Continuous usage of bioreactor causes early degradation of most bioreactor liner materials due to the effects of various chemicals, consequently resulting in contamination in the bioprocess. Performance of PP-ternary ...Continuous usage of bioreactor causes early degradation of most bioreactor liner materials due to the effects of various chemicals, consequently resulting in contamination in the bioprocess. Performance of PP-ternary nanocomposite (PPTN) for its potential application in the fabrication of bioreactor liner material was investigated in this study. The chemical resistance of the composite samples obtained was tested by exposing them to chemicals such as acid, alkaline, water and bacterial solutions, according to ASTM 543-06, and their effects on the composite samples were carefully observed. Specifically, the investigation focused on the changes in the physico-mechanical properties of PPTN following long term of exposure to these chemicals. The results show slight increase in the weight and dimensions of samples in the first few days, followed by constant reading for the period of 4 weeks. The performance in terms of physical properties was in the range of PPTN with 0.61% MWCNT > PPTN 0.45% > PPTN 0.17%. The maximum percentage change in tensile properties, observed in this study, was approximately 10% against PPTN (0.17%), which indicates stable mechanical properties of the composite and invariably suggests that the nanocomposites could serve as a better alternative for bioreactor liner fabrication.展开更多
In the past decade,Fusarium mycotoxins as main biological contaminants in foods have attracted increasing attention due to their agro-economic importance across the global food chain.Their chemical structural diversit...In the past decade,Fusarium mycotoxins as main biological contaminants in foods have attracted increasing attention due to their agro-economic importance across the global food chain.Their chemical structural diversities and occurance in a variety of foods make it chanllenging to simultaneously and efficiently extract them for further analysis.On the other hand,although various analytical methods have been widely applied for on-site and in-lab tests for rapid screening and/or quantitative determination,risk assessment of Fusarium mycotoxins is hardly performed due to the unavailability of affordable mycotoxin standards,as well as the lack of data of dietary consumption and food contamination.Meanwhile,there is an increasing demand for effective control of mycotoxins regarding prevention,neutralization,clearance,detoxification approaches using physico-chemical and biological means.This review summarizes advances in the analysis and control of Fusarium mycotoxins in contaminated foods,providing valuable insights and references for subsequent studies on development of analytical methodology,control strategies,as well as regulations of food safety made by policy-makers.展开更多
基金the Malaysia Ministry of Higher Education (MOHE) for funding this project under FRGS 0206-56
文摘Continuous usage of bioreactor causes early degradation of most bioreactor liner materials due to the effects of various chemicals, consequently resulting in contamination in the bioprocess. Performance of PP-ternary nanocomposite (PPTN) for its potential application in the fabrication of bioreactor liner material was investigated in this study. The chemical resistance of the composite samples obtained was tested by exposing them to chemicals such as acid, alkaline, water and bacterial solutions, according to ASTM 543-06, and their effects on the composite samples were carefully observed. Specifically, the investigation focused on the changes in the physico-mechanical properties of PPTN following long term of exposure to these chemicals. The results show slight increase in the weight and dimensions of samples in the first few days, followed by constant reading for the period of 4 weeks. The performance in terms of physical properties was in the range of PPTN with 0.61% MWCNT > PPTN 0.45% > PPTN 0.17%. The maximum percentage change in tensile properties, observed in this study, was approximately 10% against PPTN (0.17%), which indicates stable mechanical properties of the composite and invariably suggests that the nanocomposites could serve as a better alternative for bioreactor liner fabrication.
基金financial supports from the National Natural Science Foundation of China(31772087,31471661,31601575,31701721 and 31201378)
文摘In the past decade,Fusarium mycotoxins as main biological contaminants in foods have attracted increasing attention due to their agro-economic importance across the global food chain.Their chemical structural diversities and occurance in a variety of foods make it chanllenging to simultaneously and efficiently extract them for further analysis.On the other hand,although various analytical methods have been widely applied for on-site and in-lab tests for rapid screening and/or quantitative determination,risk assessment of Fusarium mycotoxins is hardly performed due to the unavailability of affordable mycotoxin standards,as well as the lack of data of dietary consumption and food contamination.Meanwhile,there is an increasing demand for effective control of mycotoxins regarding prevention,neutralization,clearance,detoxification approaches using physico-chemical and biological means.This review summarizes advances in the analysis and control of Fusarium mycotoxins in contaminated foods,providing valuable insights and references for subsequent studies on development of analytical methodology,control strategies,as well as regulations of food safety made by policy-makers.
