Ursula Keller wins “Swiss Nobel” Marcel Benoist Prize
Farewell: the NCCR MUST ended 
MUST2022 Conference
New scientific highlights
FELs of Europe prize for Jeremy Rouxel
Ruth Signorell wins Doron prize
New FAST-Fellow Uwe Thumm at ETH
International Day of Women and Girls in Science
New scientific highlight
EU XFEL Young Scientist Award for Camila Bacellar,
Prizes for Giulia Mancini and Rebeca Gomez Castillo
Nobel Prize in Chemistry awarded to RESOLV Member Benjamin List
Hans Jakob Wörner invited to give the „New Horizons Solvay Lectures” 
Unusual keynote talk at an international scientific conference
NCCR MUST at Scientifica 2021Rachel Grange
September 2016
Prof Rachel Grange received the ERC starting grant for her project Chi2-Nano-Oxides: "Second-Order Nano-Oxides for Enhanced Nonlinear Photonics"
Rachel Grange, a FAST PI in MUST, is one of six researchers from ETH Zurich who have been awarded one of these prestigious grants this year. She is an Assistant Professor in Photonics at the Institute for Quantum Electronics in the Department of Physics. With her ERC Starting Grant, she will research strategies to enhance nonlinear optical signal in oxide nanomaterials to avoid using high power sources and large interaction length. The key idea is to demonstrate strong optical signals in nano-oxides with the material itself and without involving any hybrid effects from other materials such as metals that are lossy. She will investigate two Perovskite nanostructures, barium titanate nanoparticles and lithium niobate nanowires. The emphasis is not only on the photonic properties but also on the fabrication challenges of oxides that are difficult to shape. Her work will foster applications in biology as imaging markers and in optoelectronics as integrated compact optical devices.
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Prof Rachel Grange received the ERC starting grant for her project Chi2-Nano-Oxides: "Second-Order Nano-Oxides for Enhanced Nonlinear Photonics"
Rachel Grange, a FAST PI in MUST, is one of six researchers from ETH Zurich who have been awarded one of these prestigious grants this year. She is an Assistant Professor in Photonics at the Institute for Quantum Electronics in the Department of Physics. With her ERC Starting Grant, she will research strategies to enhance nonlinear optical signal in oxide nanomaterials to avoid using high power sources and large interaction length. The key idea is to demonstrate strong optical signals in nano-oxides with the material itself and without involving any hybrid effects from other materials such as metals that are lossy. She will investigate two Perovskite nanostructures, barium titanate nanoparticles and lithium niobate nanowires. The emphasis is not only on the photonic properties but also on the fabrication challenges of oxides that are difficult to shape. Her work will foster applications in biology as imaging markers and in optoelectronics as integrated compact optical devices.
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