| Institution: |
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| Acronym: | CETHIL |
| Department: | Centre for Energy and Thermal Sciences, Lyon (CETHIL) |
| Group: | Micro and Nanoscale Heat Transfer |
| Type of Institution: | Research Center |
| Contact Person: | P-Olivier Chapuis (More info) |
| Group members: | Severine Gomes, Stephane Lefevre |
| Address: | 9, rue de la Physique - INSA Lyon - Campus La Doua-Lyon Tech |
| Country: | France |
| Phone: | +33 (0)4 72 43 63 85 |
| Fax: | +33 (0)4 72 43 88 11 |
| Website: | http://cethil.insa-lyon.fr |
| Main research areas: |
 Phonons and Heat ("incoherent phonons") |
| Personal: |
| Permanent Staff: 3 |
Post doctoral: 2 |
PhD: 3 |
| Technicians: 1 |
Others: 0 |
|
| Participating Projects |
 |
QuantiHEat - QUANTItative scanning probe microscopy techniques for HEAT transfer management in nanomaterials and nanodevices - www.quantiheat.eu
Coordinator: Gomes, S. (CNRS, France) Funding Source: European Union
Total Funding: 0000 € - Partner Funding: 0000€ - Nº of Partners: 20
Starting Year: 2013 - Duration: 4 years. |
| Funding (average per year) |
|
| 2013: 0000 € (QuantiHEat) | |
| 2014: 0000 € (QuantiHEat) | |
| 2015: 0000 € (QuantiHEat) | |
| 2016: 0000 € (QuantiHEat) | |
| Infrastructures |
|
Tool: scanning thermal microscope; Trade Name: ; Model: ; Installation Year: 0;
Tool Specificities: |
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Tool: Eletrcical measurements in cryostat; Trade Name: CRYOSCAN; Model: ; Installation Year: 2013;
Tool Specificities: designed for electrical and optical measurements down to 4 K |
|
Tool: scanning thermal microscope; Trade Name: NTMDT; Model: ; Installation Year: 2010;
Tool Specificities: AFM and SThM |
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Infrastructure: Access to NanoLyon clean room facilities; Area: 0; Installation Year: 0;
Main tools available: Photolithography |
| Research topics |
|
| Phonon-based components and circuits for ICT (incl. new device concepts) |
| Thermal diodes and rectifiers |
| Thermal transistors |
| Thermal memories |
| Thermal switches |
| Phonon waveguides |
| Computation with phonons |
| NEMS |
| Phonons and Heat (incoherent phonons) |
| Thermal conduction in nanostructures, nanomaterials and interfaces (incl. Thermoelectrics and thermocrystals) |
| Radiative heat transfer at the micro and nanoscales |
| Polaritons in micro and nanostructures |
| Thermal management at the nanoscale (incl. approaches to control heat transport in components, e.g., photonic devices) |
| New techniques for the study of heat transfer and phonon dynamics |
| Dissipation in solid-state quantum information processing |
| Phonons and Electrons |
| Role of phononics in nanoelectronics |
| Phonons and Sound (coherent phonons) |
| Surface acoustic waves (SAWs) |
| Phonon-based nanometrology |
| Imaging with phonons, probing phonons in nanostructures |
| Nanothermometry |
| Noise |
| Phonon-based energy devices |
| Nanoscale energy harvesting, storage and conversion |
| Bolometers |
| Thermal metamaterials |
| Technology and nanofabrication for phononic structures |
| Phononic crystals and quasi-crystals |
| Waveguides |
| Membranes |
| Hybrid structures |
| Acousto metamaterials |
| Phonons in Biology |
| Medical imaging and heat based theranostics |
| Patents |
|
| Registered | Published | Licenced |
|
| National | 2 | |
National | 2 | |
National | 0 |
| International | 2 | |
International | 2 | |
International | 0 |
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