Add to ORKGThere is an increasing demand for mass-producible, low-power gas sensors in a wide variety of industrial and consumer applications. Here, we report chemical-sensitive field-effect-transistors (CS-FETs) based on bulk silicon wafers, wherein an electrostatically confined sub-5 nm thin charge inversion layer is modulated by chemical exposure to achieve a high-sensitivity gas-sensing platform. Using hydrogen sensing as a "litmus" test, we demonstrate large sensor responses (>1000%) to 0.5% H2 gas, with fast response (<60 s) and recovery times (<120 s) at room temperature and low power (<50 μW). On the basis of these performance metrics as well as standardized benchmarking, we show that bulk silicon CS-FETs offer similar or better se...
Field-effect transistors (FETs) form an established technology for sensing applications. However, re...
Semiconductor field effect sensors have been shown to enable the possibility of realizing cost effec...
The present paper compares three different kinds of semiconductor gas sensing materials: metal oxide...
There is an increasing demand for mass-producible, low-power gas sensors in a wide variety of indust...
There is an increasing demand for mass-producible, low-power gas sensors in a wide variety of indust...
There is great interest in developing a low-power gas sensing technology that can sensitively and se...
There is great interest in developing a low-power gas sensing technology that can sensitively and se...
Multiplexed gas detection at room temperature is critical for practical applications, such as for tr...
Abstract : We propose a novel technique to investigate the gas sensitivity of materials for implemen...
This work breaks a new ground in the gas sensor arena by demonstrating that concepts of self-repairi...
Gas sensors based on metal-oxide-semiconductor transistor with the polysilicon gate replaced by a ga...
Generation of hydrogen represents a severe industrial hazard primarily because the mixture of hydrog...
Sales of U.S. chemical sensors represent the largest segment of the multi-billion-dollar global sens...
AbstractHighly sensitive hydrogen semiconductor gas sensor operating at room temperature is presente...
Gas sensors based on metal-oxide-semiconductor transistor with the polysilicon gate replaced by a ga...
Field-effect transistors (FETs) form an established technology for sensing applications. However, re...
Semiconductor field effect sensors have been shown to enable the possibility of realizing cost effec...
The present paper compares three different kinds of semiconductor gas sensing materials: metal oxide...
There is an increasing demand for mass-producible, low-power gas sensors in a wide variety of indust...
There is an increasing demand for mass-producible, low-power gas sensors in a wide variety of indust...
There is great interest in developing a low-power gas sensing technology that can sensitively and se...
There is great interest in developing a low-power gas sensing technology that can sensitively and se...
Multiplexed gas detection at room temperature is critical for practical applications, such as for tr...
Abstract : We propose a novel technique to investigate the gas sensitivity of materials for implemen...
This work breaks a new ground in the gas sensor arena by demonstrating that concepts of self-repairi...
Gas sensors based on metal-oxide-semiconductor transistor with the polysilicon gate replaced by a ga...
Generation of hydrogen represents a severe industrial hazard primarily because the mixture of hydrog...
Sales of U.S. chemical sensors represent the largest segment of the multi-billion-dollar global sens...
AbstractHighly sensitive hydrogen semiconductor gas sensor operating at room temperature is presente...
Gas sensors based on metal-oxide-semiconductor transistor with the polysilicon gate replaced by a ga...
Field-effect transistors (FETs) form an established technology for sensing applications. However, re...
Semiconductor field effect sensors have been shown to enable the possibility of realizing cost effec...
The present paper compares three different kinds of semiconductor gas sensing materials: metal oxide...