Biodegradable microfluidic device: Hydrolysis, decomposition and surface modification

Key Engineering Materials

Volumn 447 448, Issue , 2010, Pages 755-759

  Low, Jia En ^a   Koh, Wei Xiang ^b   Lai, Joon Kit ^b   Lee, Yan Jie ^b   Li, Xu ^a   Chen, Ge ^c   Juay, Yang Kay ^c   Zhao, Jianhong ^c  

^a INSTITUTE OF MATERIALS RESEARCH AND ENGINEERING   (Singapore)

^b SINGAPORE POLYTECHNIC   (Singapore)

^c SINGAPORE INSTITUTE OF MANUFACTURING TECHNOLOGY   (Singapore)

Author keywords

Biodegradable; Decomposition; Hydrolysis; Microfluidic device; Poly(ethylene oxide) methacrylate; Poly(lactic acid); Surface modification

Indexed keywords

BIOCOMPATIBILITY; BLOOD; COMPOUNDING (CHEMICAL); CONTACT ANGLE; DECOMPOSITION; DIALYSIS; ETHYLENE; FLUIDIC DEVICES; HYDROLYSIS; HYDROPHILICITY; HYDROPHOBICITY; LACTIC ACID; MICROFLUIDICS; MORPHOLOGY; POLYETHYLENE OXIDES; PRECISION ENGINEERING; SUGAR BEETS; SURFACE CHEMISTRY; SURFACE TREATMENT;

ALIPHATIC POLYESTER; BIODEGRADABLE; BLOOD COMPATIBILITY; ENVIRONMENTAL CONDITIONS; HYDROPHILIC POLYMERS; HYDROPHOBIC SURFACES; MICRO-FLUIDIC DEVICES; POLY LACTIC ACID;

GRAFTING (CHEMICAL);

EID: 78650449255     PISSN: 10139826     EISSN: 16629795     Source Type: Book Series    
DOI: 10.4028/www.scientific.net/KEM.447-448.755     Document Type: Conference Paper

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