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Volumn 17, Issue 2, 2015, Pages
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3D printing of soft lithography mold for rapid production of polydimethylsiloxane-based microfluidic devices for cell stimulation with concentration gradients
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Author keywords
3D printing; Concentration gradient; Human embryonic stem cell; Microfluidics; Polydimethylsiloxane
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Indexed keywords
BIOACTIVITY;
BIOCOMPATIBILITY;
CELL CULTURE;
GAS PERMEABILITY;
MICROCHANNELS;
MICROFLUIDICS;
MOLDS;
POLYDIMETHYLSILOXANE;
SILICONES;
STEM CELLS;
TISSUE;
TISSUE ENGINEERING;
3-D PRINTING;
CONCENTRATION GRADIENTS;
FUTURE APPLICATIONS;
HUMAN EMBRYONIC STEM CELLS;
MICRO-FLUIDIC DEVICES;
POLYDIMETHYLSILOXANE PDMS;
SURVIVAL AND GROWTH;
THREE-DIMENSIONAL (3D) PRINTING;
3D PRINTERS;
DIMETICONE;
BAYSILON;
HYDROGEL;
SIGNAL PEPTIDE;
ANIMAL CELL;
ANIMAL TISSUE;
ARTICLE;
CELL CULTURE;
CELL FUNCTION;
CELL GROWTH;
CELL STIMULATION;
CELL SURVIVAL;
COMPUTER AIDED DESIGN;
EMBRYONIC STEM CELL;
HUMAN;
HUMAN CELL;
LABORATORY DEVICE;
MICROFLUIDIC DEVICE;
MICROFLUIDICS;
MOUSE;
NONHUMAN;
PLURIPOTENT STEM CELL;
PRIORITY JOURNAL;
SOFT LITHOGRAPHY MOLD;
THREE DIMENSIONAL PRINTING;
ANIMAL;
CELL CULTURE TECHNIQUE;
CHEMISTRY;
CYTOLOGY;
DEVICES;
DRUG EFFECTS;
EQUIPMENT DESIGN;
FEMALE;
FIBROBLAST;
HYDROGEL;
INSTITUTE FOR CANCER RESEARCH MOUSE;
LAB ON A CHIP;
PREGNANCY;
PROCEDURES;
ANIMALS;
CELL CULTURE TECHNIQUES;
DIMETHYLPOLYSILOXANES;
EMBRYONIC STEM CELLS;
EQUIPMENT DESIGN;
FEMALE;
FIBROBLASTS;
HUMANS;
HYDROGELS;
INTERCELLULAR SIGNALING PEPTIDES AND PROTEINS;
LAB-ON-A-CHIP DEVICES;
MICE, INBRED ICR;
PREGNANCY;
PRINTING, THREE-DIMENSIONAL;
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EID: 84923005944
PISSN: 13872176
EISSN: 15728781
Source Type: Journal
DOI: 10.1007/s10544-015-9928-y Document Type: Article |
Times cited : (145)
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References (31)
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