Eugenia Kumacheva
Eugenia Kumacheva
Professor of Chemistry, University of Toronto
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Cited by
Cited by
Properties and emerging applications of self-assembled structures made from inorganic nanoparticles
Z Nie, A Petukhova, E Kumacheva
Nature nanotechnology 5 (1), 15-25, 2010
Enhanced electrocatalytic CO2 reduction via field-induced reagent concentration
M Liu, Y Pang, B Zhang, P De Luna, O Voznyy, J Xu, X Zheng, CT Dinh, ...
Nature 537 (7620), 382-386, 2016
Generation of monodisperse particles by using microfluidics: control over size, shape, and composition
S Xu, Z Nie, M Seo, P Lewis, E Kumacheva, HA Stone, P Garstecki, ...
Angewandte Chemie 117 (5), 734-738, 2005
Patterning surfaces with functional polymers
Z Nie, E Kumacheva
Nature materials 7 (4), 277-290, 2008
Self-assembly of metal–polymer analogues of amphiphilic triblock copolymers
Z Nie, D Fava, E Kumacheva, S Zou, GC Walker, M Rubinstein
Nature materials 6 (8), 609-614, 2007
Janus and ternary particles generated by microfluidic synthesis: design, synthesis, and self-assembly
Z Nie, W Li, M Seo, S Xu, E Kumacheva
Journal of the American Chemical Society 128 (29), 9408-9412, 2006
Formation of monodisperse bubbles in a microfluidic flow-focusing device
P Garstecki, I Gitlin, W DiLuzio, GM Whitesides, E Kumacheva, HA Stone
Applied Physics Letters 85 (13), 2649-2651, 2004
Polymer microgels: reactors for semiconductor, metal, and magnetic nanoparticles
J Zhang, S Xu, E Kumacheva
Journal of the American Chemical Society 126 (25), 7908-7914, 2004
Reduction of frictional forces between solid surfaces bearing polymer brushes
J Klein, E Kumacheva, D Mahalu, D Perahia, LJ Fetters
Nature 370 (6491), 634-636, 1994
Confinement-induced phase transitions in simple liquids
J Klein, E Kumacheva
Science 269 (5225), 816-819, 1995
Polymer particles with various shapes and morphologies produced in continuous microfluidic reactors
Z Nie, S Xu, M Seo, PC Lewis, E Kumacheva
Journal of the American chemical society 127 (22), 8058-8063, 2005
Bipolar-shell resurfacing for blue LEDs based on strongly confined perovskite quantum dots
Y Dong, YK Wang, F Yuan, A Johnston, Y Liu, D Ma, MJ Choi, B Chen, ...
Nature nanotechnology 15 (8), 668-674, 2020
Three-dimensional shape transformations of hydrogel sheets induced by small-scale modulation of internal stresses
ZL Wu, M Moshe, J Greener, H Therien-Aubin, Z Nie, E Sharon, ...
Nature communications 4 (1), 1586, 2013
Simple liquids confined to molecularly thin layers. I. Confinement-induced liquid-to-solid phase transitions
J Klein, E Kumacheva
The Journal of chemical physics 108 (16), 6996-7009, 1998
Control of human embryonic stem cell colony and aggregate size heterogeneity influences differentiation trajectories
CL Bauwens, R Peerani, S Niebruegge, KA Woodhouse, E Kumacheva, ...
Stem cells 26 (9), 2300-2310, 2008
Step-growth polymerization of inorganic nanoparticles
K Liu, Z Nie, N Zhao, W Li, M Rubinstein, E Kumacheva
science 329 (5988), 197-200, 2010
Method and apparatus for fluid dispersion
HA Stone, SL Anna, N Bontoux, DR Link, DA Weitz, I Gitlin, E Kumacheva, ...
US Patent 7,708,949, 2010
Niche‐mediated control of human embryonic stem cell self‐renewal and differentiation
R Peerani, BM Rao, C Bauwens, T Yin, GA Wood, A Nagy, E Kumacheva, ...
The EMBO journal 26 (22), 4744-4755, 2007
Emulsification in a microfluidic flow-focusing device: effect of the viscosities of the liquids
Z Nie, MS Seo, S Xu, PC Lewis, M Mok, E Kumacheva, GM Whitesides, ...
Microfluidics and Nanofluidics 5, 585-594, 2008
Photogeneration of fluorescent silver nanoclusters in polymer microgels
J Zhang, S Xu, E Kumacheva
Advanced Materials 17 (19), 2336-2340, 2005
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