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Pure Appl. Chem., 2009, Vol. 81, No. 12, pp. 2183-2201

Published online 2009-10-31

Synthesis and microfabrication of biomaterials for soft-tissue engineering*

Christopher J. Bettinger

Department of Chemical Engineering, Stanford University, 381 North-South Axis, Room 113, Stanford, CA 94305-5025, USA

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  • Wang Jane, Boutin Kyle G., Abdulhadi Omar, Personnat Lyndia D., Shazly Tarek, Langer Robert, Channick Colleen L., Borenstein Jeffrey T.: Fully Biodegradable Airway Stents Using Amino Alcohol-Based Poly(ester amide) Elastomers. Advanced Healthcare Materials 2013, 2, 1329. <>
  • Midthun Kari M., Taylor Priscilla G., Newby Carol, Chatzichristidi Margarita, Petrou Panagiota S., Lee Jin-Kyun, Kakabakos Sotiris E., Baird Barbara A., Ober Christopher K.: Orthogonal Patterning of Multiple Biomolecules Using an Organic Fluorinated Resist and Imprint Lithography. Biomacromolecules 2013, 14, 993. <>
  • Liu Quanyong, Jiang Lei, Shi Rui, Zhang Liqun: Synthesis, preparation, in vitro degradation, and application of novel degradable bioelastomers—A review. Progress in Polymer Science 2012, 37, 715. <>
  • Pramanik Sumit, Pingguan-Murphy Belinda, Abu Osman Noor Azuan: Progress of key strategies in development of electrospun scaffolds: bone tissue. Sci. Technol. Adv. Mater. 2012, 13, 043002. <>
  • Takei Takayuki, Kishihara Naoya, Ijima Hiroyuki, Kawakami Koei: Fabrication of Capillary-like Network in a Matrix of Water-soluble Polymer Using Poly(methyl methacrylate) Microfibers. Artif Cell Blood Sub 2012, 40, 66. <>
  • Wang Jane, Kniazeva Tatiana, Campbell Carly F., Langer Robert, Ustin Jeffrey S., Borenstein Jeffrey T.: Biodegradable Microfluidic Scaffolds with Tunable Degradation Properties from Amino Alcohol-based Poly(ester amide) Elastomers. Proc MRS 2011, 1299, mrsf10-1299-s11-02. <>