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Lab-on-PCB devices can be considered an emerging technology. In fact, most of the contributions have been published during the last 5 years. It is mainly focussed on both biomedical and electronic applications. The book includes an interesting guide for using the different layers of the Printed Circuit Boards for developing new devices; guidelines for fabricating PCB-based electrochemical biosensors, and an overview of fluid manipulation devices fabricated using Printed Circuit Boards. In addition, current PCB-based devices are reported, and studies for several aspects of research and development of lab-on-PCB devices are described.
Technology: general issues --- History of engineering & technology --- lab-on-PCB --- microfluidics --- flow driving --- actuators --- biomedical applications --- MEA --- brain cells --- electrical recordings --- Organ-on-Chip --- Brain-on-Chip --- printed circuit boards --- electrochemical biosensors --- Lab-on-PCB --- electrode pre-treatment --- electrophoresis --- agarose --- PCB technology --- DNA amplification --- RPA --- microheaters --- E. coli --- molecular diagnostics --- printed circuit board --- organotypic culture --- microchip electrophoresis --- stray capacitance --- capacitively coupled contactless conductivity detection --- planar grounded electrode --- Printed Circuit Board (PCB) --- biomedical --- electronic --- engineering --- PCB --- rapid prototyping --- 3D printing --- PCB-MEMS --- PCB reliability --- embedded components --- finite element analysis --- thermal analysis --- electronics --- sensors --- biosensors --- lab-on-chip
Choose an application
Lab-on-PCB devices can be considered an emerging technology. In fact, most of the contributions have been published during the last 5 years. It is mainly focussed on both biomedical and electronic applications. The book includes an interesting guide for using the different layers of the Printed Circuit Boards for developing new devices; guidelines for fabricating PCB-based electrochemical biosensors, and an overview of fluid manipulation devices fabricated using Printed Circuit Boards. In addition, current PCB-based devices are reported, and studies for several aspects of research and development of lab-on-PCB devices are described.
lab-on-PCB --- microfluidics --- flow driving --- actuators --- biomedical applications --- MEA --- brain cells --- electrical recordings --- Organ-on-Chip --- Brain-on-Chip --- printed circuit boards --- electrochemical biosensors --- Lab-on-PCB --- electrode pre-treatment --- electrophoresis --- agarose --- PCB technology --- DNA amplification --- RPA --- microheaters --- E. coli --- molecular diagnostics --- printed circuit board --- organotypic culture --- microchip electrophoresis --- stray capacitance --- capacitively coupled contactless conductivity detection --- planar grounded electrode --- Printed Circuit Board (PCB) --- biomedical --- electronic --- engineering --- PCB --- rapid prototyping --- 3D printing --- PCB-MEMS --- PCB reliability --- embedded components --- finite element analysis --- thermal analysis --- electronics --- sensors --- biosensors --- lab-on-chip
Choose an application
Lab-on-PCB devices can be considered an emerging technology. In fact, most of the contributions have been published during the last 5 years. It is mainly focussed on both biomedical and electronic applications. The book includes an interesting guide for using the different layers of the Printed Circuit Boards for developing new devices; guidelines for fabricating PCB-based electrochemical biosensors, and an overview of fluid manipulation devices fabricated using Printed Circuit Boards. In addition, current PCB-based devices are reported, and studies for several aspects of research and development of lab-on-PCB devices are described.
Technology: general issues --- History of engineering & technology --- lab-on-PCB --- microfluidics --- flow driving --- actuators --- biomedical applications --- MEA --- brain cells --- electrical recordings --- Organ-on-Chip --- Brain-on-Chip --- printed circuit boards --- electrochemical biosensors --- Lab-on-PCB --- electrode pre-treatment --- electrophoresis --- agarose --- PCB technology --- DNA amplification --- RPA --- microheaters --- E. coli --- molecular diagnostics --- printed circuit board --- organotypic culture --- microchip electrophoresis --- stray capacitance --- capacitively coupled contactless conductivity detection --- planar grounded electrode --- Printed Circuit Board (PCB) --- biomedical --- electronic --- engineering --- PCB --- rapid prototyping --- 3D printing --- PCB-MEMS --- PCB reliability --- embedded components --- finite element analysis --- thermal analysis --- electronics --- sensors --- biosensors --- lab-on-chip --- lab-on-PCB --- microfluidics --- flow driving --- actuators --- biomedical applications --- MEA --- brain cells --- electrical recordings --- Organ-on-Chip --- Brain-on-Chip --- printed circuit boards --- electrochemical biosensors --- Lab-on-PCB --- electrode pre-treatment --- electrophoresis --- agarose --- PCB technology --- DNA amplification --- RPA --- microheaters --- E. coli --- molecular diagnostics --- printed circuit board --- organotypic culture --- microchip electrophoresis --- stray capacitance --- capacitively coupled contactless conductivity detection --- planar grounded electrode --- Printed Circuit Board (PCB) --- biomedical --- electronic --- engineering --- PCB --- rapid prototyping --- 3D printing --- PCB-MEMS --- PCB reliability --- embedded components --- finite element analysis --- thermal analysis --- electronics --- sensors --- biosensors --- lab-on-chip
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