Advances on microfluidic paper-based electroanalytical devices

“…Paper has the advantages of being inexpensive, being easy to obtain and having a high specific surface area, making it the most common medium in porous [ 26 , 37 ]. Paper consists essentially of a random distribution of cellulose, and the flow of liquid in paper is dominated by capillary [ 1 , 154 ].…”

“…In 1952, Martin and Synge invented paper-based chromatographic separation technology and won the Nobel Prize in Chemistry [ 25 ]. Since then, paper-based microfluidic devices have been widely used in detection and medical treatment, and there are many related literatures reviewing their related applications [ 1 , 8 , 26 ]. In addition, with the development of microelectronics technology in recent years, another porous material commonly used in the field of biomedical detection is polymers such as PDMS.…”

Porous Structural Microfluidic Device for Biomedical Diagnosis: A Review

“…Paper has the advantages of being inexpensive, being easy to obtain and having a high specific surface area, making it the most common medium in porous [ 26 , 37 ]. Paper consists essentially of a random distribution of cellulose, and the flow of liquid in paper is dominated by capillary [ 1 , 154 ].…”

“…In 1952, Martin and Synge invented paper-based chromatographic separation technology and won the Nobel Prize in Chemistry [ 25 ]. Since then, paper-based microfluidic devices have been widely used in detection and medical treatment, and there are many related literatures reviewing their related applications [ 1 , 8 , 26 ]. In addition, with the development of microelectronics technology in recent years, another porous material commonly used in the field of biomedical detection is polymers such as PDMS.…”

Porous Structural Microfluidic Device for Biomedical Diagnosis: A Review

“…[8][9][10][11] Electrochemical analysis, a widely used method for metal ion detection, is an attractive alternative detection scheme for mPADs due to its small size, portability, high sensitivity with the proper choice of electrode material. [12][13][14] In water environmental applications, it is difficult to avoid interference from the coexisting ions or other components in water during electrochemical analysis of metal ions. To address this issue, various sensing materials have been widely investigated for electrochemical sensors to promote their performances in real-world application.…”

Ion imprinted polymers integrated into a multi-functional microfluidic paper-based analytical device for trace cadmium detection in water

“…LC–MS/MS has been combined with multiple reaction monitoring for the analysis of Rac. , Electrochemical systems offer unique advantages for overcoming the shortcoming of the aforementioned methods. − The apparatus for electrochemical analysis is relatively cheap and easy to operate, and according to a previous study, Rac detection can be completed in 10 min by using this apparatus . The aforementioned apparatus can be made portable by using microfluidic chips or paper microfluidic devices. , Finally, electrochemical analysis has been used for detecting a wide range of biomolecules without the need for pretreatment or separation …”

“…25 The aforementioned apparatus can be made portable by using microfluidic chips or paper microfluidic devices. 26,27 Finally, electrochemical analysis has been used for detecting a wide range of biomolecules without the need for pretreatment or separation. 28 Nanoparticles (NPs) are valued for their large surface area, catalytic activity, and distinctive physical and chemical characteristics.…”

Nafion/Silver Nanoparticles as an Electrochemically Sensitive Interface for the Detection of Ractopamine in Pork Liver