Generating Electric Current by Bioartificial Photosynthesis

Halan, Babu; Tschörtner, Jenny; Schmid, Andreas

doi:10.1007/10_2017_44

Cited by 3 publications

(2 citation statements)

References 86 publications

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“…Weather factors are one of the main factors that can influence bioelectricity generation in cold regions. The bacterical activities are reduced during the lower temperature, and hence, the bioelectricity amount was also reduced [63].…”

Section: Types Of Plants Used In Pmfc Researchmentioning

confidence: 99%

Plant Microbial Fuel Cell

Azizul Moqsud

2024

Revolutionizing Energy Conversion - Photoelectrochemical Technologies and Their Role in Sustainability

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Living plants can generate electricity with the help of the microbial fuel cell. This is a sustainable way to generate electricity as there is no chance of environmental pollution. In this chapter, plant microbial fuel cells will be discussed thoroughly including their design and mechanism for sustainable power generation through plant microbial fuel cells. This plant microbial fuel cell can provide the necessary bioenergy and the potential food supply at the same time. If we could get green energy and food together, then it would certainly increase the chance of the probable supply of the two important demands of the world, which are shortages of green energy and food for humanity.

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Section: Types Of Plants Used In Pmfc Researchmentioning

confidence: 99%

Plant Microbial Fuel Cell

Azizul Moqsud

2024

Revolutionizing Energy Conversion - Photoelectrochemical Technologies and Their Role in Sustainability

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“…With increasing concerns about fossil fuel consumption and energy demand, the development and utilization of novel renewable energy sources are imminent and have become a research hotspot. Recently, extensive efforts have been made to develop photosynthetic bioelectrochemical cells (PBEC) that imitate photosynthesis, or directly utilize photosynthetic organisms to generate electricity or bioelectronic sensing. − Photosynthetic bioelectrochemical cell usually consist of a photoanode and a biocathode. At the photoanode, photosynthetic organisms undergo light-dependent reaction and split water into oxygen, protons, and electrons, which are captured by electrode.…”

Section: Introductionmentioning

confidence: 99%

Conjugated Polymer Enhanced Photoelectric Response of Self-Circulating Photosynthetic Bioelectrochemical Cell

Zhou

Gai

Sun

et al. 2019

ACS Appl. Mater. Interfaces

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A water–oxygen–water photosynthetic bioelectrochemical cell (PBEC) comprising hybrid poly(fluorene-alt-phenylene) (PFP)/PSII-enriched membranes (BBY) photoanode and bilirubin oxidase (BOD) biocathode has been designed and fabricated. In the PBEC, water is split into oxygen, protons, and electrons through light-dependent reaction of PSII at the photoanode, and oxygen is converted into water catalyzed by BOD at the biocathode, forming the electronic circuit and generating current. At the photoanode, PFP can simultaneously accelerate the photosynthetic water oxidation and the electron transfer between BBY and electrode. Interestingly, the photocurrent density produced by PBEC after the introduction of PFP reaches 1.05 ± 0.01 μA/cm2, which is 2.5 times more than that of the BBY electrode, indicating that conjugated polymer can enhance the photoelectric response of PBEC.

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Electrification of Biotechnology: Quo Vadis?

Holtmann

2018

Bioelectrosynthesis

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Generating Electric Current by Bioartificial Photosynthesis

Cited by 3 publications

References 86 publications

Plant Microbial Fuel Cell

Plant Microbial Fuel Cell

Conjugated Polymer Enhanced Photoelectric Response of Self-Circulating Photosynthetic Bioelectrochemical Cell

Electrification of Biotechnology: Quo Vadis?

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