scholarly article | Q13442814 |
P50 | author | Umut A. Gurkan | Q43282544 |
P2093 | author name string | Feng Xu | |
Utkan Demirci | |||
Rami El Assal | |||
Elvan Ceyhan | |||
Ahmet Emrehan Emre | |||
Ali Acikgenc | |||
Chung-an Max Wu | |||
Emine Sumeyra Turali | |||
P2860 | cites work | Mistranslation of membrane proteins and two-component system activation trigger antibiotic-mediated cell death. | Q37198083 |
High-throughput single cell arrays as a novel tool in biopreservation | Q37281211 | ||
Cell encapsulating droplet vitrification | Q41612089 | ||
Quantitative cell-based reporter gene assays using droplet-based microfluidics | Q42020823 | ||
Single cell epitaxy by acoustic picolitre droplets | Q42629650 | ||
Engineered 3D tissue models for cell-laden microfluidic channels | Q42835328 | ||
High-throughput single copy DNA amplification and cell analysis in engineered nanoliter droplets | Q46646435 | ||
Inkjet printing for high-throughput cell patterning | Q47953155 | ||
Generation of monodisperse alginate microbeads and in situ encapsulation of cell in microfluidic device. | Q50975820 | ||
Cell deposition system based on laser guidance. | Q51139333 | ||
High-throughput generation of hydrogel microbeads with varying elasticity for cell encapsulation. | Q51553041 | ||
Capillary flow as the cause of ring stains from dried liquid drops | Q56836262 | ||
Use of a novel 3D culture model to elucidate the role of mesothelial cells, fibroblasts and extra-cellular matrices on adhesion and invasion of ovarian cancer cells to the omentum | Q80423904 | ||
High-throughput combinatorial cell co-culture using microfluidics | Q83987999 | ||
Droplet-Based Microfluidic Platforms for the Encapsulation and Screening of Mammalian Cells and Multicellular Organisms | Q28049391 | ||
Living bacterial sacrificial porogens to engineer decellularized porous scaffolds | Q28477943 | ||
Drop-based microfluidic devices for encapsulation of single cells | Q30143659 | ||
A three-dimensional in vitro ovarian cancer coculture model using a high-throughput cell patterning platform | Q30449030 | ||
Three-dimensional magnetic assembly of microscale hydrogels. | Q30459389 | ||
Microengineering methods for cell-based microarrays and high-throughput drug-screening applications | Q30464008 | ||
Multi-scale heat and mass transfer modelling of cell and tissue cryopreservation | Q30471297 | ||
Embryonic stem cell bioprinting for uniform and controlled size embryoid body formation | Q30474709 | ||
Drop-on-demand single cell isolation and total RNA analysis | Q30476356 | ||
Blood banking in living droplets | Q30476359 | ||
Engineering hydrogels as extracellular matrix mimics | Q30477371 | ||
Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets | Q30477397 | ||
Electrostatics at the oil-water interface, stability, and order in emulsions and colloids. | Q30479009 | ||
Quantum dot-based HIV capture and imaging in a microfluidic channel | Q30479568 | ||
Integrating microfluidics and lensless imaging for point-of-care testing | Q30480482 | ||
Continuous inertial focusing, ordering, and separation of particles in microchannels | Q30480858 | ||
Microfluidic high-throughput encapsulation and hydrodynamic self-sorting of single cells | Q30481405 | ||
Vitrification and levitation of a liquid droplet on liquid nitrogen. | Q30482555 | ||
Microfluidics for cryopreservation | Q30487668 | ||
Jet-based methods to print living cells | Q33253227 | ||
Nanometer- and submicrometer-sized hollow spheres of chondroitin sulfate as a potential formulation strategy for anti-inflammatory encapsulation | Q33384152 | ||
Lab-on-a-chip: microfluidics in drug discovery | Q36414511 | ||
Application of inkjet printing to tissue engineering | Q36581568 | ||
Vitrification, encapsulation-vitrification and droplet-vitrification: a review. | Q36953225 | ||
Droplet microfluidics | Q37071620 | ||
P433 | issue | 22 | |
P921 | main subject | microdroplet | Q87446206 |
P1104 | number of pages | 10 | |
P304 | page(s) | 4884-4893 | |
P577 | publication date | 2012-11-01 | |
P1433 | published in | Lab on a Chip | Q3214277 |
P1476 | title | Prediction and control of number of cells in microdroplets by stochastic modeling | |
P478 | volume | 12 |
Q30403573 | Bio-inspired cryo-ink preserves red blood cell phenotype and function during nanoliter vitrification. |
Q30445233 | Bioprinting for stem cell research |
Q30419471 | Engineering anisotropic biomimetic fibrocartilage microenvironment by bioprinting mesenchymal stem cells in nanoliter gel droplets |
Q30358020 | Engineering cancer microenvironments for in vitro 3-D tumor models. |
Q33817708 | High-throughput Characterization of HIV-1 Reservoir Reactivation Using a Single-Cell-in-Droplet PCR Assay |
Q38229625 | In vitro spatially organizing the differentiation in individual multicellular stem cell aggregates |
Q30445677 | Manipulating biological agents and cells in micro-scale volumes for applications in medicine |
Q90248719 | Microfluidics-based fabrication of cell-laden microgels |
Q34094348 | Preserving human cells for regenerative, reproductive, and transfusion medicine |
Search more.