Small Molecules For Organic Solar Cells, Wenhan He

Chemistry and Chemical Biology ETDs

Current state-of-the-art organic solar cells (OSCs) adopt the strategy of using conjugated polymers or small molecules as donors and fullerene derivatives as acceptors in their active layers. Regarding to the donors of interest, the conjugated polymers and small molecules coupled with heavy metals have been less explored compared to their counterparts. Among various transition metal complexes applied, Pt(II) complexes are unique because of their intrinsic square planar geometries and ability to serve as building blocks for conjugated systems. Furthermore, the heavy metal Pt facilitates the formation of triplet excitons with longer life times through spin-orbital coupling which are of benefit …

An Integrated Bioinformatic/Experimental Approach For Discovering Novel Type Ii Polyketides Encoded In Actinobacterial Genomes, Wubin Gao

Chemistry and Chemical Biology ETDs

Discovery of new natural products (NPs) is critical both for diseases treatment and crops protection. Numerous NP biosynthetic gene clusters (BGCs) in sequenced microbial genomes allow identification of new NPs through genome mining. Developing an integrated bioinformatic/experimental approach for discovering novel type II polyketides (PK-IIs) facilitates investigation of this family of NPs in an efficient, systematic way. Here, we developed an approach to analyze ketosynthase α/β (KSα/β) gene sequences to predict PK-II core structures, allowing us to target novel PK-II BGCs either from isolated genomic DNA or genomes from the NCBI databank, and to isolate novel PK-IIs produced by these …

Enediyne Derived Conjugated Polymers, Keda Hu

Chemistry and Chemical Biology ETDs

The advance of conjugated polymers (CPs) is largely relied on the development of new polymerization methods, the discovery of novel polymers that possess unique chemical and physical properties, and understanding of their structure-property relationship. We have employed a set of trans-enediynes (trans-EDYs) for the preparation of four series of CPs, polydiacetylenes (PDAs), platinum-segmented PDAs, polytriacetylenes (PTAs) and boron doped polyacetylenes (BPAs). The resulting polymers displayed interesting optical and electrochemical properties which could be fine-tuned by the attachment of various side chains on the EDY moieties.