Photothermal energy conversion in plasmonic nanoantennas as a new path for the local growth of ZnO in nanophotonic devices

机译：等离子体纳米环中的光热能量转化为纳米辐射器件ZnO局部生长的新路径

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In this work, we explore a new bottom-up approach based on plasmon-assisted hydrothermal synthesis (PAHS) to achieve localized growth of zinc oxide (ZnO) in hybrid nanophotonic devices. By engineering gold nanogap antennas, we achieve efficient control over the localization and enhancement of both the electric field and the generated heat. A nanobutterfly antenna is designed to achieve both polarization-dependent heat localization and localized electric field enhancement. A few-nm-thick ZnO layer is grown at the targeted location of the nanogap antenna thanks to selective plasmonic heating. We also numerically study the back-action induced by the material synthesis on the heat generated by the antenna and show how PAHS can be used as a self-limited growth method. The PAHS method opens new perspectives for the design and fabrication of hybrid nanophotonic devices.

机译：在这项工作中，我们探讨了基于等离子体辅助水热合成（PAHS）的新的自下而上方法，以实现杂交纳米光电装置中的氧化锌（ZnO）的局部生长。通过工程金纳球图天线，我们可以高效地控制本地化和增强电场和产生的热量。纳米骨灰天线设计用于实现偏振依赖性的热定位和局部电场增强。由于选择性等离子体加热，在纳米盖天线的目标位置生长了几NM厚的ZnO层。我们还在数值上研究了材料合成对天线产生的热量引起的背部作用，并展示了PAHS如何用作自限流方法。 PAHS方法为混合动力纳米光电装置的设计和制造开辟了新的透视图。

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《Conference on Advanced Fabrication Technologies for Micro/Nano Optics and Photonics》|2021年|116960H.1-116960H.8|共8页
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Christophe Pin; Hideki Fujiwara; Tatsuro Suzuki; Keiji Sasaki;
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Hydrothermal synthesis; thermoplasmonics; zinc oxide; localized surface plasmon; hybrid nanoantenna; nanoscale heat source; Kapitza resistance;

机译：水热合成;热化学;氧化锌;局部表面等离子体;杂交纳米植物;纳米级热源;Kapitza抵抗;

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1. Enhancement of the power conversion efficiency for inverted organic photovoltaic devices due to the localized surface plasmonic resonant effect of Au nanoparticles embedded in ZnO nanoparticles [J] . Yong Hun Lee, Dae Hun Kim, Dea Uk Lee, Applied physics express . 2015,第7期

机译：由于嵌入在ZnO纳米颗粒中的Au纳米颗粒的局部表面等离子体共振效应，提高了反向有机光伏器件的功率转换效率
2. Hybrid Plasmonic Waveguide Fed Broadband Nanoantenna for Nanophotonic Applications [J] . Saad-Bin-Alam Md, Khalil Md Ibrahim, Rahman Atiqur, Photonics Technology Letters, IEEE . 2015,第10期

机译：用于纳米光子应用的混合等离子波导馈电宽带纳米天线
3. Nanophotonic Energy Up Conversion Using Zno Nanorod Double-quantum-well Structures [J] . T. Yatsui, S. Sangu, K. Kobayashi, Applied Physicsletters . 2009,第8期

机译：使用Zno纳米棒双量子阱结构的纳米光子能量上转换
4. Photothermal energy conversion in plasmonic nanogap antennas: Application to localized ZnO growth for nanophotonics [C] . Christophe Pin, Hideki Fujiwara, Tatsuro Suzuki, Optical Manipulation and Structured Materials Conference . 2020

机译：等离子体纳米间隙天线中的光热能转换：在纳米光子学中ZnO局部生长中的应用
5. Photothermal and Photoelectrical Energy Conversion in Plasmonic Nanostructures. [D] . Li, Wei. 2016

机译：等离子体纳米结构中的光热和光电能量转换。
6. Extreme absorption enhancement in ZnTe:O/ZnO intermediate band core-shell nanowires by interplay of dielectric resonance and plasmonic bowtie nanoantennas [O] . Kui-Ying Nie, Jing Li, Xuanhu Chen, -1

机译：ZnTe：O / ZnO中带核-壳纳米线通过介电共振和等离激元领结纳米天线的相互作用极大地增强了吸收
7. Hot Spot Effect of Optical Nanoantenna to Enhance Localized Photothermal Conversion [O] . Yatao Ren, Qin Chen, Hong Qi, 2019

机译：光学纳米尼蒽醌增强局部光热转化的热点效应
8. Novel Devices for Plasmonic and Nanophotonic Networks: Exploiting X-ray Wavelengths at Optical Frequencies. [R] . Atwater, H. A., Scherer, A., Painter, O. J., 2012

机译：用于等离子体和纳米光子网络的新型器件：利用光学频率开发X射线波长。

Photothermal energy conversion in plasmonic nanoantennas as a new path for the local growth of ZnO in nanophotonic devices

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