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Michael Nayhouse
Michael Nayhouse
Software Engineer - Simulation, Latitude AI
Bestätigte E-Mail-Adresse bei ucla.edu - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Crystal shape and size control using a plug flow crystallization configuration
JSI Kwon, M Nayhouse, G Orkoulas, PD Christofides
Chemical Engineering Science 119, 30-39, 2014
1212014
Modeling and control of crystal shape in continuous protein crystallization
JSI Kwon, M Nayhouse, PD Christofides, G Orkoulas
Chemical Engineering Science 107, 47-57, 2014
1092014
Modeling and control of protein crystal shape and size in batch crystallization
JSI Kwon, M Nayhouse, PD Christofides, G Orkoulas
AIChE Journal 59 (7), 2317-2327, 2013
882013
Multiscale modeling and operation of PECVD of thin film solar cells
M Crose, JSI Kwon, M Nayhouse, D Ni, PD Christofides
Chemical Engineering Science 136, 50-61, 2015
772015
Modeling the self-assembly of lipids and nanotubes in solution: forming vesicles and bicelles with transmembrane nanotube channels
M Dutt, O Kuksenok, MJ Nayhouse, SR Little, AC Balazs
ACS nano 5 (6), 4769-4782, 2011
702011
A method for handling batch-to-batch parametric drift using moving horizon estimation: application to run-to-run MPC of batch crystallization
JSI Kwon, M Nayhouse, G Orkoulas, D Ni, PD Christofides
Chemical Engineering Science 127, 210-219, 2015
562015
Modeling and control of shape distribution of protein crystal aggregates
JSI Kwon, M Nayhouse, PD Christofides, G Orkoulas
Chemical Engineering Science 104, 484-497, 2013
522013
Modeling and control of ibuprofen crystal growth and size distribution
M Nayhouse, A Tran, JSI Kwon, M Crose, G Orkoulas, PD Christofides
Chemical Engineering Science 134, 414-422, 2015
492015
Enhancing the crystal production rate and reducing polydispersity in continuous protein crystallization
JSII Kwon, M Nayhouse, G Orkoulas, PD Christofides
Industrial & Engineering Chemistry Research 53 (40), 15538-15548, 2014
492014
Crystal shape modeling and control in protein crystal growth
M Nayhouse, JSI Kwon, PD Christofides, G Orkoulas
Chemical engineering science 87, 216-223, 2013
482013
Multiscale, multidomain modeling and parallel computation: application to crystal shape evolution in crystallization
JSI Kwon, M Nayhouse, PD Christofides
Industrial & Engineering Chemistry Research 54 (47), 11903-11914, 2015
472015
Run-to-run-based model predictive control of protein crystal shape in batch crystallization
JSI Kwon, M Nayhouse, G Orkoulas, D Ni, PD Christofides
Industrial & Engineering Chemistry Research 54 (16), 4293-4302, 2015
462015
Protein crystal shape and size control in batch crystallization: Comparing model predictive control with conventional operating policies
JSII Kwon, M Nayhouse, PD Christofides, G Orkoulas
Industrial & Engineering Chemistry Research 53 (13), 5002-5014, 2014
452014
Selected AB 4 2−/−(A= C, Si, Ge; B= Al, Ga, In) ions: a battle between covalency and aromaticity, and prediction of square planar Si in SiIn 4 2−/−
AN Alexandrova, MJ Nayhouse, MT Huynh, JL Kuo, AV Melkonian, ...
Physical Chemistry Chemical Physics 14 (43), 14815-14821, 2012
382012
Interactions of end-functionalized nanotubes with lipid vesicles: spontaneous insertion and nanotube self-organization
M Dutt, M J Nayhouse, O Kuksenok, S R Little, A C Balazs
Current Nanoscience 7 (5), 699-715, 2011
322011
Strategy for high concentration nanodispersion of single-walled carbon nanotubes with diameter selectivity
C Biswas, KK Kim, HZ Geng, HK Park, SC Lim, SJ Chae, SM Kim, YH Lee, ...
The Journal of Physical Chemistry C 113 (23), 10044-10051, 2009
312009
A Monte Carlo study of the freezing transition of hard spheres
M Nayhouse, AM Amlani, G Orkoulas
Journal of Physics: Condensed Matter 23 (32), 325106, 2011
172011
Communication: A simple method for simulation of freezing transitions
G Orkoulas, M Nayhouse
The Journal of chemical physics 134 (17), 2011
162011
Designing patterned substrates to regulate the movement of capsules in microchannels
OB Usta, M Nayhouse, A Alexeev, AC Balazs
The Journal of chemical physics 128 (23), 2008
112008
Simulation of fluid–solid coexistence via thermodynamic integration using a modified cell model
M Nayhouse, AM Amlani, VR Heng, G Orkoulas
Journal of Physics: Condensed Matter 24 (15), 155101, 2012
102012
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