Purpose of the International Nanotechnology Symposium in Tokyo
Exchange of views on results and future development of different nanotechnology fields between 21 Cambridge University nano-technology researchers and PhD students, researchers and nanotechnology companies. Explore common interests, and potential cooperation.
University of Cambridge, founded 1209 AD
107 Nobel Prize winners
around University of Cambridge: 4700 knowledge intensive companies, 560 high-tech manufacturing firms, 3000 IT and communication based companies
2019 THE Times Higher Education Global University Ranking: Place 2 globally
2019 ARWU Global University Ranking: Place 3 globally
2019 QS Global University Ranking: Place 6 globally
Program
15:00 – 19:00
presentations by Cambridge nanotechnology researchers:
Session 1: Nanotechnology for Energy & Sustainability
TU – Plastic waste as a feedstock for solar-driven hydrogen generation
TL – Fibre-based optofluidics for sustainable photocatalysis
AG – Ultrafast charging Li-ion batteries
JM – Battery material degradation at the nanoscale studied by analytical electron microscopy
MJ – Understanding the nature of oxygen redox in Li-excess cation disordered rocksalts as cathode materials for Li-ion batteries
JT – Structure and ionic conductivity of metal-organic framework composites
TP – Light-induced patterning of structural colour
TB – Triboelectric textile for wearable energy harvesting
Session 2: Nanomaterials & Nano-biotechnologies
RM – In-operando SEM to Develop Manufacturing of Nanomaterials
KS – Hierarchical carbon nanotube structures
BS – DNA origami for enzyme biomimicry
RRS – Force-sensing artificial cells and tissues with synthetic DNA mechanotransducers
RG – The role of viscoelasticity in axon guidance during development
TN – Implantable electrophoretic devices for spatially controlled administration of nanoscopic drug carriers for brain cancer therapy
Session 3: Nanoelectronics & Photonics
BD – Photophysics of thermally activated delayed fluorescent emitters
TG – Quantifying disorder in hybrid perovskites for optoelectronics
JO – Gold nanorod – MOF core-shell composites as advanced surface-enhanced Raman spectroscopy sensors
EW – Transition edge sensors for far-infrared space science
SM – 3D structured carbon nanotube infrared detectors
LS – 3D magnetic nanostructures for spintronics
TL – Manipulating single electron spins in silicon CMOS spin qubits
NTT Basic Research Laboratories
Hideki Gotoh: Overview of NTT R&D and Basic Research Laboratories
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