Fruits are very beneficial to health and their consumption has been recommended in daily diets.However,when fresh fruits are harvested and processed into sliced ready-to-eat or vended forms for sale,hygienic procedure...Fruits are very beneficial to health and their consumption has been recommended in daily diets.However,when fresh fruits are harvested and processed into sliced ready-to-eat or vended forms for sale,hygienic procedures are neglected.Thus,they are easily infested by pathogens.In addition,uneducated vendors who sell these fruits often display or hawk them on the streets in contaminated containers,utensils,or dirty environments.This poses a great threat to the health of consumers.In the light of this realization,some microbial assessments have been carried out to ascertain the safety of these vended fruits,thus making it a necessity to exploit the outcomes of some of these microbial assessments on vended fruits in order to sensitize the consumers on the effect of their consumption and mitigate risk by improving their quality.This will assist to lower certain health concerns,an outbreak of diseases,and death.展开更多
A double silicon on insulator(DSOI) structure was introduced based on fully depleted SOI(FDSOI)technology.The circuit performance could be adjusted dynamically through the separate back gate electrodes applied to ...A double silicon on insulator(DSOI) structure was introduced based on fully depleted SOI(FDSOI)technology.The circuit performance could be adjusted dynamically through the separate back gate electrodes applied to N-channel and P-channel devices.Based on DSOI ring oscillator(OSC),this paper focused on the theoretical analysis and electrical test of how the OSC's frequency being influenced by the back gate electrodes(soi2n,soi2p).The testing results showed that the frequency and power consumption of OSC could change nearly linearly along with the back gate bias.According to the different requirements of the circuit designers,the circuit performance could be improved by positive soi2 n and negative soi2 p,and the power consumption could be reduced by negative soi2n and positive soi2p.The best compromise between performance and power consumption of the circuit could be achieved by appropriate back gate biasing.展开更多
文摘Fruits are very beneficial to health and their consumption has been recommended in daily diets.However,when fresh fruits are harvested and processed into sliced ready-to-eat or vended forms for sale,hygienic procedures are neglected.Thus,they are easily infested by pathogens.In addition,uneducated vendors who sell these fruits often display or hawk them on the streets in contaminated containers,utensils,or dirty environments.This poses a great threat to the health of consumers.In the light of this realization,some microbial assessments have been carried out to ascertain the safety of these vended fruits,thus making it a necessity to exploit the outcomes of some of these microbial assessments on vended fruits in order to sensitize the consumers on the effect of their consumption and mitigate risk by improving their quality.This will assist to lower certain health concerns,an outbreak of diseases,and death.
文摘A double silicon on insulator(DSOI) structure was introduced based on fully depleted SOI(FDSOI)technology.The circuit performance could be adjusted dynamically through the separate back gate electrodes applied to N-channel and P-channel devices.Based on DSOI ring oscillator(OSC),this paper focused on the theoretical analysis and electrical test of how the OSC's frequency being influenced by the back gate electrodes(soi2n,soi2p).The testing results showed that the frequency and power consumption of OSC could change nearly linearly along with the back gate bias.According to the different requirements of the circuit designers,the circuit performance could be improved by positive soi2 n and negative soi2 p,and the power consumption could be reduced by negative soi2n and positive soi2p.The best compromise between performance and power consumption of the circuit could be achieved by appropriate back gate biasing.
