Nanophotonics & Nanophotovoltaics Master Project Day, AMOLF, Amsterdam On Thursday May 2th 2019, the Nanophotonics and Nanophotovoltaics groups at AMOLF invite master students in Physics, Chemistry or related fields that are searching for a Master's Project starting in 2019. During the afternoon, the group leaders will present the available projects, after which two project discussion sessions are held (see schedule below). During the discussion you can discuss projects that you find interesting with the group leader and/or daily supervisor. At the end of the day you can indicate it if you are interested in one or more projects.Please register for the Master Project Day by filling in the form below, indicating 2 projects you are most interested in (this helps us plan the day). Of course you can get information about all projects during the day. The deadline for registration is Monday April 28th 2019.For more information about the Nanophotonics and Nanophotovoltaics groups, please visit www.amolf.nl. If you have any questions regarding Master Projects at AMOLF or the Master Project Day, please email Tom Veeken at t.veeken@amolf.nl.Program:Thursday, May 2th 2019, 13.30-18.30 hrMeeting point: Main entrance AMOLF (Science Park 104)13:30 Arrival at coffee corner13:45 – 14:00 Welcome and introduction14:00 – 14:30 Project presentations by group leaders14:30 – 15:45 Project discussions15:45 – 16:15 Coffee/tea break16:15 – 17:30 Project discussions17:30 – 18:30 Drinks and indicating project interestProject descriptions:All projects | Bruno Ehrler | Erik Garnett | Ewold Verhagen | Esther Alarcón Lladó | Femius Koenderink | Said Rodriguez | Albert Polman Name : * Characters Left Email : * University : * Characters Left Master's program : * Characters Left Master track : * Characters Left UvA/VU courses taken : * Photovoltaics Organic Photovoltaics Nanophotonics First project choice : * Select project Bruno: Ion migration in perovskite solar cells Bruno: Solar cell efficiency limit of singlet fission solar cells Erik: Halide perovskite back contact and tandem solar cells Erik: HfN nanoparticles for long-lived hot electrons Erik: Lasers via perovskite nanocube assembly Erik: Improving stability and quantum yield of 2D halide perovskites Ewold: Quantum control of mechanical motion through nanophotonic measurement Ewold: Topological phonons in optomechanical chains Ewold: Nanoscale particle detection with optical antennas Esther: Exploring photonic properties of hyperuniform arrangement of vertical nanowires for ultrathin tandem solar cells Esther: Electrochemical mediated InGaAs growth for thermal photovoltaics Esther: Investigating Polarized Solid-Electrolyte Interfaces by Atomic Force Microscopy during electrochemical growth Femius: Partially-coherent Fourier interferometry for optical metrology Femius: Spatially programming gain in plasmon lattices and metasurfaces Femius: Flow-cells to probe high-Q plasmonics with single emitters Said: Light-induced superconductivity Said: Quantum nonlinear optics in a tunable micro-cavity at 4K Said: Spontaneous symmetry breaking in coupled nonlinear optical micro-cavities Albert: Pump-probe cathodoluminescence spectroscopy of ultrafast phase transformations Albert: Ultrafast electron-induced carrier dynamics in photovoltaic semiconductors Albert: Resonant metasurface spectral splitters for tandem solar cells Second project choice : * Select project Bruno: Ion migration in perovskite solar cells Bruno: Solar cell efficiency limit of singlet fission solar cells Erik: Halide perovskite back contact and tandem solar cells Erik: HfN nanoparticles for long-lived hot electrons Erik: Lasers via perovskite nanocube assembly Erik: Improving stability and quantum yield of 2D halide perovskites Ewold: Quantum control of mechanical motion through nanophotonic measurement Ewold: Topological phonons in optomechanical chains Ewold: Nanoscale particle detection with optical antennas Esther: Exploring photonic properties of hyperuniform arrangement of vertical nanowires for ultrathin tandem solar cells Esther: Electrochemical mediated InGaAs growth for thermal photovoltaics Esther: Investigating Polarized Solid-Electrolyte Interfaces by Atomic Force Microscopy during electrochemical growth Femius: Partially-coherent Fourier interferometry for optical metrology Femius: Spatially programming gain in plasmon lattices and metasurfaces Femius: Flow-cells to probe high-Q plasmonics with single emitters Said: Light-induced superconductivity Said: Quantum nonlinear optics in a tunable micro-cavity at 4K Said: Spontaneous symmetry breaking in coupled nonlinear optical micro-cavities Albert: Pump-probe cathodoluminescence spectroscopy of ultrafast phase transformations Albert: Ultrafast electron-induced carrier dynamics in photovoltaic semiconductors Albert: Resonant metasurface spectral splitters for tandem solar cells