- Direct tomography with chemical-bond contrast
[作者:Huotari, S; Pylkkanen, T; Verbeni, R; Monaco, G; Hamalainen, K,期刊:NATURE MATERIALS, 页码:489-493 , 文章类型: Article,,卷期:2011年10-7]
- Three-dimensional (3D) X-ray imaging methods have advanced tremendously during recent years. Traditional tomography uses absorption as the contrast mechanism, but for many purposes its sensitivity is limited. The introdu...
- Arrays of indefinitely long uniform nanowires and nanotubes
[作者:Yaman, M; Khudiyev, T; Ozgur, E; Kanik, M; Aktas, O; Ozgur, EO; Deniz, H; Korkut, E; Bayindir, M,期刊:NATURE MATERIALS, 页码:494-501 , 文章类型: Article,,卷期:2011年10-7]
- Nanowires are arguably the most studied nanomaterial model to make functional devices and arrays(1,2). Although there is remarkable maturity in the chemical synthesis of complex nanowire structures(3,4), their integratio...
- Giant enhancement of spin accumulation and long-distance spin precession in metallic lateral spin valves
[作者:Fukuma, Y; Wang, L; Idzuchi, H; Takahashi, S; Maekawa, S; Otani, Y,期刊:NATURE MATERIALS, 页码:527-531 , 文章类型: Article,,卷期:2011年10-7]
- The non-local spin injection in lateral spin valves is strongly expected to be an effective method to generate a pure spin current for potential spintronic application. However, the spin-valve voltage, which determines t...
- Atomic layer-deposited tunnel oxide stabilizes silicon photoanodes for water oxidation
[作者:Chen, YW; Prange, JD; Duhnen, S; Park, Y; Gunji, M; Chidsey, CED; McIntyre, PC,期刊:NATURE MATERIALS, 页码:539-544 , 文章类型: Article,,卷期:2011年10-7]
- A leading approach for large-scale electrochemical energy production with minimal global-warming gas emission is to use a renewable source of electricity, such as solar energy, to oxidize water, providing the abundant so...
- Supramolecular spin valves
[作者:Urdampilleta, M; Klyatskaya, S; Cleuziou, JP; Ruben, M; Wernsdorfer, W,期刊:NATURE MATERIALS, 页码:502-506 , 文章类型: Article,,卷期:2011年10-7]
- Magnetic molecules are potential building blocks for the design of spintronic devices(1,2). Moreover, molecular materials enable the combination of bottom-up processing techniques, for example with conventional top-down ...
|