论文信息 - Theoretical approach to the rate of response of semiconductor gas sensor

Theoretical approach to the rate of response of semiconductor gas sensor

Abstract The rate of response of a semiconductor gas sensor to a change in the partial pressure of O 2 , H 2 or NO 2 has been successfully formulated theoretically under the assumptions of volume depletion and a specific scheme of electron transfer (modified model). In each case, the rate is expressed as a logarithmic function of reduced resistance and its rate constant (reciprocal of time constant) is given by a combination of three terms, which reflect the rate of surface reactions, the donor density and the size of constituent crystals, respectively. Especially remarkable is the last term which leads to strong attenuations of the rate of response for the crystals with reduced size ( n ) exceeding 5 (spheres) or 3 (plates).

Kengo Shimanoe | Noboru Yamazoe | N. Yamazoe | K. Shimanoe

[1] Chao-Nan Xu,et al. Grain size effects on gas sensitivity of porous SnO2-based elements , 1991 .

[2] N. Yamazoe,et al. Wet process-prepared thick films of WO3 for NO2 sensing , 2003 .

[3] N. Bârsan,et al. Conduction Model of Metal Oxide Gas Sensors , 2001 .

[4] G. Korotcenkov. The role of morphology and crystallographic structure of metal oxides in response of conductometric-type gas sensors , 2008 .

[5] A. Rothschild,et al. On the Relationship Between the Grain Size and Gas-Sensitivity of Chemo-Resistive Metal-Oxide Gas Sensors with Nanosized Grains , 2004 .

[6] Kengo Shimanoe,et al. Roles of Shape and Size of Component Crystals in Semiconductor Gas Sensors I. Response to Oxygen , 2008 .

[7] Kengo Shimanoe,et al. Roles of Shape and Size of Component Crystals in Semiconductor Gas Sensors , 2008 .

[8] Yigal Komem,et al. The effect of grain size on the sensitivity of nanocrystalline metal-oxide gas sensors , 2004 .

[9] Noboru Yamazoe,et al. Toward innovations of gas sensor technology , 2005 .

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

[11] K. Ihokura,et al. The Stannic Oxide Gas SensorPrinciples and Applications , 1994 .

[12] M. Madou,et al. Chemical Sensing With Solid State Devices , 1989 .