Biomedical Engineering Reference
In-Depth Information
73.
Jay, T. et al., Autoclaving of porous silicon within a hospital environment: Potential benefi ts and prob-
lems,
Phys. Status Solidi A
,
182
, 555, 2000.
74. Canham, L.T. et al., Derivatized mesoporous silicon with dramatically improved stability in simulated
human blood plasma,
Adv. Mater.
,
11
, 1505, 1999.
75.
Wainwright, M. et al., Morphological changes (including fi lamentation) in
Escherichia coli
grown
under starvation conditions on silicon wafers and other surfaces,
Lett. Appl. Microbiol.
,
29
, 224, 1999.
76.
Canham, L.T. et al., Calcium phosphate nucleation on porous silicon: Factors infl uencing kinetics in
acellular simulated body fl uids,
Thin Sol. Films
,
297
, 304, 1997.
Bayliss, S.C. et al., Phosphate and cell growth on nanostructured semiconductors,
J. Mat. Sci. Lett.
,
16
,
737, 1997.
78.
Bayliss, S.C. et al., The culture of neurons on silicon,
Sens. Actuators A
,
74
, 139, 1999.
79.
Bayliss, S.C. et al., The culture of mammalian cells on nanostructured silicon,
Adv. Mater.
,
11
, 318,
1999.
80.
Bayliss, S.C. et al., Nature of the silicon-animal cell interface,
J. Porous Mater.
,
7
, 191, 2000.
81.
Mayne, A.H. et al., Biologically interfaced porous silicon devices,
Phys. Status Solidi A
,
182
, 505,
2000.
82.
Buriak, J.M., Organometallic chemistry on silicon and germanium surfaces,
Chem. Rev.
,
102
, 1272,
2002.
83.
Foraker, A.B. et al., Microfabricated porous silicon particles enhance paracellular delivery of insulin
across intestinal Caco-2 cell monolayers,
Pharm. Res.
,
20
, 110, 2003.
84.
Anglin, E.J. et al., Engineering the chemistry and nanostructure of porous silicon Fabry-PĂ©rot fi lms for
loading and release of a steroid,
Langmuir
,
20
, 11264, 2004.
85.
Vaccari, L. et al., Porous silicon as drug carrier for controlled delivery of doxorubicin anticancer agent,
Microelectron. Eng.
,
83
, 1598, 2006.
86.
Collins, R.T., Fauchet, P.M. and Tischler, M.A., Porous silicon: from luminescence to LEDs,
Phys.
Today
,
50
, 24, 1997.
87.
Pavesi, L. and Dubos, P., Random porous silicon multilayers: Application to distributed Bragg refl ectors
and interferential Fabry-Perot fi lters,
Semicond. Sci. Technol.
,
12
, 570, 1997.
88.
Pavesi, L., Panzarini, G. and Andreani, L.C., All-porous silicon-coupled microcavities: Experiment
versus theory,
Phys. Rev. B Condens. Matt.
,
58
, 15794, 1998.
77.
89.
Mazzoleni, C. and Pavesi, L., Application to optical components of dielectric porous silicon multilayers,
Appl. Phys. Lett.
,
67
, 2983, 1995.
90.
T hon issen, M. a nd Berger, M.G., Multilayer st r uct ures of porous silicon, in
Properties of Porous Silicon
,
18th ed, Canham, L. (ed.), Short Run Press Ltd., London, 1997, 30.
91.
Lehmann, V. et al., Optical shortpass fi lters based on macroporous silicon,
Appl. Phys. Lett.
,
78
, 589,
2001.
92.
Snow, P.A. et al., Vapor sensing using the optical properties of porous silicon Bragg mirrors,
J. Appl.
Phys.
,
86
, 1781, 1999.
93.
Vincent, G., Optical properties of porous silicon super lattices,
Appl. Phys. Lett.
,
64
, 2367, 1994.
94.
Berger, M.G. et al., Dielectric fi lters made of porous silicon: Advanced performance by oxidation and
new layer structures,
Thin Sol. Films
,
297
, 237, 1997.
95.
Matthias, S. et al., Monodisperse diameter-modulated gold microwires,
Adv. Mater.
,
14
, 1618, 2002.
96. Sailor, M.J. and Link, J.R., Smart dust: Nanostructured devices in a grain of sand,
Chem. Commun.
,
1375, 2005.
97.
Weiss, S.M. et al., Electrical and thermal modulation of silicon photonic bandgap microcavities con-
taining liquid crystals,
Optic Express
,
13
, 1090, 2005.
98.
DeLouise, L.A. et al., Hydrogel-supported optical-microcavity sensors,
Adv. Mater.
,
17
, 2199, 2005.
99.
Lin, V.S.Y. et al., A porous silicon-based optical interferometric biosensor,
Science
,
278
, 840, 1997.
100. Sailor, M.J., Sensor applications of porous silicon, in
Properties of Porous Silicon
, 18th ed, Canham, L.
(ed.), Short Run Press Ltd., London, 1997, 364.
101.
Dancil, K.P.S., Greiner, D.P. and Sailor, M.J., A porous silicon optical biosensor: Detection of reversible
binding of IgG to a protein A-modifi ed surface,
J. Am. Chem. Soc.
,
121
, 7925, 1999.
102.
Chan, S. et al., Porous silicon microcavities for biosensing applications,
Phys. Status Solidi A
,
182
, 541,
2000.
103.
Zangooie, S., Jansson, R. and Arwin, H., Ellipsometric characterization of anisotropic porous silicon
Fabry-Perot fi lters and investigation of temperature effects on capillary condensation effi ciency,
J. Appl.
Phys.
,
86
, 850, 1999.