Open Access

Highly Sensitive Porous Silicon Sensor: Detection of Organic Vapours Using Photoluminescence Quenching Technique

Saakshi Dhanekar

Saakshi Dhanekar

Nano-Sensor Research LaboratoryNew Delhi, India
Search for this author on
Sciendo|Google Scholar
Dhanekar, Saakshi
, 
S.S. Islam

S.S. Islam

Nano-Sensor Research LaboratoryNew Delhi, India
Search for this author on
Sciendo|Google Scholar
Islam, S.S.
, 
T. Islam

T. Islam

Nano-Sensor Research LaboratoryNew Delhi, India
Search for this author on
Sciendo|Google Scholar
Islam, T.
 and 
Harsh,

Harsh,

Solidstate Physics Laboratory (Defense Research & Development Organisation)Delhi, India
Search for this author on
Sciendo|Google Scholar
Harsh,
  
Dec 13, 2017
Highly Sensitive Porous Silicon Sensor: Detection of Organic Vapours Using Photoluminescence Quenching Technique's Cover Image
About this article
Previous Article
Next Article
Cite
Download Cover
Published Online: Dec 13, 2017
Page range: 1 - 13
DOI: https://doi.org/10.21307/ijssis-2017-375
Keywords
© 2010 Saakshi Dhanekar et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

A.T. Fiory and N.M. Ravindra, “Light emission from silicon: Some perspectives and applications”, Journal of Electronic Materials, vol. 32, issue 10, pp. 1043-1051, 2003. Search in Google Scholar

N. Chi, D.L. Phillips and K. Chan, “In situ photoluminescence characterization of porous silicon formation”, Thin Solid Films, vol. 342, pp. 142-147, 1999.10.1016/S0040-6090(98)01470-9 Search in Google Scholar

V. Mulloni, L. Pavesi, “Porous microcavities as optical chemical sensors”, Applied Physics Letters, vol. 76, pp. 2523-2525, 2000. Search in Google Scholar

D. L. Fischer, J. Harper, M. J. Sailor, “Energy transfer of porous silicon photoluminescence by aromatic molecules”, Journal of American Chemical Society, vol. 117, pp. 7846-7847, 1995. Search in Google Scholar

T. Chvojka, V. Vrkoslav, I. Jel?nek, J.Jindřich, M. Lorenc, J.Dian, “Mechanisms of photoluminescence sensor response of porous silicon for organic species in gas and liquid phases”, Sensors and Actuator B, vol. 100, pp. 246-249, 2004.10.1016/j.snb.2003.12.040 Search in Google Scholar

J. Dian, V. Vrkoslav, I. Jel?nek, “Chemical sensing by simultaneous measurement of photoluminescence decay time of porous silicon”, Phys. Status Solidi (c), vol. 4, pp. 2078-2082, 2007. Search in Google Scholar

J. Dian, T.Chvojka, V. Vrkoslav, I. Jel?nek, “Photoluminescence quenching of porous silicon in gas and liquid phases – the role of dielectric quenching and capillary condensation effects”, Phys. Status Solidi (c), vol. 2, pp. 3481-3485, 2005. Search in Google Scholar

W.J. Jin, G. L .Shen, R.Q. Yu, “Organic solvent induced quenching of porous silicon photoluminescence”, Spectrochimica Acta Part A, vol. 54, pp. 1407-141, 1998. Search in Google Scholar

W.J. Salcedo, F.J.R. Fernandez, J.C.Rubim, “Photoluminescence quenching effect on porous silicon films for gas sensors application”, Spectrochimica Acta A, vol. 60, pp. 1065-1070, 2004. Search in Google Scholar

V.A. Skryshevsky, “Photoluminescence of inhomogenous porous silicon at gas adsorption”, Applied Surface Science, vol. 157, pp. 145-150, 2000.10.1016/S0169-4332(99)00560-7

J. Harper, M.J. Sailor, “Photoluminescence quenching and the photochemical oxidation of porous silicon by molecular oxygen”, Langmuir, vol. 13, pp. 4652-4658, 1997.

D. R. Striplin, C. G. Wall, B.W. Erickson, T. J. Meyer, “Energy Transfer from Luminescent Porous Silicon to Adsorbed Osmium(II) and Ruthenium(II) Polypyridyl Complexes”, Journal Physical Chemistry B, vol. 102, pp. 2383-2390, 1998.

S. Fellah, R. B. Wehrspohn, N. Gabouze, F. Ozanam, J.-N. Chazalviel , “PL quenching of porous silicon in organic solvents: evidence for dielectric effects”, Journal of Luminescence, vol. 80, pp. 109-113, 1999.10.1016/S0022-2313(98)00077-5

J. M. Lauerhaas, Grace M. Credo, J. L. Heinrich, and M. J. Sailor, “Reversible Luminescence Quenching of Porous Si by Solvents”, Journal of American Chemical Society, vol. 114, pp. 1911-1912, 1992.

L. Zhang, J. L. Coffer, J. Wang, C. D. Gutsche, “Porous Silicon Coated with Calixarene Carboxylic Acid Derivatives: Effects on Luminescence Quenching Selectivity”, Journal of American Chemical Society, vol. 18, pp. 12840-12841, 1996.

H. Richter, Z. P. Wang, L. Ley, “The one phonon Raman spectrum in microcrystalline silicon”, Solid State Communications”, vol. 39, pp. 625-29, 1981.10.1016/0038-1098(81)90337-9

I. H. Campbell, P. M. Fauchet, “The effects of microcrystal size and shape on the phonon Raman spectra of crystalline semiconductors”, Solid State Communications, vol. 58, pp. 739-741, 1986.10.1016/0038-1098(86)90513-2

Md. N. Islam, A. Pradhan, S. Kumar, “Effects of crystallite size distribution on the Raman- scattering profiles of silicon nanostructures”, Journal of Applied Physics, vol. 98, pp. 0234309, 2005.

M. Yang, D. Huang, P. Hao, F. Zhang, x. Hou, X. Wang, “Study of the raman peak shift and the linewidth of light emitting porous silicon”, Journal of Applied Physics, vol. 75, pp. 651-653, 1994.10.1063/1.355808

S. J. Gregg, K. S. W. Singh, Adsorption, Surface Area and Porosity, Academic Press, London, 1967.10.1149/1.2426447Search in Google Scholar

Language:
English
Publication timeframe:
1 times per year
Journal Subjects:
Engineering, Introductions and Overviews, Engineering, other
Journal RSS Feed