Microengineering

Folch A and Tomer M. Microengineering of cellular interactions. Annu Rev Biomed Eng, 2000,2,227-256. [Pg.254]

TS-1 zeolite microengineered reactors for 1-pentene epoxidation, Chem. Commun. (2002) 878-879. [Pg.575]

Bioadhesion is an area of research important in the selection of biomaterials (e.g., for implants). It is also critical in the development of the new biofouling coatings. A system for bioadhesion studies was developed, in which silicones with chemically and topologically (microengineered) modified surfaces were evaluated in the studies of the response to such surfaces of a diverse set of organisms.559-561 A new study of micropatterning and surface modification of PDMS to control bioadhesion has been reported.562... [Pg.681]

Joshi PP, Merchant SA, Wang YD, Schmidtke DW (2005). MEMS sensor material based on polypyrrole-carbon nanotube nanocomposite film deposition and characterization. J. Micromech. Microengin. 5 2019-2027. [Pg.216]

Combustion in small volumes has recently become of interest to applications of micropower generation [77-81], micropropulsion [82-94], microengines [95-102], microactuation [103-105], and microfuel reforming for fuel cells... [Pg.250]

A. Stoffel, A. Kovacs, W. Kronast, and B. Miiller. LPCVD against PECVD for micromechanical applications. . Journal of Micromechanics and Microengineering 6 (1996), 1-13. [Pg.115]

D. Briand, S. Heimgartner, M.A. GretiEat, B. van der School, and N.R de Rooij. Thermal optimization of micro-hotplates that have a silicon island. . Journal of Micromechanics and Microengineering 12 (2002), 971-978. [Pg.118]

T. Bechthold, E.B. Rudnyi, J.G. Korvink, M. Graf, and A. Hierlemann. Connectingheat transfer macromodels for MEMS-array stmctru es . Journal of Micromechanics and Microengineering 15 (2005), 1205-1214. [Pg.118]

M. Ehmann, P. Ruther, M. von Arx, and O. Paul. Operation and short term drift of polysUicon-heated CMOS micro structures at temperatrues up to 1200 K , Journal of Micromechanics and Microengineering 11 (2001), 397-401. [Pg.119]

F. Y. Zhang, A. K. Prasad, and S. G. Advani. Investigation of a copper etching technique to fabricate metallic gas diffusion media. Journal of Micromechanics and Microengineering 16 (2006) N23-N27. [Pg.290]

N. T. Nguyen and S. H. Chan. Micromachined polymer electrolyte membrane and direct methanol fuel cells and mdash a review. Journal of Micromechanics and Microengineering 16 (2006) R1-R12. [Pg.291]

Z. Y. Xiao, G. Z. Yan, C. H. Feng, P. G. H. Ghan, and I. M. Hsing. A silicon-based fuel cell micropower system using a microfabrication technique. Journal of Micromechanics and Microengineering 16 (2006) 2014 2020. [Pg.291]

E.. Schmidt. M.A., Shirley, G., Spearing, S.M..Tan. C.S.,Tzeng, Y.S.and Waitz, LA. (1997) Micro-heat engines, gas turbines and rocket engines - The MIT Microengine Project, paper 97-1773, 28th AlAA Fluid Dynamics Conference. [Pg.389]

Department of Chemical and Nuclear Engineering and UNM/NSF Center for Microengineered Ceramics, University of New Mexico, Albuquerque, NM 87131, USA... [Pg.546]

The fast progress in microengineering and semiconductor technology led at the development of microchannels, that Nakajima et al. applied in emulsification technology [12]. [Pg.464]

Keywords Assay Bioactive surface Cell adhesion Cell chip Hydrogel Microengineering Micropattern Peptide Polymer brush Protein adsorption... [Pg.35]

Table 2 Examples for microengineered surfaces for a spatially controlled cell attachment that use proteins as adhesion-mediating component...

Ritzhaupt-Kleissl, H.-J., von Both, H., Dauscher, M. and Knitter, R. (2005) Further ceramic replication techniques, in Advanced Micro and Nanosystems Microengineering of Metals and Ceramics, vol. 4 (eds H. Baltes, O. Brand, G.K. Fedder, C. Hierold, J. Korvink and O. Tabata), Wiley-VCH Verlag GmbH, Weinheim, Germany, Chapter 15. [Pg.17]

From the viewpoint of the mechanical characteristics, glass and silicon resemble each other. They have a similar mechanical hardness, are brittle as they lack plasticity and are thus prone to fracture. Of the standard precision engineering procedures available for shaping, only those that do not use a geometrically defined cutter can be used, such as grinding and lapping. Microengineering techniques are much more efficient, but they do prove difficult for deeper structures. [Pg.24]

Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...