斯特拉诺小组首次在光伏组件中植入了两层具有不同电特性的纳米管结构的纤维——这些纤维具有不同的特性和禁带结构。
Strano's team built, for the first time, a fiber made of two layers of nanotubes with different electrical properties — specifically, different bandgaps.
斯特拉诺表示,由于各个纳米管很细微,可以大批量地生产,给较大的设备供应相当数量的电力。
And while the individual nanowires are tiny, Strano suggests that they could be made in large arrays to supply significant amounts of power for larger devices.
这里有纳米技术,绿色能源和欧洲同步辐射中心(上图),格勒诺布尔高等管理学院也在这儿。
This includes nanotechnology, green energy and the European Synchotron Radiation Facility (pictured above). A business school, the Grenoble Ecole de Management, is also part on site.
伊利诺伊大学的研究者们先在阴极表面镀上聚苯乙烯小球构成的镀层,这些小球只有几百个纳米大小。
The Illinois researchers made their electrode by coating a surface with tiny polystyrene spheres just a few hundred nanometers across, packing the spheres together into a regular lattice structure.
斯特拉诺小组现在正致力于研究如何将激子从纳米纤维的一层游弋到另一层时所带来的能量损失降到最小,和如何能够使一个光子可以激发不止一对激子。
Strano's team is now working on ways to minimize the energy lost as excitons flow through the fiber, and on ways to generate more than one exciton per photon.
斯特拉诺小组开发的太阳能电池通过纳米天线结构将进入太阳能电池的光子束缚在纳米烟囱中,大大增加了可以被捕获并将光能转化为电能的光子数量。
Strano's nanotube antenna boosts the number of photons that can be captured and transforms the light into energy that can be funneled into a solar cell.
斯特拉诺小组开发的太阳能电池通过纳米天线结构将进入太阳能电池的光子束缚在纳米烟囱中,大大增加了可以被捕获并将光能转化为电能的光子数量。
Strano's nanotube antenna boosts the number of photons that can be captured and transforms the light into energy that can be funneled into a solar cell.
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