Dr. Yaochen Lin Profile

Dr. Yaochen Lin

at Univ de Strasbourg

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Publications (4)

Proceedings Article | 18 June 2024 Poster + Paper

Managing residual ions in photovoltaic spatial light modulators

T. Ducatel, Y. Zhong, Y. Lin, S. Fall, T. Heiser

Proceedings Volume 13016, 130160P (2024) https://doi.org/10.1117/12.3022197

KEYWORDS: Electrical conductivity, Ions, Liquid crystals, Electrodes, Light valves, Interfaces, Electric fields, Dielectrics, Semiconductors

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Proceedings Article | 18 June 2024 Presentation

Photovoltaic spatial light modulators: material selection and processing to enhance device performance

Thomas Heiser, Yuhan Zhong, Sadiara Fall, Yaochen Lin, Martin Brinkmann, Nicolas Brouckaert, Malgosia Kaczmarek, Nicolas Leclerc, Elise Jouaiti, Thomas Ducatel

Proceedings Volume PC13016, PC130160N (2024) https://doi.org/10.1117/12.3021862

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Proceedings Article | 30 May 2022 Presentation

Photovoltaic spatial light modulators for self-powered smart windows

Yuhan Zhong, Jing Wang, Sadiara Fall, Yaochen Lin, Nicolas Brouckaert, Chaima Mahmoudi, Wenziz Muzuzu, Nicolas Leclerc, Malgosia Kaczmarek, Martin Brinkmann, Thomas Heiser

Proceedings Volume PC12149, PC121490M (2022) https://doi.org/10.1117/12.2622197

KEYWORDS: Photovoltaics, Transmittance, Liquid crystals, Heterojunctions, Sun, Molecules, Solar cells, Optical properties, Modulators, Transparency

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Photovoltaic spatial light modulators form a new class of dynamic glazing that could be of interest to smart windows applications. The structure of the modulators includes a twisted nematic liquid crystal layer and an organic donor-acceptor bulk heterojunction. The latter is in contact with the liquid crystal and is used as a molecular alignment layer. In addition, under illumination, the bulk heterojunction generates an electric field that can be strong enough to orient the liquid crystal molecules homeotropically and change the device optical transmittance, without requiring an external power source. The transmittance of this hybrid device adjusts spontaneously to ambient light within less than a second, with a sensitivity that can be tuned by a passive resistor. While this unique combination of features is desirable for smart windows, the device maximum transmittance in the clear state is currently limiting the possible scope of application. In this contribution, we will firstly present the detailed structure, elaboration procedure and optical properties of a first generation of photovoltaic spatial light modulators that are based on commercially available polymer:fullerene blends and liquid crystals. The physical mechanism underlying the device operation will be demonstrated by crossed-polarizer intensity measurements as a function of incident light intensity and applied voltages. Furthermore, the time-dependent transmittance of a device that is exposed to a pulsed light source will be presented in order to assess its response time and reversibility. In the second part we will describe various routes that we are following to improve the device optical properties in terms of maximum transmittance and sensitivity to ambient light. In particular, a new high band-gap semiconducting molecule that has been designed to achieve a highly transparent bulk heterojunction layer and increase the photo-induced electric field will be presented and its utilization in photovoltaic spatial light modulators will be shown.

Proceedings Article | 1 August 2021 Presentation

Self-powered photovoltaic liquid crystal light modulators (SP-PSLM)

Sadiara Fall, Nicolas Brouckaert, Yaochen Lin, Nina Podoliak, Malgosia Kaczmarek, Giampaolo D'Alessandro, Mohammed Ibn Elhaj, Lachezar Komitov, Thomas Heiser

Proceedings Volume 11807, 118070A (2021) https://doi.org/10.1117/12.2594240

KEYWORDS: Liquid crystals, Photovoltaics, Modulators, Transmittance, Measurement devices, Tandem solar cells, Solar energy, Power supplies, Polarizers, Photonic crystals

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