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Marie Anne Van De Haar
Marie Anne Van De Haar
Seaborough Research B.V.
Verified email at seaborough.com
Title
Cited by
Cited by
Year
Ubiquity of optical activity in planar metamaterial scatterers
I Sersic, MA van de Haar, FB Arango, AF Koenderink
Physical review letters 108 (22), 223903, 2012
1072012
Nanoscopic control and quantification of enantioselective optical forces
Y Zhao, AAE Saleh, MA Van De Haar, B Baum, JA Briggs, A Lay, ...
Nature nanotechnology 12 (11), 1055-1059, 2017
992017
Controlling magnetic and electric dipole modes in hollow silicon nanocylinders
MA van de Haar, J van de Groep, BJM Brenny, A Polman
Optics express 24 (3), 2047-2064, 2016
892016
YAG:Ce3+ Phosphor: From Micron-Sized Workhorse for General Lighting to a Bright Future on the Nanoscale
AC Berends, MA van de Haar, MR Krames
Chemical Reviews 120 (24), 13461-13479, 2020
802020
Isochoric ideality in jammed random packings of non-spherical granular matter
AV Kyrylyuk, MA van de Haar, L Rossi, A Wouterse, AP Philipse
Soft Matter 7 (5), 1671-1674, 2011
692011
Saturation mechanisms in common LED phosphors
MA Van De Haar, M Tachikirt, AC Berends, MR Krames, A Meijerink, ...
ACS photonics 8 (6), 1784-1793, 2021
532021
Increasing the effective absorption of Eu3+-doped luminescent materials towards practical light emitting diodes for illumination applications
MA van de Haar, J Werner, N Kratz, T Hilgerink, M Tachikirt, J Honold, ...
Applied Physics Letters 112 (13), 2018
282018
Eu3+ Sensitization via Nonradiative Interparticle Energy Transfer Using Inorganic Nanoparticles
MA Van De Haar, AC Berends, MR Krames, L Chepyga, FT Rabouw, ...
The Journal of Physical Chemistry Letters 11 (3), 689-695, 2020
212020
Experimental realization of a polarization-independent ultraviolet/visible coaxial plasmonic metamaterial
MA Van de Haar, R Maas, H Schokker, A Polman
Nano letters 14 (11), 6356-6360, 2014
182014
Fabrication process of a coaxial plasmonic metamaterial
MA van de Haar, A Polman
Optical Materials Express 6 (3), 884-911, 2016
112016
Increasing the Power: Absorption Bleach, Thermal Quenching, and Auger Quenching of the Red‐Emitting Phosphor K2TiF6:Mn4+
JW de Wit, TP van Swieten, MA van de Haar, A Meijerink, FT Rabouw
Advanced Optical Materials 11 (9), 2202974, 2023
52023
Surface plasmon polariton modes in coaxial metal-dielectric-metal waveguides
MA Van de Haar, R Maas, B Brenny, A Polman
New Journal of Physics 18 (4), 043016, 2016
52016
Nano-engineered narrow-band phosphors for LED applications
MA van de Haar, AD Sontakke
Light-Emitting Devices, Materials, and Applications XXVIII, PC129060A, 2024
2024
Converter system
M Krames, MA Van de Haar
US Patent 11,879,085, 2024
2024
Y2o3: re nanoparticles
AC Berends, MA Van de Haar
US Patent App. 18/009,756, 2023
2023
Stable nano-YAG: Ce3+ phosphors for photonic applications (Conference Presentation)
A Sontakke, MA van de Haar, A Berends, F Montanarella, V Khanin, ...
Light-Emitting Devices, Materials, and Applications XXVII, PC124410R, 2023
2023
Luminescent composition
M Krames, MA Van de Haar
US Patent App. 17/184,619, 2022
2022
General lighting with photobiomodulation
JE Honold, MJ Dekker, M Krames, MA Van de Haar, C Minter
US Patent App. 17/750,564, 2022
2022
Annealing method
AC Berends, MA Van de Haar
US Patent App. 17/680,335, 2022
2022
Converter system
M Krames, MA Van de Haar
US Patent 11,233,181, 2022
2022
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