Introduction Coupled techniques such as HPLC–HG–AAS,HPLC–ICP–MS,HPLC–HG–AFS are widely used for arsenic speciation analysis in biosamples,during which pretreatment method usually plays a significant role.This
CONSPECTUS:The microfluidic biochemical/immunoassay systems typically consist of microfluidic chips,fluid driving devices,and detection components.The core of the system is the microfluidic chips based on microfluidic...CONSPECTUS:The microfluidic biochemical/immunoassay systems typically consist of microfluidic chips,fluid driving devices,and detection components.The core of the system is the microfluidic chips based on microfluidic technology,which are typically constructed with nonresponsive materials such as silicon,glass,and rigid plastics,thus requiring complex external air/liquid pumps to manipulate the samples.The external equipment renders the microfluidic systems cumbersome and increases the risk of biosample contamination.展开更多
基金Financial supports from the State Key Program of National Natural Science of China (Grant 20836009)the Key Pillar Program of Tianjin Municipal Science and Technology (Grant 11ZCKGX02800)+2 种基金the Specialized Research Fund for the Doctoral Program of Chinese Higher Education (Grant 20101208110003)the Tianjin Key Laboratory of Marine Resources and Chemistry in TUST (Grants 201303)the Natural Science Fund of TUST (Grants 20130112)
文摘Introduction Coupled techniques such as HPLC–HG–AAS,HPLC–ICP–MS,HPLC–HG–AFS are widely used for arsenic speciation analysis in biosamples,during which pretreatment method usually plays a significant role.This
基金financially supported by the National Natural Science Foundation of China(51927805,52233001)the Innovation Program of Shanghai Municipal Education Commission(2023ZKZD07).
文摘CONSPECTUS:The microfluidic biochemical/immunoassay systems typically consist of microfluidic chips,fluid driving devices,and detection components.The core of the system is the microfluidic chips based on microfluidic technology,which are typically constructed with nonresponsive materials such as silicon,glass,and rigid plastics,thus requiring complex external air/liquid pumps to manipulate the samples.The external equipment renders the microfluidic systems cumbersome and increases the risk of biosample contamination.
