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

<div>Tempo-oxidized cellulose nanofibril paper modified with polysiloxanes (a–c). The polysiloxane fibres transform the nanopaper into a superhydrophobic surface (d). The cellulose nanopaper is transparent and presents high haze and was used to optimize the performance of a solar cell (e). Reproduced from reference [<a href="/journals/ijp/2019/3057929/#B47">47</a>] with permission from the American Chemical Society.</div>

International Journal of Photoenergy

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Figure 11: Recent Advances on Renewable and Biodegradable Cellulose Nanopaper Substrates for Transparent Light-Harvesting Devices: Interaction with Humid Environment 

Figure 11 | Recent Advances on Renewable and Biodegradable Cellulose Nanopaper Substrates for Transparent Light-Harvesting Devices: Interaction with Humid Environment 