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This work is an investigation of preliminary steps in the microfabrication of titanium nitride microheaters to be integrated under the surface of flight mirrors. This work focuses on the analysis of titanium thin films properties as a function of thickness.
Microheaters --- Titanium nitride --- TiN --- Sputtering --- Ion Beam Sputtering --- IBS --- Laser-Induced Forward Transfer --- LIFT Thin films --- Ingénierie, informatique & technologie > Ingénierie aérospatiale
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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
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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.
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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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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