LIMMS combines the expertise of French and Japanese scientists in order to explore new scientific domains related to micro- and nanotechnologies. Researchers who are recruited by LIMMS are hosted in the following Japanese research groups affiliated to LIMMS:
- MEMS/NEMS-based terahertz detectors
- Heterostructure-based thermoionic cooling device
- Single molecule / quantum-dot transistors
- Terahertz spectroscopy of quantum nanostructures.
http://www.bmce.iis.u-tokyo.ac.jp
- Neural tissue engineering and brain organoids
- Neural morphology and development
- Protein synthesis in neurons
- Human pluripotent stem cell-derived neurons.
http://www.inventio.iis.u-tokyo.ac.jp
- Multimodal UHV AFM and Colour AFM
- Emission based oscillator measurement using FUM and FEM based techniques
- Variable temperature Liquid Atomic force microscopy and cantilevers sensors
- TEM AFM
http://www.kimlab.iis.u-tokyo.ac.jp
- MEMS, Bio-NEMS, Micro/nano pattern ing, soft lithography
- SAM patterning for cell culturing/bio sensors
- Heat transfer in nano structure, Micro/nano heaters for molecular Engineering
- Microneedle patch for new drug delivery system
- Energy harvesting, power MEMS.
http://www.iis.u-tokyo.ac.jp/en/research/staff/kim-soo-hyeon
- Microtechnology for Medicine.
- Microfluidic Device.
- Picoreactor.
- Single Cell Analysis.
- Liquid Biopsy.
http://www.sat.t.u-tokyo.ac.jp/~kohno/
- Neuromimetic silicon neuronal network circuits and their application to neuromimetic artificial intelligence
- Architectural design of the neuromimetic computing.
https://www.naojimatsuhisa.com
- Stretchable electronic materials and devices.
- Wearable devices.
- Human-computer interfaces.
- Electronic skins for robots.
http://www.matlab.iis.u-tokyo.ac.jp
- Tissue engineering
- Biomaterials
- In vitro microvessel model
- Vascular biology
http://www.tminami.iis.u-tokyo.ac.jp/en
- Chemical sensors based on organic thin transistors functionalized with molelual recognition materials
- High-throughput Analysis based on Supramolecular Sensor Arrays.
http://www.if.t.u-tokyo.ac.jp/index_en.html
- Integrated MEMS-VLSI technology,
- Nature Engineered Microdevices
- Nano deep 3D MEMS optoelectronic systems
- Autonomous microrobot
- Bio-inspired perception LSI systems.
http://www.nlab.iis.u-tokyo.ac.jp
- Physics of nanoscale phonon heat transport
- Nano-Si thermoelectric energy harvesting
- Hybrid quantum science by phononics
http://orgbiosys.t.u-tokyo.ac.jp/sakai
- Microfluidics, micro-ppaterning and advanced sensing for phylogically relevant cell-based assays
- 2D and 3D micro-fabrication and stem/progenitor cell propagation/differentiation for engineering of implementable tissues.
http://www.ntech.t.u-tokyo.ac.jp
- Flexible electronics using organic transistors
- Large-area sensors and actuators
- Molecular/organic electronics
- Printing technologies for large-area electronics
- Printed MEMS switches for power transmission.
http://www.spm.iis.u-tokyo.ac.jp
- Multiple analyses of solar cell materials by photo-assisted nanoprobes
- Analysis of individual fine current paths in CNT-FETs
- Characterization of quantum nanostructures by conductive nanoprobes
- Development of novel nanoprobing technologies
http://www.hybrid.iis.u-tokyo.ac.jp
- Biohybrid MEMS
- Membrane protein chips
- MEMS for artificial cells
- Neural interfaces
- Microchambers, droplets, capsules.
http://toshi.iis.u-tokyo.ac.jp
- Thin-Film-Transistor (TFT) Technology as a base for advanced arrayed bio-sensors: biogical cells and biomolecules electrical manipulation and sensing
- Integrated CMOS-MEMS plateform for biological applications
- Electronic nose for bio-chemical applications
http://toshi.iis.u-tokyo.ac.jp/toshilab
- Optical MEMS
- RF-MEMS
- THz metamaterials
- CMOS-MEMS Integration
- Energy harvester
For more information about host laboratories, see LIMMS booklet.