Che-Hsin Lin mainly investigates Microfluidics, Optics, Optical fiber, Optoelectronics and Nanotechnology. His Microfluidics research is multidisciplinary, relying on both Voltage, Sample, Chip, Sorting and Analytical chemistry. His research investigates the link between Analytical chemistry and topics such as Micromixer that cross with problems in Flow visualization, Fluidics, Simulation, Micromixing and Vortex.
His research on Optics often connects related areas such as Electrophoresis. His Optical fiber study combines topics from a wide range of disciplines, such as Optical alignment, Flow and Refractive index. His Optoelectronics course of study focuses on Surface roughness and Etching, Layer, Soda-lime glass and Substrate.
His primary areas of study are Microfluidics, Analytical chemistry, Optoelectronics, Optics and Nanotechnology. His studies in Microfluidics integrate themes in fields like Capillary electrophoresis, Electrophoresis, Electrokinetic phenomena, Microchannel and Electronic engineering. His Electronic engineering research incorporates themes from Sorting and Sample.
His study explores the link between Analytical chemistry and topics such as Chromatography that cross with problems in Urea. Che-Hsin Lin has included themes like Chip, Layer, Microlens, Coating and Laser in his Optoelectronics study. His study in Microelectrode extends to Nanotechnology with its themes.
The scientist’s investigation covers issues in Composite material, Analytical chemistry, Optoelectronics, Laser and Mass spectrometry. As a member of one scientific family, Che-Hsin Lin mostly works in the field of Analytical chemistry, focusing on Ion and, on occasion, Dielectric barrier discharge and Atmospheric-pressure plasma. His Optoelectronics research is multidisciplinary, incorporating elements of Temperature measurement, Substrate, Chip and Isotropic etching.
The concepts of his Laser study are interwoven with issues in Microlens, Coating, Optical fiber and Indium tin oxide. His Mass spectrometry research incorporates elements of Microfluidics and Sample preparation. Microfluidics is closely attributed to Capillary electrophoresis in his work.
Analytical chemistry, Layer, Laser, Composite material and Substrate are his primary areas of study. His work carried out in the field of Analytical chemistry brings together such families of science as Ion, Nanoparticle and Microfluidics. His work deals with themes such as Optoelectronics, Repeatability, Polyethylene terephthalate and Linearity, which intersect with Layer.
The study incorporates disciplines such as Temperature coefficient, Indium tin oxide, Temperature measurement, Coating and Isotropic etching in addition to Optoelectronics. The various areas that Che-Hsin Lin examines in his Laser study include Fiber, Core and Semiconductor. His biological study spans a wide range of topics, including PEDOT:PSS, Electronic skin, Resistive touchscreen and Electrical resistivity and conductivity.
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A new fabrication process for ultra-thick microfluidic microstructures utilizing SU-8 photoresist
Che-Hsin Lin;Gwo-Bin Lee;Bao-Wen Chang;Guan-Liang Chang.
Journal of Micromechanics and Microengineering (2002)
A fast prototyping process for fabrication of microfluidic systems on soda-lime glass
Che-Hsin Lin;Gwo-Bin Lee;Yen-Heng Lin;Guan-Liang Chang.
Journal of Micromechanics and Microengineering (2001)
Electrokinetically driven micro flow cytometers with integrated fiber optics for on-line cell/particle detection
Lung Ming Fu;Ruey Jen Yang;Che Hsin Lin;Yu Jen Pan.
Analytica Chimica Acta (2004)
Micro flow cytometers with buried SU-8/SOG optical waveguides
Gwo-Bin Lee;Che-Hsin Lin;Guan-Liang Chang.
Sensors and Actuators A-physical (2003)
A rapid three-dimensional vortex micromixer utilizing self-rotation effects under low Reynolds number conditions
Che-Hsin Lin;Chien-Hsiung Tsai;Lung-Ming Fu.
Journal of Micromechanics and Microengineering (2005)
MEMS-based gas flow sensors
Yu Hsiang Wang;Chang Pen Chen;Chih Ming Chang;Chia Pin Lin.
Microfluidics and Nanofluidics (2009)
Microfluidic assisted synthesis of multi-functional polycaprolactone microcapsules: incorporation of CdTe quantum dots, Fe3O4 superparamagnetic nanoparticles and tamoxifen anticancer drugs.
C.-H. Yang;K.-S. Huang;Y.-S. Lin;K. Lu.
Lab on a Chip (2009)
Micromachined flow cytometers with embedded etched optic fibers for optical detection
Che-Hsin Lin;Gwo-Bin Lee.
Journal of Micromechanics and Microengineering (2003)
Microfluidic T-form mixer utilizing switching electroosmotic flow.
Che Hsin Lin;Lung-Ming Fu;Yu Sheng Chien.
Analytical Chemistry (2004)
Vertical focusing device utilizing dielectrophoretic force and its application on microflow cytometer
Che-Hsin Lin;Gwo-Bin Lee;Lung-Ming Fu;Bao-Herng Hwey.
IEEE/ASME Journal of Microelectromechanical Systems (2004)
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