Browsing by Author "D. Dwivedi"
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PublicationConference Paper Effect of hydrogen exposure on the interface state density in titanium dioxide based MOS gas sensor(SPIE, 1998) D. Dwivedi; R. Dwivedi; S.K. SrivastavaMechanism of the formation of hydrogen induced interface states at the Si/TiO2 interface has been investigated by conductance measurement of metal oxide semiconductor gas sensor. The conductance voltage response of the fabricated MOS capacitor has been studied upon exposure to hydrogen in argon ambient. The fabricated MOS device is sensitive to hydrogen (1-3%) at room temperature. The interface state density (Nit) is determined from the G-V curve, using a bias scan conductance method at fixed frequency. It is observed that, change in conductance is better at lower frequencies, which may be due to the balanced communication of interface traps with valance and conduction band of silicon substrate. Further it has been concluded that, present investigation provides a method for more accurate calculation of hydrogen induced interface traps in such device.PublicationArticle The effect of hydrogen-induced interface traps on a titanium dioxide-based palladium gate MOS capacitor (Pd-MOSC): A conductance study(Elsevier Ltd, 1998) D. Dwivedi; R. Dwivedi; S.K. SrivastavaThe conductance versus gate voltage response of a palladium-gate MOS capacitor with 0.5 μm of TiO2 (oxide layer) has been studied as a function of hydrogen gas concentration and signal frequency. The structure of the device was completed by evaporating titanium dioxide over p < 111 > -type silicon wafer (cleaned as per standard silicon technology) having a resistivity of 3-5 Ω cm and subsequent palladium front with aluminium back metallization. The G-V response of the fabricated MOS capacitor was studied on exposure to hydrogen in Ar ambient. The fabricated device is sensitive to hydrogen (1-3%) at room temperature. The interface state density (Dit) was determined at the surface potential corresponding to the peak in the conductance curve, using a bias scan conductance method at fixed frequency. It was found that Dit increases with an increase in hydrogen gas concentration. Further, it has been observed that a change in conductance is better at lower frequencies, which may be due to the balanced communication of interface traps with the valance and conduction bands of silicon substrate. © 1998 Elsevier Science Ltd. All rights reserved.