In this paper, the conversion of CO2/CH4 by using pulse corona plasma was studied at atmospheric pressure and ambient temperature. The effects of ratio of CO2/CH4, pulse voltage and repeated frequency of plasma discha...In this paper, the conversion of CO2/CH4 by using pulse corona plasma was studied at atmospheric pressure and ambient temperature. The effects of ratio of CO2/CH4, pulse voltage and repeated frequency of plasma discharge were first studied in the system.展开更多
With the advent of new materials, microchip industry is investigating new architecture to further scale down the device size. New technologies are on the way to achieving this goal without compromising with the device...With the advent of new materials, microchip industry is investigating new architecture to further scale down the device size. New technologies are on the way to achieving this goal without compromising with the device’s performance and benefits. In this new scenario, corona charge deposition technique (CCDT) has become an indispensable part of the thin film industry. Due to the non-invasive and non-destructive nature of corona charge ions, they are effectively being used to improve the device properties. They are also useful to understand the electrical properties of insulators and other materials. Corona-Kelvin non-contact metrology or the C-KM is the most recent development in this field. In this review, the applications of corona charge deposition technique in the semiconductor industry have been reviewed. Further, the methodology involved is described. The advances as well as challenges and improvements including the future research are also discussed.展开更多
文摘In this paper, the conversion of CO2/CH4 by using pulse corona plasma was studied at atmospheric pressure and ambient temperature. The effects of ratio of CO2/CH4, pulse voltage and repeated frequency of plasma discharge were first studied in the system.
文摘With the advent of new materials, microchip industry is investigating new architecture to further scale down the device size. New technologies are on the way to achieving this goal without compromising with the device’s performance and benefits. In this new scenario, corona charge deposition technique (CCDT) has become an indispensable part of the thin film industry. Due to the non-invasive and non-destructive nature of corona charge ions, they are effectively being used to improve the device properties. They are also useful to understand the electrical properties of insulators and other materials. Corona-Kelvin non-contact metrology or the C-KM is the most recent development in this field. In this review, the applications of corona charge deposition technique in the semiconductor industry have been reviewed. Further, the methodology involved is described. The advances as well as challenges and improvements including the future research are also discussed.
