T
Thomas E. Kodger
Researcher at Wageningen University and Research Centre
Publications - 69
Citations - 2231
Thomas E. Kodger is an academic researcher from Wageningen University and Research Centre. The author has contributed to research in topics: Colloid & Particle. The author has an hindex of 20, co-authored 62 publications receiving 1801 citations. Previous affiliations of Thomas E. Kodger include Procter & Gamble & University of Cincinnati.
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Journal ArticleDOI
Double emulsion templated monodisperse phospholipid vesicles.
TL;DR: A novel approach for fabricating monodisperse phospholipid vesicles with high encapsulation efficiency using controlled double emulsions as templates using glass-capillary microfluidics as templates is presented.
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Biomechanical analysis of gait adaptation in the nematode Caenorhabditis elegans
Christopher Fang-Yen,Matthieu Wyart,Matthieu Wyart,Julie Xie,Risa Kawai,Thomas E. Kodger,Sway P. Chen,Quan Wen,Quan Wen,Aravinthan D. T. Samuel +9 more
TL;DR: This work studies the undulatory movements of C. elegans in Newtonian fluids spanning nearly five orders of magnitude in viscosity and suggests that the nematode locomotory gait continuously adapts to external mechanical load in order to maintain propulsive thrust.
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Ultrathin shell double emulsion templated giant unilamellar lipid vesicles with controlled microdomain formation.
Laura R. Arriaga,Sujit S. Datta,Shin-Hyun Kim,Shin-Hyun Kim,Esther Amstad,Thomas E. Kodger,Francisco Monroy,David A. Weitz +7 more
TL;DR: This work demonstrates a straightforward and versatile approach to GUV fabrication with precise control over theGUV size, lipid composition and the formation of microdomains within the GUV membrane.
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Soft Poly(dimethylsiloxane) Elastomers from Architecture-Driven Entanglement Free Design.
Liheng Cai,Thomas E. Kodger,Rodrigo Guerra,Adrian F. Pegoraro,Michael Rubinstein,David A. Weitz +5 more
TL;DR: Soft, solvent-free poly(dimethylsiloxane) elastomers are fabricated by a one-step process via crosslinking bottlebrush polymers, resulting in elastomer with precisely controllable low moduli from 1 to 100 kPa, below the lower limit of traditionalElastomers.
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Stress enhancement in the delayed yielding of colloidal gels
TL;DR: It is shown that the time delay for this yielding decreases in two distinct exponential regimes with applied stress, universal and found for a variety of colloidal gel systems.