论文信息 - Formulation of gas diffusion dynamics for thin film semiconductor gas sensor based on simple reaction–diffusion equation

Formulation of gas diffusion dynamics for thin film semiconductor gas sensor based on simple reaction–diffusion equation

Abstract In response and recovery steps of a thin film semiconductor gas sensor, target gas molecules diffuse in and out of the thin film. The gas diffusion dynamics taking place in these steps have been formulated based on a simple reaction–diffusion equation assuming a first-order reaction of target gas. In order to facilitate mathematical treatments, the actual thin film device was replaced by an equivalent model, for which boundary conditions could be set properly. With this model, the reaction–diffusion equation could be solved by using the methods of Fourier expansion and separation of variables. The solutions given as a function of diffusion coefficient D , rate constant k , film thickness L , depth x and time t , are shown to express well how target gas concentration profile in the thin film develops or vanishes in the response or recovery step, respectively.

[1] C. J. Liu,et al. The surface reaction and diffusion of NO2 in lead phthalocyanine thin film , 1999 .

[2] J. Gardner. Electrical conduction in solid-state gas sensors , 1989 .

[3] Wencai Ma,et al. Diffusion-reaction theory for conductance response in metal oxide gas sensing thin films , 2000 .

[4] Mahmoud Z. Iskandarani,et al. Effect of electrode geometry on gas sensitivity of lead phthalocyanine thin films , 1992 .

[5] David E. Williams,et al. Theory of self-diagnostic sensor array devices using gas-sensitive resistors , 1995 .

[6] E. Llobet,et al. Analysis of the conductance transient in thick-film tin oxide gas sensors , 1996 .

[7] Eduard Llobet,et al. Steady‐State and Transient Behavior of Thick‐Film Tin Oxide Sensors in the Presence of Gas Mixtures , 1998 .

[8] W. D. Evans,et al. PARTIAL DIFFERENTIAL EQUATIONS , 1941 .

[9] Kengo Shimanoe,et al. Theory of gas-diffusion controlled sensitivity for thin film semiconductor gas sensor , 2001 .

[10] Kengo Shimanoe,et al. Diffusion equation-based study of thin film semiconductor gas sensor-response transient , 2002 .

[11] J. Gardner. A non-linear diffusion-reaction model of electrical conduction in semiconductor gas sensors , 1990 .

[12] J. Gardner. A diffusion-reaction model of electrical conduction in tin oxide gas sensors , 1989 .