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Recent Advances on Renewable and Biodegradable Cellulose Nanopaper Substrates for Transparent Light-Harvesting Devices: Interaction with Humid Environment

机译：用于透明光收集装置的可再生和可生物降解纤维素纳米铝纸基材的最新进展：与潮湿环境的相互作用

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Cellulose nanopaper (CNP) has attracted much interest during the last decade as a new fascinating renewable and biodegradable substrate for printed electronics and solar cells. Its outstanding optical and mechanical properties make CNP the ideal substrate for the preparation of photovoltaic devices, since its high transparency and haze favour the absorption of light from the active layer of the solar cell. However, some advances need to be done in the direction of increasing CNP stability in humid environment without compromising its remarkable advantages. This review critically points at these aspects, presenting an overview of state-of-art solutions to enhance nanopaper stability in a humid environment.

机译：纤维素纳米玻璃（CNP）在过去十年中引起了许多兴趣，作为印刷电子和太阳能电池的新迷人的可再生和可生物降解的基材。其出色的光学和机械性能使CNP成为制备光伏器件的理想基板，因为其高透明度和雾度有利于来自太阳能电池的有源层的光吸收。但是，需要在潮湿环境中增加CNP稳定性方向上进行一些进步，而不会影响其显着的优势。本综述在这些方面批判性点，概述了最先进的解决方案，以提高潮湿环境中的纳米锥稳定性。

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Alessandra Operamolla;
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年度 2019
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1. Recent Advances on Renewable and Biodegradable Cellulose Nanopaper Substrates for Transparent Light-Harvesting Devices: Interaction with Humid Environment [J] . International Journal of Photoenergy . 2019,第期

机译：用于透明光收集装置的可再生和可生物降解的纤维素纳米油基材的最新进展：与潮湿环境的相互作用
2. Recent Advances on Renewable and Biodegradable Cellulose Nanopaper Substrates for Transparent Light-Harvesting Devices: Interaction with Humid Environment [J] . Alessandra Operamolla International Journal of Photoenergy . 2019,第4期

机译：用于透明光收集装置的可再生和可生物降解纤维素纳米铝纸基材的最新进展：与潮湿环境的相互作用
3. Chemical Modification of Cellulose Nanofibers for the Production of Highly Thermal Resistant and Optically Transparent Nanopaper for Paper Devices [J] . Yagyu Hitomi, Saito Tsuguyuki, Isogai Akira, ACS applied materials & interfaces . 2015,第39期

机译：纤维素纳米纤维的化学改性，可生产用于纸张设备的高度耐热和光学透明的纳米纸
4. Exploring the interactions that drive the cellulose nanofiber assembly in nanopaper derived from Australian arid grass [C] . Katarzyna Kepa, Nasim Amiralian, Lisbeth Gr0ndahl, TAPPI international conference on nanotechnology for renewable materials . 2018

机译：探索驱动源自澳大利亚干旱草的纳米纸中纤维素纳米纤维组装的相互作用
5. Cellulose nanoparticles: A route from renewable resources to biodegradable nanocomposites. [D] . Takahashi, Yae. 2007

机译：纤维素纳米颗粒：从可再生资源到可生物降解的纳米复合材料的途径。
6. Anisotropic Thermal Expansion of Transparent Cellulose Nanopapers [O] . Takayuki Hirano, Kana Mitsuzawa, Shun Ishioka, 2020

机译：透明纤维素纳米纸的各向异性热膨胀
7. Foldable Electronic Devices: Highly Transparent Conducting Nanopaper for Solid State Foldable Electrochromic Devices (Small 46/2016) [O] . Wenbin Kang, Meng-Fang Lin, Jingwei Chen, 2016

机译：可折叠电子设备：用于固态可折叠电致变色器件的高度透明导电纳米锅（小型46/2016）
8. Corrosion Problems in Ti/KC1O sub 4 Loaded Devices when Subjected to Humid Environments [R] . Massis, T. M., Healey, J. T., Huskisson, D. H., 1980

机译：Ti / KC1O子4加载装置在潮湿环境下的腐蚀问题

Recent Advances on Renewable and Biodegradable Cellulose Nanopaper Substrates for Transparent Light-Harvesting Devices: Interaction with Humid Environment

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