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J. J. Baumberg
Also published under:Jeremy J. Baumberg, Jeremy Baumberg, J. Baumberg
Affiliation
Department of Physics, NanoPhotonics Centre, Cavendish Laboratory, JJ Thompson Avenue, University of Cambridge, Cambridge, United Kingdom
Topic
Density Functional Theory,Hollow-core Fiber,Photocatalytic,Raman Spectroscopy,Surface-enhanced Raman Scattering,Adatoms,Ascorbic Acid,Atmospheric Molecules,Atmospheric Radiation,Atomic Polarization,Battery Chemistry,Battery Management System,Bond Vibrations,Charge Density,Chemical Processes,Cyclic Voltammetry,Degradation Mechanism,Diffraction Limit,Diode Laser,Electrochemical,Electrochemical Impedance Spectroscopy,Electrolyte,Electron Transfer,Electron Transfer Process,Energy Barrier,Energy Storage Systems,Far-field Measurements,Greenhouse Gas,Individual Nanoparticles,Infrared Imaging,Integration Of Nanoparticles,Interaction Of Light,Intermolecular Forces,Key Ingredient,Localization Accuracy,Localization Of Nanoparticles,Metal Nanoparticles,Metal Surface,Metallic Waveguide,Metasurface,Microreactor,Molecular Electronics,Molecular Spectroscopy,Near-field Distribution,Optical Force,Optical Spectroscopy,Paraquat,Photonic Nanostructures,Photonic Waveguides,Quasinormal Modes,
Biography
Jeremy J. Baumberg is the Director of NanoScience and NanoTechnology at the University of Southampton and a Professor in both the Schools of Physics and Electronics & Computer Science. He is an established innovator in NanoPhotonics, opening new areas for exploitation. As a result, he was awarded the 2004 Royal Society Mullard Prize, the 2004 Mott Lectureship of the Institute of Physics, as well as the Charles Vernon Boys medal in 2000. Strong experience in Hitachi (5 years), as an IBM Fellow (2 years) and recently with his $14M spin-off, Mesophotonics (based on NanoPhotonics patents), gives him a unique position to combine academic insight with industry application in a two-way flow. He has a strong track record in the ultrafast properties of novel NanoMaterials such as photonic crystals, single semiconductor quantum dots, semiconductor microcavities, and self-assembled photonic and plasmonic nano-structures. He also frequently talks on NanoScience to the media, and is a strategic advisor to the UK Research Councils. He is a Fellow of the Optical Society of America, the Institute of Physics, and the Institute of NanoTechnology.