AI Article Synopsis
- Single-walled carbon nanotube field-effect transistors (CNFETs) are being researched for their potential in micro- and nanoelectronics, but they suffer from instability in ambient conditions due to their environmental sensitivity.
- The study highlights that encapsulating CNFETs with a 100 nm layer of thermal atomic-layer-deposited aluminium oxide (Al(2)O(3)) significantly improves their stability, allowing them to operate reliably for 260 days and reducing environmental sensitivity.
- Additionally, the encapsulation enhances key performance metrics such as gate threshold voltage and on-state current while decreasing noise levels, and CNFETs in a dielectric membrane are also demonstrated to function effectively as pressure sensors.
Article Abstract
Single-walled carbon nanotube field-effect transistors (CNFETs) are promising functional structures in future micro- or nanoelectronic systems and sensor applications. Research on the fundamental device concepts includes the investigation of the conditions for stable long term CNFET operation. CNFET operation in ambient air leads to on-state current degradation and fluctuating signals due to the well-known sensitivity of the electronic properties of the CNT to many environmental condition changes. It is the goal of device and sensor research to understand various kinds of sensor-environment interactions and to overcome the environmental sensitivity. Here, we show that the encapsulation of CNFETs by a thermal atomic-layer-deposited (ALD) aluminium oxide (Al(2)O(3)) layer of approximately 100 nm leads to stable device operation for 260 days and reduces their sensitivity to the environment. The characteristics of CNFETs prior to and after Al(2)O(3) encapsulation are comparatively investigated. It is found that encapsulation improves the stability of the CNFET characteristics with respect to the gate threshold voltage, hysteresis width and the on-state current, while 1/f noise is lowered by up to a factor of 7. Finally, CNFETs embedded in a dielectric membrane are employed as pressure sensors to demonstrate sensor operation of CNFETs encapsulated by ALD as piezoresistive transducers.
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| http://dx.doi.org/10.1088/0957-4484/20/43/434010 | DOI Listing |
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