PUBLICATIONS
† EQUAL CONTRIBUTION
* CORRESPONDING AUTHOR ––– SUBMITTED –––
(63) TOPIC: Bonding
L. de Azevedo Santos, S. C. C. van der Lubbe, T. A. Hamlin, T. C. Ramalho,* and F. M. Bickelhaupt* (62) TOPIC: Catalysis
S. Yu,† P. Vermeeren,† T. A. Hamlin,* F. M. Bickelhaupt* (61) TOPIC: Catalysis
D. Svatunek,† T. Hansen,† K. Houk, T. A. Hamlin* (60) TOPIC: Catalysis
P. Vermeeren, M. T. Doppert, F. M. Bickelhaupt, T. A. Hamlin* (59) TOPIC: Benchmark
L. de Azevedo Santos, T. C. Ramalho, T. A. Hamlin,* F. M. Bickelhaupt* (58) TOPIC: Catalysis
I. C. Wan, T. A. Hamlin, N. N. H. M. Eisink, N. Marinus, C. de Boer, C. A. Vis, J. D. C. Codée, M. D. Witte,* A. J. Minnaard,* F. M. Bickelhaupt* (57) TOPIC: Bonding
P. Vermeeren, W.-J. van Zeist, T. A. Hamlin, C. Fonseca Guerra, F. M. Bickelhaupt* ––– 2021 –––
––– 2020 –––
––– 2019 –––
––– 2018 –––
––– 2017 –––
––– 2016 –––
––– 2015 ––– (13) Development of New Synthetic Methods, Mechanistic Elucidation of Novel Organic Reactions Using Quantum Calculations, and Harnessing the Power of Continuous Flow Technologies
T. A. Hamlin, Doctoral Dissertation, University of Connecticut, 2015
(11) Real-time Monitoring of Reactions Performed Using Continuous-flow Processing: The preparation of 3-Acetylcoumarin as an Example
T. A. Hamlin, N. E. Leadbeater* J. Vis. Exp. 2015, 105, e52393
––– 2014 –––
(5) Incorporation of Continuous-Flow Processing into the Undergraduate Teaching Laboratory: Key Concepts and Two Case Studies
N. E. Leadbeater, T. A. Hamlin in “Flow Chemistry: Organic Synthesis in Motion”, De Gruyter, Berlin, 2014, 1st ed. Chapter 9, pp 259-273 ––– 2013 –––
(3) Tools for Monitoring Reactions Performed Using Microwave Heating
N. E. Leadbeater, J. R. Schmink, T. A. Hamlin in “Microwaves in Organic Synthesis”, Wiley-VCH, 2013, 3rd ed. Chapter 8, pp 347-374
––– 2012 –––
|