教員一覧
FACULTY LIST
Shigeo Maruyama
Shigeo MaruyamaProfessor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Growth of hetero-nanotubes based on single-walled carbon nanotubes
- Device application of hetero-nanotubes
- Perovskite solar cells using carbon nanotubes and hetero-nanotubes
Yuji Suzuki
Yuji SuzukiProfessor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Ammonia Combustion toward Industrial Thermal Systems
- HIgh-performance Catalytic Converter for Ammonia Cracking to Extract Hydrogen
- Catalytic-combustion-based Small-scale High-power-density Power Source
- High-performance Heat Exchanger for Small-scale Binary Cycle Systems
- Electret-based Vibration Energy Harvesting Device
Shikazono Naoki
Shikazono NaokiProfessor
- Komaba Campus
- Graduate School of Engineering
- Institute of Industrial Science
- RESEARCH
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- High efficiency energy systems combining SOFC, heat engine and high temperature heat storage
- SOFC electrode analysis using numerical simulation and advanced microscopic technologies
- Large-scale simulation and development of thermal elemental technologies
Shu Takagi
Shu TakagiProfessor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Bio-Medical Application of Microbubbles
- Air-Lift Pump for Deep Ocean Mining
- Bio-Mechanical Simulation using Super-Computer
Ryo Shirakashi
Ryo ShirakashiProfessor
- Komaba Campus
- Graduate School of Engineering
- Institute of Industrial Science
- RESEARCH
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- Stabilization of clinical analytes and diagnostic agents for their high quality dry-preservation
- Dielectric spectroscopy of the retained water in Lignite for estimating its low temperature oxidization.
- Delivery of cryo-/dry-protective agents into a living fish egg by the enhancement of membrane transport
- Development of the thin heat transport device equipped with the highly integrated micro grooved channels
- Dielectric spectroscopy of the slurry for electrodes (catalytic layer) for estimating its kneading state.
Hirofumi Daiguji
Hirofumi DaigujiProfessor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Next generation HVAC technology
- Adsorption and transport of water in nanospace materials
- Analysis and control of bubble generation in nanopores
- Nanofluidics and electrokinetics
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Yutaka Tabe
Yutaka TabeProfessor (Specific Visiting)
- RESEARCH
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Junichiro Shiomi
Junichiro ShiomiProfessor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Development of thermoelectric conversion technology based on nanotechnology
- Heat-transfer innovation by Materials Informatics (material science x information science)
- Control of interfacial fluid dynamics phenomena such as wetting and phase change and its application to heat exchange
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Yosuke Hasegawa
Yosuke HasegawaProfessor
- Komaba Campus
- Graduate School of Engineering
- Institute of Industrial Science
- RESEARCH
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- Optimal control of turbulent transport phenomena
- Shape optimization of thermo-fluids systems
- Mathematical modeling of vascular network remodeling
- Estimation of turbulent environments based on limited noisy sensing data
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Yuhei Miyauchi
Shohei Chiashi
Shohei ChiashiAssociate Professor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Synthesis of nano-materials, such as carbon nanotubes, graphene, etc.
- Spectroscopic and conduction properties of nano-materials
- Material and energy transport properties at the nanoscale and their applications
Ikuya Kinefuchi
Ikuya KinefuchiAssociate Professor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Visualization measurement and analysis of sub-micron scale water droplet condensation
- Micro- and nano-scale thermal flow analysis in polymer electrolyte fuel cells
- Development of coarse-grained visualization methods for molecular simulation
- Thermal hydraulics analysis in a compact self-excited vibration heat pipe
Muhammad Aziz
Muhammad AzizAssociate Professor
- Komaba Campus
- Graduate School of Engineering
- Institute of Industrial Science
- RESEARCH
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- Highly efficient hydrogen production, storage, and utilization
- Chemical looping-based CO2-free energy conversion
- Energy-efficient waste-to-energy conversion
- Advanced utilization of electric vehicle for grid ancillary services
- Decomposition of environmental gases
Wei-Lun Hsu
Wei-Lun HsuAssociate Professor
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Transport phenomena at the micro/nanoscale
- Development of two-dimensional nanopore DNA sequencing devices
- Design of next generation dehumidifiers using desiccant materials
Yaerim Lee
Yaerim LeeLecturer
- Hongo Campus
- Graduate School of Engineering
- RESEARCH
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- Understanding of dynamic wetting over hybrid wettability surfaces
- Development of smart surfaces to control condensation and freezing of water
- Development of scalable thermal insulation/radiation materials
Tomoaki Watamura
Tomoaki WatamuraLecturer
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Fluid-like behavior of dispersed bodies
- Mechanics on complex interface
- Flow visualization of multiphase flow
- KEYWORD
Minhyeok Lee
Minhyeok LeeLecturer
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Elucidation of cool flame characteristics by measuring low-temperature oxidation species through laser/sampling diagnostics
- Elucidation of flame-wall interaction and development of surface reaction models
- Investigation of hydrogen/ammonia combustion characteristics towards carbon-neutralization
- Investigation and modeling of metal combustion under different oxidation atmospheres
Timothée Mouterde
Timothée MouterdeLecturer
- Hongo Campus
- Department of Mechanical Engineering
- Graduate School of Engineering
- RESEARCH
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- Nanostructured metamaterials for fluid repellency
- Fluids and ions control at the molecular scale
- Nanofluidics