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Porous silicon microcavities

Fig. 16.15. Photoluminescence spectra of derivatized porous silicon microcavity sensors treated with B. subtilis (Cram-(+), left spectra) or E. coli (Cram-(—), right spectra) lysates. In the top two spectra, the dark lines correspond to measurements before treatment with the bacteria the grey spectra are those obtained after treatment. The bottom two spectra plot... Fig. 16.15. Photoluminescence spectra of derivatized porous silicon microcavity sensors treated with B. subtilis (Cram-(+), left spectra) or E. coli (Cram-(—), right spectra) lysates. In the top two spectra, the dark lines correspond to measurements before treatment with the bacteria the grey spectra are those obtained after treatment. The bottom two spectra plot...
Porous Silicon Microcavities in Meso- and Macroporous Silicon Further Confinement of Light... [Pg.9]

Fig. 3 Digital Gram Stain Functionalization of a porous silicon microcavity with a synthetic receptor (a) for bacterial lipid A yields a device that responds in the presence of Gram-(—) bacteria (b), but gives no response to Gram-(+) bacteria (c). Upper traces represent photoluminescence spectra pre (gray) and post (black) exposure to the respective bacteria, while lower traces are difference spectra... Fig. 3 Digital Gram Stain Functionalization of a porous silicon microcavity with a synthetic receptor (a) for bacterial lipid A yields a device that responds in the presence of Gram-(—) bacteria (b), but gives no response to Gram-(+) bacteria (c). Upper traces represent photoluminescence spectra pre (gray) and post (black) exposure to the respective bacteria, while lower traces are difference spectra...
Fig. 11 SEM image of a red blood cell resting on a porous silicon microcavity (courtesy L. M. Bonanno and L. A. DeLouise)... Fig. 11 SEM image of a red blood cell resting on a porous silicon microcavity (courtesy L. M. Bonanno and L. A. DeLouise)...
Chan S, Fauchet PM, Li Y, Rothberg LJ, Miller BL (2000) Porous silicon microcavities for biosensing applications. Physica Status Solidi A 182 541-546... [Pg.24]

Miller BL, Fauchet PM, Homer SR, Chan S (2004) Porous silicon microcavities for biosensing applications. In Schwarz JA, Contescu Cl, Putyera K (eds) Encyclopedia of nanotechnology. Marcel Dekker, Inc., New York, pp 343-350... [Pg.25]

Huang, X F, Sha, L. L, Chen, Q. W. and Cai, L. T. Optical characteristics and environmental pollutants detection of porous silicon microcavities , (2011) Science China Chemistry, 54,1348-56. [Pg.427]

Carlisle EM (1972) Silicon an essential element for the chick. Science 178(4061) 619-621 Carlisle EM (1982) The nutritional essentiality of silicon. Nutr Rev 40(7) 193-198 Chan S, Fauchet PM, Li Y, Rothberg LJ, Miller BL (2000) Porous silicon microcavities for biosensing apphcations. Physica Status Solid A 182(1) 541-546 Cheng L, Anglin E, Cunin F, Kim D, Sailor MJ, Falkenstein I, Tammewar A, Freeman WR (2008) Intravitreal properties of porous silicon photonic crystals a potential self-reporting iintraocular dmg-delivery vehicle (Laboratory Science)(Clinical Report). Br J Ophthalmol 92(5) 705(7)... [Pg.10]

Protons 2 MeV (previous to porosification) Control of refiectance in porous silicon microcavities Mangaiyarkarasi et al. (2007)... [Pg.135]

Palestine G, Martin M, Agarwal V, Legros R, Cloitre T, Zimanyi L, Gergely C (2009) Detection and light enhancement of glucose oxidase adsorbed on porous silicon microcavities. Phys Status Solidi C 6(7) 1624... [Pg.341]

Porous silicon microcavity 13 nm (emission 740 nm) (Squire etal. 1998) 10-40 meV (emission 1.5-2.2 eV) (Araki etal. 1996) Photonic crystal effect (Pavesi et al. 1996 Araki et al. 1996 Gong et al. 2010 Squire etal. 1998)... [Pg.420]

Wu C, Rong G, Xu J, Wang G (2011) An intensity-interrogated sensing technique based on porous silicon microcavity, 2011. In International conference on nanotechnology and biosensors (IPCBEE), Singapore, pp 39 3... [Pg.534]

Estephan E, Saab M-B, Agarwal V, Cuisinier FJG, Larroque C, Gergely C (2011) Peptides for the biofunctionalization of silicon for use in optical sensing with porous silicon microcavities. Adv Func Mater 21 2003-2011... [Pg.724]

Mulloni V, Mazzoleni C, Pavesi L (1999) Elaboration, characterization and aging effects of porous silicon microcavities formed on lightly //-type doped substrates. Semicond Sci Technol 14 1052 Murzina TV, Fedor Yu Sychev, Kolmychek I A, Aktsipetrov OA (2007) Tunable ferroelectric photonic ciystals based on porous silicon templates infiltrated by sodium nitrite. Appl Phys Lett 90 161120... [Pg.725]

Sciacca B, Frascella F, Venturello A, Rivolo P, Descrovi E, Giorgis F, Geobaldo F (2009) Doubly resonant porous silicon microcavities for enhanced detection of fluorescent organic molecules. [Pg.736]

See other pages where Porous silicon microcavities is mentioned: [Pg.12]    [Pg.141]    [Pg.311]    [Pg.445]    [Pg.653]    [Pg.656]    [Pg.899]    [Pg.318]   
See also in sourсe #XX -- [ Pg.8 ]



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