Biomedical Engineering Reference
In-Depth Information
104.
Tinsley-Bown, A.M. et al., Tuning the pore size and surface chemistry of porous silicon for immunoas-
says.,
Phys. Status Solidi A
,
182
, 547, 2000.
105.
Nassiopoulos, A.G. et al., Sub-micrometre luminescent porous silicon structures using lithographically
patterned substrates.,
Thin Sol. Films
,
255
, 329, 1995.
106.
Stewart, M.P. and Buriak, J.M., Photopatterned hydrosilylation on porous silicon,
Angew. Chem. Int.
Ed. Engl.
,
37
, 3257, 1998.
107.
Krauss, T.F. and De La Rue, R.M., Photonic crystals in the optical regime—Past, present and future,
Prog. Quantum Electron.
,
23
, 51, 1999.
108.
Mayer, G. and Sarikaya, M., Rigid biological composite materials: Structural examples for biomimetic
design,
Exp. Mech.
,
42
, 395, 2002.
109.
Parker, A.R., Mckenzie, D.R. and Large, M.C.J., Multilayer refl ectors in animals using green and gold
beetles as contrasting examples,
J. Exp. Biol.
,
201
, 1307, 1998.
110.
Biró, L.P., et al., Role of photonic-crystal-type structures in the thermal regulation of a Lycaenid but-
terfl y sister species pair,
Phys. Rev. E
,
67
, 021907, 2003.
111.
Dresp, B. and Langley, K., Fine structural dependence of ultraviolet refl ections in the King Penguin
beak horn,
Anat. Rec. A Discov. Mol. Cell Evol. Biol.
,
288
, 213, 2006.
112.
Chomski, E. and Ozin, G.A., Panoscopic silicon-a material for all length scales,
Adv. Mater.
,
12
, 1071,
2000.
113.
Alexeev, V.L. et al., High ionic strength glucose-sensing photonic crystal,
Anal. Chem.
,
75
, 2316,
2003.
114.
Asher, S.A. et al., Photonic crystal carbohydrate sensors: Low ionic strength sugar sensing,
J. Am.
Chem. Soc.
,
125
, 3322, 2003.
115.
Sharma, A.C. et al., A general photonic crystal sensing motif: Creatinine in bodily fl uids,
J. Am. Chem.
Soc.
,
126
, 2971, 2004.
116.
Schmedake, T.A. et al., Standoff detection of chemicals using porous silicon “smart dust” particles,
Adv. Mater.
,
14
, 1270, 2002.
117.
Cunin, F. et al., Biomolecular screening with encoded porous silicon photonic crystals,
Nat. Mater.
,
1
, 39, 2002.
118.
Li, Y.Y. et al., Polymer replicas of photonic porous silicon for sensing and drug delivery applications,
Science
,
299
, 2045, 2003.
119.
Chan, S. et al., Identifi cation of gram negative bacteria using nanoscale silicon microcavities,
J. Am.
Chem. Soc.
,
123
, 11797, 2001.
120.
Chan, S. et al., Nanoscale microcavities for biomedical sensor applications,
Proc. SPIE
,
3912
, 23,
2000.
121.
Orosco, M.M. et al., Protein-coated porous silicon photonic crystals for amplifi ed optical detection of
protease activity,
Adv. Mater.
,
18
, 1393, 2006.
122.
Schwartz, M.P. et al., The smart petri dish: a nanostructured photonic crystal for real-time monitoring
of living cells,
Langmuir
,
22
, 7084, 2006.
123.
Diederich, F. and Stang, P.J. (eds.),
Templated Organic Synthesis
, Wiley-VCH, New York, 2000.
124.
Polarz, S. and Antonietti, M., Porous materials via nanocasting procedures: Innovative materials and
learning about soft-matter organization,
Chem. Commun.
,
22
, 2593, 2002.
125.
Xia, Y. and Whitesides, G.M., Soft lithography,
Angew. Chem. Int. Ed.
,
37
, 550 1998.
126.
Cheng, L. et al., Treatment of herpes retinitis in an animal model with a sustained delivery antiviral
drug, liposomal 1-O-octadecyl-SN-glycerol-3-phosphonoformate,
Retina
,
19
, 325, 1999.
127.
Wirtz, M. et al., Template synthesized nanotubes for chemical separations and analysis,
Chem. Eur. J.
,
16
, 3572, 2002.
128.
Hulteen, J.C. and Martin, C.R., A general template-based method for the preparation of nanomaterials.,
J. Mater. Chem.
,
7
, 1075, 1997.
129.
Reese, C.E. et al., Development of an intelligent polymerized crystalline colloidal array colorimetric
reagent,
Anal. Chem.
,
73
, 5038, 2001.
130.
Xu, X., Majetich, S.A. and Asher, S.A., Mesoscopic monodisperse ferromagnetic colloids enable mag-
netically controlled photonic crystals,
J. Am. Chem. Soc.
,
124
, 13864, 2002.
131.
Haynes, C.L. and Van Duyne, R.P., Nanosphere lithography: a versatile nanofabrication tool for studies
of size-dependent nanoparticle optics,
J. Phys. Chem. B
,
105
, 5599, 2001.
132.
Mulvihill, M.J. et al., Synthesis of bifunctional polymer nanotubes from silicon nanowire templates via
atom transfer radical polymerization
J. Am. Chem. Soc.
,
127
, 16040, 2005.
