Herein we exploit these materials to implement a method for dose- and space-controlled chemical release from photoactivated nanocomposite films. For light absorption gold nanorods (NRs) were employed. These are a convenient choice of plasmonic nanoparticle featuring extremely efficient photothermal conversion in the so-called therapeutic window, that is, the spectral slot from 700 to 1300 nm where principal biological components (water, melanin, etc.) and common exogenous chromophores exhibit the highest optical transparency.
Photothermally Activated Hybrid Films for Quantitative Confined Release / Matteini P; Tatini F; Luconi L; Ratto F; Rossi F; Giambastiani G; Pini R. - In: ANGEWANDTE CHEMIE. INTERNATIONAL EDITION. - ISSN 1433-7851. - STAMPA. - 52:(2013), pp. 5956-5960. [10.1002/anie.201207986]
Photothermally Activated Hybrid Films for Quantitative Confined Release
Giambastiani G;
2013
Abstract
Herein we exploit these materials to implement a method for dose- and space-controlled chemical release from photoactivated nanocomposite films. For light absorption gold nanorods (NRs) were employed. These are a convenient choice of plasmonic nanoparticle featuring extremely efficient photothermal conversion in the so-called therapeutic window, that is, the spectral slot from 700 to 1300 nm where principal biological components (water, melanin, etc.) and common exogenous chromophores exhibit the highest optical transparency.
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