Photon‐ and Charge‐Management in Advanced Energy Materials: Combining 0D, 1D, and 2D Nanocarbons as well as Bulk Semiconductors with Organic Chromophores,Advanced Energy Materials

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Photon‐ and Charge‐Management in Advanced Energy Materials: Combining 0D, 1D, and 2D Nanocarbons as well as Bulk Semiconductors with Organic Chromophores
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2020-11-30 , DOI: 10.1002/aenm.202002831
Alejandro Cadranel _{1,

2,

3} , Philipp Haines ₁ , Ramandeep Kaur ₁ , Arjun Menon ₁ , Peter W. Münich ₁ , Peter R. Schol ₁ , Dirk M. Guldi ₁

Affiliation

In this contribution, seminal works in the area of photon‐ and charge‐management are highlighted with focus on covalent electron donor‐acceptor conjugates built around porphyrins (Ps), on one hand, and 0D, 1D, and 2D nanocarbons, on the other hand. Photons in these conjugates are managed by Ps, while 0D, 1D, and 2D nanocarbons serve as the active component, which enable managing charges. With a few leading examples, it can be explored much beyond the simple photon‐ and charge‐management characterization and emphasize photovoltaics and photocatalysis to convert and store energy. This contribution concludes by highlighting recent progress in mixing and matching the unique charge‐management features of nanocarbons in the design of multidimensional nanocarbons.

中文翻译：

先进能源材料中的光子和电荷管理：将0D，1D和2D纳米碳以及大分子半导体与有机发色团结合在一起

在这项贡献中，着重强调了光子和电荷管理领域的开创性工作，着重于围绕卟啉（Ps）以及另一方面围绕0D，1D和2D纳米碳构建的共价电子供体-受体共轭物。手。这些共轭物中的光子由Ps管理，而0D，1D和2D纳米碳充当活性成分，可实现电荷管理。举几个主要的例子，除了简单的光子和电荷管理特性之外，还可以探索它的更多内容，并强调光伏和光催化来转换和存储能量。最后，通过突出多维纳米碳设计中混合和匹配纳米碳独特的电荷管理功能方面的最新进展来做出此贡献。

更新日期：2021-01-27

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