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Photosynthetic Nanomaterial Hybrids for Bioelectricity and Renewable Energy Systems

Jin Hyoung Kim, Hyeonaug Hong, JaeHyoung Yun, Seon Il Kim, Ho Yun Jung, WonHyoung Ryu

2020Advanced Materials22 citationsDOI

Abstract

Harvesting solar energy in the form of electricity from the photosynthesis of plants, algal cells, and bacteria has been researched as the most environment-friendly renewable energy technology in the last decade. The primary challenge has been the engineering of electrochemical interfacing with photosynthetic apparatuses, organelles, or whole cells. However, with the aid of low-dimensional nanomaterials, there have been many advances, including enhanced photon absorption, increased generation of photosynthetic electrons (PEs), and more efficient transfer of PEs to electrodes. These advances have demonstrated the possibility for the technology to advance to a new level. In this article, the fundamentals of photosynthesis are introduced. How PE harvesting systems have improved concerning solar energy absorption, PE production, and PE collection by electrodes is discussed. The review focuses on how different kinds of nanomaterials are applied and function in interfacing with photosynthetic materials for enhanced PE harvesting. Finally, the review analyzes how the performance of PE harvesting and stand-alone systems have evolved so far and its future prospects.

Topics & Concepts

Renewable energyInterfacingPhotosynthesisNanotechnologyNanomaterialsMaterials scienceBiochemical engineeringSolar energyEnvironmental scienceComputer scienceElectrical engineeringEngineeringBotanyBiologyComputer hardwareElectrocatalysts for Energy ConversionQuantum Dots Synthesis And PropertiesSupercapacitor Materials and Fabrication