- Ballistic Conductance in Oxidized Si Nanowires
[作者:Fagas, G; Greer, JC,期刊:Nano Letters, 页码:1856-1860 , 文章类型: Letter,,卷期:2009年9-5]
- The influence of local oxidation in silicon nanowires on hole transport, and hence the effect of varying the oxidation state of silicon atoms at the wire surface, is studied using density functional theory in conjunction...
- Current-Phase Relationship, Thermal and Quantum Phase Slips in Superconducting Nanowires Made on a Scaffold Created Using Adhesive Tape
[作者:Bae, MH; Dinsmore, RC; Aref, T; Brenner, M; Bezryadin, A,期刊:Nano Letters, 页码:1889-1896 , 文章类型: Letter,,卷期:2009年9-5]
- Quantum phase slippage (QPS) in a superconducting nanowire is a new candidate for developing a quantum bit [Mooij et al. New J. Phys. 2005, 7, 219; Mooij et al. Nat Phys. 2006, 2,169; Khlebnikov http://arxiv.org/abs/quan...
- Mediating Tumor Targeting Efficiency of Nanoparticles Through Design
[作者:Perrault, SD; Walkey, C; Jennings, T; Fischer, HC; Chan, WCW,期刊:Nano Letters, 页码:1909-1915 , 文章类型: Letter,,卷期:2009年9-5]
- Here we systematically examined the effect of nanoparticle size (10-100 nm) and surface chemistry (i.e., poly(ethylene glycol)) on passive targeting of tumors in vivo. We found that the physical and chemical properties o...
- Squeezing Ionic Liquids through Nanopores
[作者:Davenport, M; Rodriguez, A; Shea, KJ; Siwy, ZS,期刊:Nano Letters, 页码:2125-2128 , 文章类型: Letter,,卷期:2009年9-5]
- Room temperature ionic liquids (RTILs) are substances composed entirely of ions and are liquids at or below 100 degrees C. Ionic conductivity of RTIL is one of the most important physical properties of these unique subst...
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