Artículo
Nanometer-Scale Precision Tuning of 3D Photonic Crystals Made Possible Using Polyelectrolytes with Controlled Short Chain Length and Narrow Polydispersity
Autor/es | Zhuo, Wang
Calvo Roggiani, Mauricio Masson, Georgeta Arsenault, André C. Peiris, Frank Mamak, Marc Míguez García, Hernán Ruy Manners, Ian Ozin, G.A. |
Fecha de publicación | 2014 |
Fecha de depósito | 2019-01-17 |
Publicado en |
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Resumen | Nanometer‐scale tuning of the optical properties of prefabricated photonic crystals is achieved via layer‐by‐layer assembly of polyelectrolytes in the interstitial spaces of the photonic lattice. The key to the approach ... Nanometer‐scale tuning of the optical properties of prefabricated photonic crystals is achieved via layer‐by‐layer assembly of polyelectrolytes in the interstitial spaces of the photonic lattice. The key to the approach is using polyelectrolytes with controlled short chain lengths. This ensures they do not block the air voids, thereby maintaining uniform coating and thus precise and reproducible optical tuning. |
Identificador del proyecto | MAT2011-23593
CSD2007-00007 FQM3579 FQM5247 307081 |
Cita | Zhuo, W., Calvo Roggiani, M., Masson, G., Arsenault, A.C., Peiris, F., Mamak, M.,...,Ozin, G.A. (2014). Nanometer-Scale Precision Tuning of 3D Photonic Crystals Made Possible Using Polyelectrolytes with Controlled Short Chain Length and Narrow Polydispersity. Advanced Materials Interfaces, 1 (1), 1300051-. |
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