Ryan L. Hartman
Ryan L. Hartman
Associate Professor, Department of Chemical and Biomolecular Engineering, New York University
Verified email at - Homepage
Cited by
Cited by
Deciding whether to go with the flow: evaluating the merits of flow reactors for synthesis
RL Hartman, JP McMullen, KF Jensen
Angewandte Chemie International Edition 50 (33), 7502-7519, 2011
Microchemical systems for continuous-flow synthesis
RL Hartman, KF Jensen
Lab on a Chip 9 (17), 2495-2507, 2009
Managing solids in microreactors for the upstream continuous processing of fine chemicals
RL Hartman
Organic Process Research & Development 16 (5), 870-887, 2012
Overcoming the challenges of solid bridging and constriction during Pd-Catalyzed C− N bond formation in microreactors
RL Hartman, JR Naber, N Zaborenko, SL Buchwald, KF Jensen
Organic Process Research & Development 14 (6), 1347-1357, 2010
Palladium-catalyzed amination reactions in flow: overcoming the challenges of clogging via acoustic irradiation
T NoŽl, JR Naber, RL Hartman, JP McMullen, KF Jensen, SL Buchwald
Chemical Science 2 (2), 287-290, 2011
Formation, removal, and inhibition of inorganic scale in the oilfield environment
WW Frenier, M Ziauddin
Multistep microchemical synthesis enabled by microfluidic distillation
RL Hartman, JR Naber, SL Buchwald, KF Jensen
Angewandte Chemie 122 (5), 911-915, 2010
Distillation in microchemical systems using capillary forces and segmented flow
RL Hartman, HR Sahoo, BC Yen, KF Jensen
Lab on a Chip 9 (13), 1843-1849, 2009
Understanding the dissolution of zeolites
RL Hartman, HS Fogler
Langmuir 23 (10), 5477-5484, 2007
Acid sensitive aluminosilicates: dissolution kinetics and fluid selection for matrix stimulation treatments
RL Hartman, B Lecerf, W Frenier, M Ziauddin, HS Fogler
SPE European Formation Damage Conference, 2003
Teflon-coated silicon microreactors: impact on segmented liquid− liquid multiphase flows
S Kuhn, RL Hartman, M Sultana, KD Nagy, S Marre, KF Jensen
Langmuir 27 (10), 6519-6527, 2011
Microfluidic investigation of the deposition of asphaltenes in porous media
C Hu, JE Morris, RL Hartman
Lab on a Chip 14 (12), 2014
Interfacial properties of asphaltenes at the heptol–brine interface
C Hu, NC Garcia, R Xu, T Cao, A Yen, SA Garner, JM Macias, N Joshi, ...
Energy & Fuels 30 (1), 80-87, 2016
Particle handling techniques in microchemical processes
BS Flowers, RL Hartman
Challenges 3 (2), 194-211, 2012
Flow chemistry remains an opportunity for chemists and chemical engineers
RL Hartman
Current Opinion in Chemical Engineering 29, 42-50, 2020
High‐throughput packed‐bed microreactors with in‐line analytics for the discovery of asphaltene deposition mechanisms
C Hu, RL Hartman
AIChE Journal 60 (10), 3534-3546, 2014
Reaction kinetics and mechanisms of zeolite dissolution in hydrochloric acid
RL Hartman, HS Fogler
Industrial & engineering chemistry research 44 (20), 7738-7745, 2005
When solids stop flow chemistry in commercial tubing
Y Chen, JC Sabio, RL Hartman
Journal of Flow Chemistry 5, 166-171, 2015
Combining automated microfluidic experimentation with machine learning for efficient polymerization design
BA Rizkin, AS Shkolnik, NJ Ferraro, RL Hartman
Nature Machine Intelligence 2 (4), 200-209, 2020
Artificial Neural Network control of thermoelectrically-cooled microfluidics using computer vision based on IR thermography
BA Rizkin, K Popovich, RL Hartman
Computers & chemical engineering 121, 584-593, 2019
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