Katsuo Kurabayashi

What is he best known for?

The fields of study he is best known for:

• Electrical engineering
• Optics
• Mechanical engineering

His scientific interests lie mostly in Thermal conductivity, Optoelectronics, Microfluidics, Nanotechnology and Analytical chemistry. His studies deal with areas such as Silicon, Condensed matter physics, Crystallite, Thermal conduction and Thermal resistance as well as Thermal conductivity. Katsuo Kurabayashi is interested in Microelectromechanical systems, which is a field of Optoelectronics.

The Microfluidics study combines topics in areas such as Photodiode, Fluidics, Molecular motor, Analyte and Microscale chemistry. His work on Surface plasmon resonance and Biosensor as part of general Nanotechnology research is often related to Property and Population, thus linking different fields of science. His research in Analytical chemistry intersects with topics in Cantilever and Resolution.

His most cited work include:

• Thermal conduction in doped single-crystal silicon films (336 citations)
• PDMS-based opto-fluidic micro flow cytometer with two-color, multi-angle fluorescence detection capability using PIN photodiodes (196 citations)
• Multiplex serum cytokine immunoassay using nanoplasmonic biosensor microarrays. (145 citations)

What are the main themes of his work throughout his whole career to date?

Katsuo Kurabayashi mainly focuses on Nanotechnology, Microfluidics, Microelectromechanical systems, Optoelectronics and Analytical chemistry. Nanotechnology is closely attributed to Microelectrode in his work. His work focuses on many connections between Microfluidics and other disciplines, such as Immunophenotyping, that overlap with his field of interest in Immune system and Cell biology.

Katsuo Kurabayashi has included themes like Optics, Electrical engineering, Voltage, Electronic engineering and Contact resistance in his Microelectromechanical systems study. His Optoelectronics study also includes fields such as

• Thermal conductivity and related Thermal resistance,
• Thermal conduction that intertwine with fields like Anisotropy. His Analytical chemistry research is multidisciplinary, incorporating perspectives in Chromatography and Thermal desorption.

He most often published in these fields:

• Nanotechnology (21.60%)
• Microfluidics (21.60%)
• Microelectromechanical systems (20.66%)

What were the highlights of his more recent work (between 2015-2021)?

• Microfluidics (21.60%)
• Gas chromatography (10.80%)
• Chromatography (10.33%)

In recent papers he was focusing on the following fields of study:

Microfluidics, Gas chromatography, Chromatography, Biosensor and Nanotechnology are his primary areas of study. His Microfluidics research incorporates elements of Optoelectronics, Biological system and Immunophenotyping. His research integrates issues of Substrate and Chip in his study of Optoelectronics.

His Gas chromatography research is multidisciplinary, incorporating elements of Injector, Modulation and Microelectromechanical systems. His research on Chromatography often connects related areas such as Analytical chemistry. His Nanotechnology study combines topics from a wide range of disciplines, such as Nanolithography and Plasmon.

Between 2015 and 2021, his most popular works were:

• Landscape of Intercellular Crosstalk in Healthy and NASH Liver Revealed by Single-Cell Secretome Gene Analysis. (121 citations)
• Efficient molecular evolution to generate enantioselective enzymes using a dual-channel microfluidic droplet screening platform (41 citations)
• AC Electroosmosis-Enhanced Nanoplasmofluidic Detection of Ultralow-Concentration Cytokine (31 citations)

In his most recent research, the most cited papers focused on:

• Electrical engineering
• Mechanical engineering
• Optics

His main research concerns Nanotechnology, Analytical chemistry, Biosensor, Microfluidics and Gas chromatography. By researching both Nanotechnology and Peripheral blood mononuclear cell, Katsuo Kurabayashi produces research that crosses academic boundaries. His work in Analytical chemistry tackles topics such as Detector which are related to areas like Elution.

Katsuo Kurabayashi has researched Biosensor in several fields, including Biomolecule, Colloidal gold and Immunology. His study in Dual extends to Microfluidics with its themes. His work in Surface plasmon resonance covers topics such as Filter which are related to areas like Optoelectronics.

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