Daniel T. Bregante
Daniel T. Bregante
Pilot-Scale Program Lead @ Boston Metal
Verified email at - Homepage
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Periodic Trends in Olefin Epoxidation over Group IV and V Framework Substituted Zeolite Catalysts: A Kinetic and Spectroscopic Study
DT Bregante, DW Flaherty
Journal of the American Chemical Society 139, 6888-6898, 2017
Cooperative Effects between Hydrophilic Pores and Solvents: Catalytic Consequences of Hydrogen Bonding on Alkene Epoxidation in Zeolites
DT Bregante, AM Johnson, AY Patel, EZ Ayla, MJ Cordon, BC Bukowski, ...
Journal of the American Chemical Society 141 (18), 7302-7319, 2019
Consequences of Confinement for Alkene Epoxidation with Hydrogen Peroxide on Highly Dispersed Group 4 and 5 Metal Oxide Catalysts
DT Bregante, NE Thornburg, JM Notestein, DW Flaherty
ACS Catalysis 8, 2995-3010, 2018
Impact of Specific Interactions Among Reactive Surface Intermediates and Confined Water on Epoxidation Catalysis and Adsorption in Lewis Acid Zeolites
DT Bregante, DW Flaherty
ACS Catalysis 9, 10951-10962, 2019
Kinetic and spectroscopic evidence for reaction pathways and intermediates for olefin epoxidation on Nb in *BEA
DT Bregante, P Priyadarshini, DW Flaherty
Journal of Catalysis 348, 75-89, 2017
The Shape of Water in Zeolites and Its Impact on Epoxidation Catalysis
DT Bregante, M Chan, JZ Tan, EZ Ayla, CP Nicholas, D Shukla, ...
Nature Catalysis 4, 797-808, 2021
Alkene Epoxidations with H2O2 over Groups 4–6 Metal-Substituted BEA Zeolites: Reactive Intermediates, Reaction Pathways, and Linear Free-Energy Relationships
EZ Ayla, DS Potts, DT Bregante, DW Flaherty
ACS Catalysis 11, 139-154., 2021
Diffusion of water-soluble sorptive drugs in HEMA/MAA hydrogels
DE Liu, TJ Dursch, NO Taylor, SY Chan, DT Bregante, CJ Radke
Journal of Controlled Release 239, 242-248, 2016
Thermochemical aerobic oxidation catalysis in water can be analysed as two coupled electrochemical half-reactions
J Ryu, DT Bregante, WC Howland, RP Bisbey, CJ Kaminsky, ...
Nature Catalysis 4, 742-752, 2021
Production and use of H2O2 for atom-efficient functionalization of hydrocarbons and small molecules
NM Wilson, DT Bregante, P Priyadarshini, DW Flaherty
Catalysis 29, 122-212, 2017
Catalytic Consequences of Oxidant, Alkene, and Pore Structure on Alkene Epoxidations within Titanium Silicates
DT Bregante, JZ Tan, RL Schultz, EZ Ayla, DS Potts, C Torres, ...
ACS Catalysis, 2020
Direct Synthesis of H2O2 on PdZn Nanoparticles: The Impact of Electronic Modifications and Heterogeneity of Active Sites
NM Wilson, J Schroder, P Priyadarshini, DT Bregante, S Kunz, ...
Journal of Catalysis 368, 261-274, 2018
Lewis Acid Strength of Interfacial Metal Sites Drives CH3OH Selectivity and Formation Rates on Cu-based CO2 Hydrogenation Catalysts
G Noh, E Lam, DT Bregante, J Meyet, P Sot, DW Flaherty, C Copéret
Angewandte Chemie International Edition, 2021
Catalytic Thiophene Oxidation by Groups 4 and 5 Framework-Substituted Zeolites with Hydrogen Peroxide: Mechanistic and Spectroscopic Evidence for the Effects of Metal Lewis …
DT Bregante, AY Patel, AM Johnson, DW Flaherty
Journal of Catalysis 364, 415-425, 2018
Heteroatom Substituted Zeolite FAU with Ultralow Al Contents for Liquid-Phase Oxidation Catalysis
DT Bregante, JZ Tan, A Sutrisno, DW Flaherty
Catalysis Science & Technology 10, 635-647, 2020
Influence of solvent structure and hydrogen bonding on catalysis at solid–liquid interfaces
DS Potts, DT Bregante, JS Adams, C Torres, DW Flaherty
Chemical Society Reviews 50 (22), 12308-12337, 2021
Formation Pathways toward 2‐and 4‐Methylbenzaldehyde via Sequential Reactions from Acetaldehyde over Hydroxyapatite Catalyst
T Moteki, AT Rowley, DT Bregante, DW Flaherty
ChemCatChem 9, 1921-1929, 2017
Effects of Hydrofluoric Acid Concentration on the Density of Silanol Groups and Water Adsorption in Hydrothermally Synthesized Transition Metal Substituted Silicalite-1
DT Bregante, DS Potts, O Kwon, EZ Ayla, JZ Tan, DW Flaherty
Chemistry of Materials, 2020
Dioxygen Activation Kinetics over Distinct Cu Site Types in Cu-Chabazite Zeolites
DT Bregante, LN Wilcox, C Liu, C Paolucci, R Gounder, DW Flaherty
ACS Catalysis 11, 11873-11884, 2021
The use of a 2,2’-azobis (2-amidinopropane) dihydrochloride (AAPH) stress model as an indicator of oxidation susceptibility for monoclonal antibodies
MZ Dion, YJ Wang, DT Bregante, W Chan, N Andersen, A Hilderbrand, ...
Journal of Pharmaceutical Sciences 107, 550-558, 2018
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