- Porous silicon and porous polymer substrates for optical chemical sensors
[作者:Hajj-Hassan, M; Kim, SJ; Cheung, MC; Yao, L; Chodavarapu, V; Cartwright, A,期刊:JOURNAL OF NANOPHOTONICS, 页码:43513-43513 , 文章类型: Article,,卷期:2010年4-4]
- Mesoporous materials, such as porous silicon and porous polymer gratings (Bragg structures), offer an attractive platform for the encapsulation of chemical and biological recognition elements. These materials include the...
- Silicon nanophotonic devices based on resonance enhancement
[作者:Zhou, ZP; Wu, HM; Feng, JB; Hou, J; Yi, HX; Wang, XJ,期刊:JOURNAL OF NANOPHOTONICS, 页码:41001-41001 , 文章类型: Article,,卷期:2010年4-4]
- In recent years, silicon nanophotonic devices have attracted more and more attention due to their compactness, low power consumption, and easy integration with other functions. In addition to the higher index of silicon ...
- Plasmonic platforms of self-assembled silver nanostructures in application to fluorescence
[作者:Luchowski, R; Calander, N; Shtoyko, T; Apicella, E; Borejdo, J; Gryczynski, Z; Gryczynski, I,期刊:JOURNAL OF NANOPHOTONICS, 页码:43516-43516 , 文章类型: Article,,卷期:2010年4-4]
- Fluorescence intensity changes were investigated theoretically and experimentally using self-assembled colloidal structures on silver semitransparent mirrors. Using a simplified quasi-static model and finite element meth...
- Influence of morphological transformation on luminescence properties of europium-doped gadolinium oxide nanostructures
[作者:Zhang, K; Dondapati, H; Holloway, T; Cao, W; Kar, A; Patra, A; Pradhan, AK,期刊:JOURNAL OF NANOPHOTONICS, 页码:43517-43517 , 文章类型: Article,,卷期:2010年4-4]
- Low dimensional europium (Eu3+)-doped gadolinium oxide (Gd2O3) lanthanide nanostructures are synthesized by an effective and simple coprecipitation process followed by subsequent heat treatments. Transmission electron mi...
- Many-body van der Waals forces involving chains
[作者:Cole, MW; Gergidis, LN; McNutt, JP; Velegol, D; Kim, HY; Bond, ZK,期刊:JOURNAL OF NANOPHOTONICS, 页码:41560-41560 , 文章类型: Article,,卷期:2010年4-4]
- Van der Waals (VDW) forces arise from quantum mechanical fluctuations of local charge densities. Whereas computing VDW interactions between two atoms requires only 2-body interactions, by definition, computing interactio...
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