Microfluidic paper-based analytical devices (uPADs) are indispensable tools for disease diagnostics. The integration of electronic components into uPADs enables new device functionalities and facilitates the development of complex quantitative assays. Unfortunately, current electrode fabrication methods often hinder capillary flow, considerably restricting uPAD design architectures. Here, we present laser-induced graphenization as an approach to fabricate porous electrodes embedded into cellulose paper. The resulting electrodes not only have high conductivity and electrochemical activity, but also retain wetting properties for capillary transport. We demonstrate paper-based electrofluidics, including (i) a lateral flow device for injection ...
This paper describes the fabrication and the performance of microfluidic paper-based electrochemical...
Existing microfluidic devices transport fluids by a variety of physical means. Among them, pump-base...
Microfluidic paper-based analytical devices (uPADs) are diagnostic devices that are inexpensive, bio...
This article describes the device design and fabrication of two different configurations (flow-throu...
The demand for low-cost alternatives to conventional point-of-care (POC) diagnostic tools has led to...
Paper-based microfluidics is a rapidly progressing inter-disciplinary technology driven by the need ...
The development of patterning high-resolution microfluidic circuits onto cellulose paper in 2007 ini...
The attractive structural and mechanical properties of cellulose substrates (paper, cloth, and threa...
Paper-based microfluidics is a rapidly progressing inter-disciplinary technology driven by the need ...
The demand for low-cost alternatives to conventional point-of-care diagnostic tools has led to signi...
Flow monitoring in porous materials is critical for the engineering of paper-based microfluidic bioa...
We applied papermaking techniques to modify the structural properties of the cellulose fiber network...
Paper-based analytical technologies enable quantitative and rapid analysis of analytes from various ...
Paper has become increasingly recognized as a very interesting substrate for the construction of mic...
Conventional diagnostic methods for detecting toxicity in water and mosquito-borne infections are ve...
This paper describes the fabrication and the performance of microfluidic paper-based electrochemical...
Existing microfluidic devices transport fluids by a variety of physical means. Among them, pump-base...
Microfluidic paper-based analytical devices (uPADs) are diagnostic devices that are inexpensive, bio...
This article describes the device design and fabrication of two different configurations (flow-throu...
The demand for low-cost alternatives to conventional point-of-care (POC) diagnostic tools has led to...
Paper-based microfluidics is a rapidly progressing inter-disciplinary technology driven by the need ...
The development of patterning high-resolution microfluidic circuits onto cellulose paper in 2007 ini...
The attractive structural and mechanical properties of cellulose substrates (paper, cloth, and threa...
Paper-based microfluidics is a rapidly progressing inter-disciplinary technology driven by the need ...
The demand for low-cost alternatives to conventional point-of-care diagnostic tools has led to signi...
Flow monitoring in porous materials is critical for the engineering of paper-based microfluidic bioa...
We applied papermaking techniques to modify the structural properties of the cellulose fiber network...
Paper-based analytical technologies enable quantitative and rapid analysis of analytes from various ...
Paper has become increasingly recognized as a very interesting substrate for the construction of mic...
Conventional diagnostic methods for detecting toxicity in water and mosquito-borne infections are ve...
This paper describes the fabrication and the performance of microfluidic paper-based electrochemical...
Existing microfluidic devices transport fluids by a variety of physical means. Among them, pump-base...
Microfluidic paper-based analytical devices (uPADs) are diagnostic devices that are inexpensive, bio...