David A. Weitz
David A. Weitz
Professor of Physics and Applied Physics, Harvard University
Dirección de correo verificada de - Página principal
Citado por
Citado por
Highly parallel genome-wide expression profiling of individual cells using nanoliter droplets
EZ Macosko, A Basu, R Satija, J Nemesh, K Shekhar, M Goldman, I Tirosh, ...
Cell 161 (5), 1202-1214, 2015
Droplet barcoding for single-cell transcriptomics applied to embryonic stem cells
AM Klein, L Mazutis, I Akartuna, N Tallapragada, A Veres, V Li, L Peshkin, ...
Cell 161 (5), 1187-1201, 2015
Monodisperse double emulsions generated from a microcapillary device
AS Utada, E Lorenceau, DR Link, PD Kaplan, HA Stone, DA Weitz
Science 308 (5721), 537-541, 2005
Colloidosomes: selectively permeable capsules composed of colloidal particles
AD Dinsmore, MF Hsu, MG Nikolaides, M Marquez, AR Bausch, DA Weitz
Science 298 (5595), 1006-1009, 2002
Three-dimensional direct imaging of structural relaxation near the colloidal glass transition
ER Weeks, JC Crocker, AC Levitt, A Schofield, DA Weitz
Science 287 (5453), 627-631, 2000
Optical measurements of frequency-dependent linear viscoelastic moduli of complex fluids
TG Mason, DA Weitz
Physical review letters 74 (7), 1250, 1995
Geometrically mediated breakup of drops in microfluidic devices
DR Link, SL Anna, DA Weitz, HA Stone
Physical review letters 92 (5), 054503, 2004
Elastic behavior of cross-linked and bundled actin networks
ML Gardel, JH Shin, FC MacKintosh, L Mahadevan, P Matsudaira, ...
Science 304 (5675), 1301-1305, 2004
Eutectic gallium‐indium (EGaIn): a liquid metal alloy for the formation of stable structures in microchannels at room temperature
MD Dickey, RC Chiechi, RJ Larsen, EA Weiss, DA Weitz, GM Whitesides
Advanced functional materials 18 (7), 1097-1104, 2008
Single-cell analysis and sorting using droplet-based microfluidics
L Mazutis, J Gilbert, WL Ung, DA Weitz, AD Griffiths, JA Heyman
Nature protocols 8 (5), 870-891, 2013
Features of diffusing wave spectroscopy
DJ Pine, DA Weitz, PM Chaikin, E Herbolzheimer
Photon Correlation Techniques and Applications, QONC35, 1988
Novel colloidal interactions in anisotropic fluids
P Poulin, H Stark, TC Lubensky, DA Weitz
Science 275 (5307), 1770-1773, 1997
Physical forces during collective cell migration
X Trepat, MR Wasserman, TE Angelini, E Millet, DA Weitz, JP Butler, ...
Nature physics 5 (6), 426-430, 2009
Ultrahigh-throughput screening in drop-based microfluidics for directed evolution
JJ Agresti, E Antipov, AR Abate, K Ahn, AC Rowat, JC Baret, M Marquez, ...
Proceedings of the National Academy of Sciences 107 (9), 4004-4009, 2010
Real-space imaging of nucleation and growth in colloidal crystallization
U Gasser, ER Weeks, A Schofield, PN Pusey, DA Weitz
Science 292 (5515), 258-262, 2001
Fractal structures formed by kinetic aggregation of aqueous gold colloids
DA Weitz, M Oliveria
Physical review letters 52 (16), 1433, 1984
Universality in colloid aggregation
MY Lin, HM Lindsay, DA Weitz, RC Ball, R Klein, P Meakin
Nature 339 (6223), 360-362, 1989
Droplet microfluidics for high-throughput biological assays
MT Guo, A Rotem, JA Heyman, DA Weitz
Lab on a Chip 12 (12), 2146-2155, 2012
Fluorescence-activated droplet sorting (FADS): efficient microfluidic cell sorting based on enzymatic activity
JC Baret, OJ Miller, V Taly, M Ryckelynck, A El-Harrak, L Frenz, C Rick, ...
Lab on a Chip 9 (13), 1850-1858, 2009
Jamming phase diagram for attractive particles
V Trappe, V Prasad, L Cipelletti, PN Segre, DA Weitz
Nature 411 (6839), 772-775, 2001
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20