TOP >> UNIVERSITY OF CALIFORNIA IRVINE >> Organic chemistry
 
Browse Institutions
You are viewing titles for UNIVERSITY OF CALIFORNIA IRVINE in the Organic chemistry available through the UMI Dissertations & Thesis Gradwoorks site
 
Toward the syntheses of cross linkers for the identification of protein protein interactions
 Progress Towards New Methods to Form 1,2-Dioxolanes
 
Core of the Spresi Reaction Network
 Synthesis of Diphenylalanine-Guanosine Adducts and Investigation of Their Self Assembly Properties
 
Sequence-specific reactivity of short peptides: Peptide photooxidative fluorogenesis and peptide tags for small molecule fluorescent probes
 Synthetic studies towards tautomycetin and spirastrellolide A and the design and synthesis of tautomycetin/tautomycin analogs
 
Analysis of the factors that govern stereoselectivity in the reactions of oxocarbenium ion intermediates: The role of neighboring-group participation and the correlation between nucleophile strength and stereoselectivity
 Synthesis of exo-methylidenecycloalkanes via Allylsilane ring-closing metathesis/SE' electrophilic desilylation. Short syntheses of teucladiol, poitediol, dactylol, and 4beta,6beta-dihydroxy-1alpha,5beta(H)-guai-9-ene (isoteucladiol)
 
Studies toward the total synthesis of spirastrellolide A
 Electrostatic effects in exocyclic iminium, hydrazonium, and oxocarbenium ions
 
Development of metal-catalyzed silylene transfer for the synthesis of oxasilacyclopentenes and subsequent reactions
 Studies towards the total synthesis of (-)-dysiherbaine, an ionotropic glutamate receptor agonist and tautomycetin, a selective protein phosphatase-1 inhibitor
 
Development of Iridium-Catalyzed Allylation Reactions of Ketones and Imines and Nickel-Catalyzed and Titanium-Mediated Cross-Coupling Reactions of N-Chloroamines
 Silylene Transfer: New Silylene-Mediated Multi-Step Reactions for Stereoselective Synthesis and the Development of a New Diarylsilylene Transfer Reagent
 
The Prins Dimerization/Macrocyclization Reaction: Applications toward the Synthesis of Clavosolide A, Cyanolide A, and SCH 351448
 Synthetic Studies of the Chlorosulfolipids
 
Enantioselective Synthesis of Angularly Substituted 1-Azabicyclic Ring Systems: Dynamic Kinetic Resolution Using Aza-Cope Rearrangements
 Interaction of Deuterated Water with Organic Thin Films of Varying Hydrophobic and Hydrophilic Character
 
Palladium and Nickel-Catalyzed Transformations Accessing Electron-Rich Allylmetal Intermediates
 Cobalt Oxazoline Palladacycle (COP)-Catalyzed Enantioselective Formation of Branched Allylic C-O Bonds using Prochiral (E)-Allylic Alcohol Derivatives
 
Synthesis of 2-Pyridone Analogs and its Biological Evaluation in Hydra
 The Application of Zincke Aldehydes to the Synthesis of Strychnos Alkaloids and Progress Toward the Synthesis of Platencin
 
Development of palladium and rhodium metal catalysts for nucleophilic addition into imines, aldehydes and ketones
 Pericyclic Rearrangements of Zincke Aldehydes and Progress Toward the Synthesis of the Core of Exiguaquinol
 
Volatile Biomarkers from Cultured Human Immune Cells, Cultured Human Acute Lymphoblastic Leukemia Cells and the Exhaled Breath of Patients with Acute Myelogenous Leukemia
 Total Synthesis of (+)-Sieboldine A and Identification of An Unexpected 2-Oxonia[3,3]sigmatropic Rearrangement/Aldol Pathway in the Formation of Oxacyclic Rings
 
Development of Polypyridyl Pyrazolate-Bridging Dinucleating Ligands Containing Hydrogen-Bond Donors: Synthesis, Structure, and Reactivity of the Corresponding Manganese, Iron and Cobalt Complexes
 Application of the Zincke Ring-Opening Reaction of Activated Pyridines to the Synthesis of Delta-Tributylstannyl-Alpha, Betagamma Delta-Unsaturated Aldehydes and a Formal Synthesis of Porothramycins A and B, And, Synthesis of Echinopines A and B
 
Investigation of the Scope and Mechanism of the Palladium-Catalyzed Synthesis of Enantioenriched Allylic Esters from Prochiral (Z)-Allylic Alcohols and Progress Toward the Total Synthesis of (--)-Massadine
 beta-Sheet Macrocycles that Mimic Amyloid Oligomers and Inhibit Amyloid Aggregation
 
Mechanistic chemical reaction prediction using machine learning