Closing the Gap for Electronic Short-Circuiting: Photosystem I Mixed Monolayers Enable Improved Anisotropic Electron Flow in Biophotovoltaic Devices

Wang Panpan; Frank Anna; Zhao Fangyuan; Szczesny Julian; Junqueira Joao R. C.; Zacarias Sonia; Ruff Adrian; Nowaczyk Marc M.; Pereira Ines A. C.; Roegner Matthias; Conzuelo Felipe; Schuhmann Wolfgang

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Closing the Gap for Electronic Short-Circuiting: Photosystem I Mixed Monolayers Enable Improved Anisotropic Electron Flow in Biophotovoltaic Devices

机译：关闭电子短路的差距：光系统I混合单层使能改善生物光伏器件的各向异性电子流动

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Well-defined assemblies of photosynthetic protein complexes are required for an optimal performance of semi-artificial energy conversion devices, capable of providing unidirectional electron flow when light-harvesting proteins are interfaced with electrode surfaces. We present mixed photosystem I (PSI) monolayers constituted of native cyanobacterial PSI trimers in combination with isolated PSI monomers from the same organism. The resulting compact arrangement ensures a high density of photoactive protein complexes per unit area, providing the basis to effectively minimize short-circuiting processes that typically limit the performance of PSI-based bioelectrodes. The PSI film is further interfaced with redox polymers for optimal electron transfer, enabling highly efficient light-induced photocurrent generation. Coupling of the photocathode with a [NiFeSe]-hydrogenase confirms the possibility to realize light-induced H-2 evolution.

机译：半人工能量转换装置的最佳性能需要定义良好的光合蛋白复合物组件，当采光蛋白与电极表面连接时，能够提供单向电子流。我们提出了混合光系统I（PSI）单分子膜，由天然蓝藻PSI三聚体与来自同一生物体的分离PSI单体组成。由此产生的紧凑排列确保了单位面积上高密度的光活性蛋白质复合物，为有效地最小化短路过程提供了基础，短路过程通常会限制基于PSI的生物电极的性能。PSI薄膜进一步与氧化还原聚合物连接，以实现最佳电子转移，从而实现高效的光诱导光电流产生。光阴极与[NiFeSe]氢化酶的耦合证实了实现光诱导H-2进化的可能性。

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《Angewandte Chemie》 |2021年第4期|共7页
作者
Wang Panpan; Frank Anna; Zhao Fangyuan; Szczesny Julian; Junqueira Joao R. C.; Zacarias Sonia; Ruff Adrian; Nowaczyk Marc M.; Pereira Ines A. C.; Roegner Matthias; Conzuelo Felipe; Schuhmann Wolfgang;
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作者单位

Ruhr Univ Bochum Fac Chem &

Biochem Analyt Chem Ctr Electrochem Elect Sci CES Univ Str 150 D-44780 Bochum Germany;

Ruhr Univ Bochum Fac Biol &

Biotechnol Plant Biochem Univ Str 150 D-44780 Bochum Germany;

Ruhr Univ Bochum Fac Chem &

Biochem Analyt Chem Ctr Electrochem Elect Sci CES Univ Str 150 D-44780 Bochum Germany;

Ruhr Univ Bochum Fac Chem &

Biochem Analyt Chem Ctr Electrochem Elect Sci CES Univ Str 150 D-44780 Bochum Germany;

Ruhr Univ Bochum Fac Chem &

Biochem Analyt Chem Ctr Electrochem Elect Sci CES Univ Str 150 D-44780 Bochum Germany;

Univ Nova Lisboa Inst Tecnol Quim &

Biol Antonio Xavier P-2780157 Oeiras Portugal;

Ruhr Univ Bochum Fac Chem &

Biochem Analyt Chem Ctr Electrochem Elect Sci CES Univ Str 150 D-44780 Bochum Germany;

Ruhr Univ Bochum Fac Biol &

Biotechnol Plant Biochem Univ Str 150 D-44780 Bochum Germany;

Univ Nova Lisboa Inst Tecnol Quim &

Biol Antonio Xavier P-2780157 Oeiras Portugal;

Ruhr Univ Bochum Fac Biol &

Biotechnol Plant Biochem Univ Str 150 D-44780 Bochum Germany;

Ruhr Univ Bochum Fac Chem &

Biochem Analyt Chem Ctr Electrochem Elect Sci CES Univ Str 150 D-44780 Bochum Germany;

Ruhr Univ Bochum Fac Chem &

Biochem Analyt Chem Ctr Electrochem Elect Sci CES Univ Str 150 D-44780 Bochum Germany;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
Biophotovoltaics; Electrochemistry; Langmuiramp; 8211; Blodgett films; Photosystemamp; 8197; I; Redox polymers;

机译：生物光电;电化学;朗缪尔;8211;布洛杰特电影;光系统&8197;我氧化还原聚合物;

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1. A photosystem I monolayer with anisotropic electron flow enables Z-scheme like photosynthetic water splitting [J] . Zhao Fangyuan, Wang Panpan, Ruff Adrian, Energy & environmental science . 2019,第10期

机译：具有各向异性电子流的光系统I单层使Z方案像光合水分解一样
2. Biophotovoltaics: Orientation and Incorporation of Photosystem I in Bioelectronics Devices Enabled by Phage Display (Adv. Sci. 5/2017) [J] . Jeremy J. Austin, Barbara Horváth, Avishek Paul, Advanced Science . 2017,第5期

机译：生物光伏：通过噬菌体展示实现光电子系统I在生物电子设备中的定位和整合（Adv。Sci。5/2017）
3. A CNH monolayer: a direct gap 2D semiconductor with anisotropic electronic and optical properties [J] . Yi Wen-cai, Hu Tao, Su Tan, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2017,第33期

机译：CNH Monolayer：具有各向异性电子和光学性能的直接间隙2D半导体
4. Mixed Ionic Electronic Conductors for Improved Charge Transport in Electrotherapeutic Devices [C] . Krenar Shqau, Amy Heintz Design of Medical Devices Conference . 2017

机译：混合离子电子导体，用于改进电动检测装置的电荷输送
5. Biophotovoltaics: Orientation and Incorporation of Photosystem I in Bioelectronics Devices Enabled by Phage Display (Adv. Sci. 5/2017) [O] . Pavlo Gordiichuk, Diego Pesce, Olga E. Castañeda Ocampo, 2017

机译：生物光伏：通过噬菌体展示实现光电子系统I在生物电子设备中的定位和整合（Adv。Sci。5/2017）
6. Tuning Rectification Properties of Molecular Electronic Devices by Mixed Monolayer [O] . Ziyan Wang, Hira Khalid, Baili Li, 2019

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7. Identifying the Electronic Properties Relevant to Improving the Performance of High Band-Gap Copper Based I-III-VI(sub 2) Chalcopyrite Thin Film Photovoltaic Devices. Final Subcontract Report 27 April 2004 - 15 September 2007 [R] . 2008

机译：确定与提高高带隙铜基I-III-VI（sub 2）黄铜矿薄膜光伏器件性能有关的电子特性。最终分包合同报告2004年4月27日至2007年9月15日

Closing the Gap for Electronic Short-Circuiting: Photosystem I Mixed Monolayers Enable Improved Anisotropic Electron Flow in Biophotovoltaic Devices

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