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Macroporous silicon and its application in sensing

 
: Wehrspohn, R.B.; Schweizer, S.L.; Gesemann, B.; Pergande, D.; Geppert, T.M.; Moretton, S.; Lambrecht, A.

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Preprint urn:nbn:de:0011-n-2063182 (930 KByte PDF)
MD5 Fingerprint: f6947d162d8d0f73045483f1d55ac6c4
Erstellt am: 5.12.2014


Comptes rendus chimie 16 (2013), Nr.1, S.51-58
ISSN: 1631-0748
ISSN: 1631-0691
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IWM ( IMWS) ()
Fraunhofer IPM ()
silicon; photonic crystals; gas sensing; infrared; ion mobility; microspectrometer; thermal emission

Abstract
Periodic silicon nanostructures can be used for different kinds of gas sensors depending on the analyte concentration. First, we present an optical gas sensor based on the classical non-dispersive infrared technique for ppm-concentration using ultra-compact photonic crystal gas cells (Pergande et al., 2011). It is conceptually based on low group velocities inside a photonic crystal gas cell and anti-reflection layers coupling light into the device. Secondly, we report on silicon nanotip arrays (Gesemann et al., 2011), suitable for gas ionization in ion mobility microspectrometers (micro-IMS) having detection ranges in principle down to the ppt-range. Such instruments allow the detection of explosives, chemical warfare agents, and illicit drugs, e.g., at airports. Third of all, we describe the thermal emission properties of heated silicon photonic crystals (Gesemann et al., 2010), revealing a photonic stop gap effect or strong silicon oxide emission, depending on the se tup. All silicon microstructures have been fabricated by photo-electrochemical etching of silicon.

: http://publica.fraunhofer.de/dokumente/N-206318.html