Biomedical Engineering Reference
In-Depth Information
98. Kamholz AE, Weigl BH, Finlayson BA, Yager P. Quantitative analysis of molecular
interaction in a microfluidic channel: the T-sensor. Anal Chem 1999;71(23):5340-5347.
99. Jeon NL, Dertinger SKW, Chiu DT, Choi IS, Stroock AD, Whitesides GM. Generation of
solution and surface gradients using microfluidic systems. Langmuir 2000;16(22):
8311-8316.
100. Dertinger SKW, Chiu DT, Jeon NL, Whitesides GM. Generation of gradients having
complex shapes using microfluidic networks. Anal Chem 2001;73(6):1240-1246.
101. Kumar A, Whitesides GM. Features of gold having micrometer to centimeter dimensions
can be formed through a combination of stamping with an elastomeric stamp and an
alkanethiol “ink” followed by chemical etching. Appl Phys Lett 1993;63(14):
2002-2004.
102. Xia Y, Mrksich M, Kim E, Whitesides GM. Microcontact printing of octadecylsiloxane
on the surface of silicon dioxide and its application in microfabrication. J Am Chem Soc
1995;117(37):9576-9577.
103. Jeon NL, Finnie K, Branshaw K, Nuzzo RG. Structure and stability of patterned self-
assembled films of octadecyltrichlorosilane formed by contact printing. Langmuir
1997;13(13):3382-3391.
104. Xu L, Robert L, Ouyang Q, Taddei Fo, Chen Y, Lindner AB, et al. Microcontact
printing of living bacteria arrays with cellular resolution. Nano Lett 2007;7(7):2068-
2072.
105. Hidber PC, Nealey PF, Helbig W, Whitesides GM. New strategy for controlling the size
and shape of metallic features formed by electroless deposition of copper: microcontact
printing of catalysts on oriented polymers, followed by thermal shrinkage. Langmuir
1996;12(21):5209-5215.
106. Perl A, Reinhoudt DN, Huskens J. Microcontact printing: limitations and achievements.
Adv Mater 2009;21(22):2257-2268.
107. Kaufmann T, Ravoo BJ. Stamps, inks and substrates: polymers in microcontact printing.
Polymer Chem 2010;1(4):371-387.
108. Quist AP, Pavlovic E, Oscarsson S. Recent advances in microcontact printing. Anal
Bioanal Chem 2005;381(3):591-600.
109. Kane RS, Takayama S, Ostuni E, Ingber DE, Whitesides GM. Patterning proteins and
cells using soft lithography. Biomaterials 1999;20(23-24):2363-2376.
110. Renault JP, Bernard A, Bietsch A, Michel B, Bosshard HR, Delamarche E, et al.
Fabricating arrays of single protein molecules on glass using microcontact printing. J
Phys Chem B 2003;107(3):703-711.
111. Wilbur JL, Kim E, Xia Y, Whitesides GM. Lithographic molding: a convenient route to
structures with sub-micrometer dimensions. Adv Mater 1995;7(7):649-652.
112. von Philipsborn AC, Lang S, Bernard A, Loeschinger J, David C, Lehnert D, et al.
Microcontact printing of axon guidance molecules for generation of graded patterns. Nat
Protocols 2006;1(3):1322-1328.
113. Murugan R, Ramakrishna S. Design strategies of tissue engineering scaffolds with
controlled fiber orientation. Tissue Eng 2007;13(8):1845-1866.
114. Li W-J, Danielson KG, Alexander PG, Tuan RS. Biological response of chondrocytes
cultured in three-dimensional nanofibrous poly(
e
-caprolactone) scaffolds. J Biomed
Mater Res Part A 2003;67A(4):1105-1114.
Search WWH ::
Custom Search