Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
meets plasmonics: New perspectives in photocatalysis and near-surface (www.cplas.org ) —a collaboration between King’s College London, Imperial College London and UK Catalysis Hub. The research in
-
London, funded by the EPSRC Programme Grant Catalysis meets plasmonics: New perspectives in photocatalysis and near-surface (www.cplas.org ) —a collaboration between King’s College London, Imperial College
-
& experience: Essential criteria PhD qualified in relevant subject area Experience in modelling of optical 3D metamaterials and 2D metasurfaces Experience in modelling of plasmonic nanostructures Experience with
-
, nanofabrication and data analysis) post-doctoral fellowship aims at studying the non-linear optical properties of a new type of integrated plasmonic logic gate devices. The research work will consist in integrating
-
This PhD project explores the use of plasmonic nanostructures for trapping and spectroscopic characterization of proteins, enabling real-time, label-free studies of their structure, dynamics, and
-
spectroscopy. Characterization with complementary techniques such as surface plasmon resonance Prepare experimental reports, protocols, contribute to scientific publications and present findings at internal and
-
for Sustainability (King's part of pioneering hub to advance cutting-edge metamaterials | King's College London ). The research in Photonics & Nanotechnology Group (https://www.kcl.ac.uk/research/photonics
-
working with industry on a wide range of national and international projects. The researcher will be positioned within the Kemp Nano Electronics group (https://kempnanogroup.com/), which is focussed
-
headed by Emmanuelle Lacaze, with 4 PhD students already in the group, 2 of whom are writing their thesis (at the end of their 3rd year). Already around 15 years ago, it has been shown that liquid crystal
-
SD-26006 PHD STUDENT IN METAL DECORATED METAL OXIDE NANOSTRUCTURES FOR ENHANCED PLASMONIC LIGHT H...
nanomaterials, thin films, and light–matter interactions? Do you want to explore how we can design materials that control light at the nanoscale? This PhD thesis offers a unique opportunity to work on plasmonic