Department of Physics, Chalmers University of Technology, 412 96 Göteborg, Sweden.
Nanoscale. 2018 Nov 15;10(44):20533-20539. doi: 10.1039/c8nr03751e.
We demonstrate the transfer of arrays of nanofabricated noble metal and alloy nanostructures obtained by high-temperature annealing on a flat parent support onto optical fibers, to create a hysteresis-free fiber optic nanoplasmonic hydrogen sensor. This work enables the integration of complex nanofabricated structures and their arrangements in tailored arrays with fiber optics to realize optical sensors, which will find application in a wide range of disciplines.
我们展示了通过高温退火在平坦母衬底上获得的纳米制造贵金属和合金纳米结构阵列转移到光纤上,从而创建无滞后光纤纳米等离子体氢传感器。这项工作使复杂的纳米制造结构及其在定制阵列中的排列与光纤集成成为可能,以实现光学传感器,这些传感器将在广泛的领域得到应用。
