Harnessing photosynthesis to produce electricity using cyanobacteria, green algae, seaweeds and plants
The conversion of solar energy into electrical current by photosynthetic organisms has the
potential to produce clean energy. Life on earth depends on photosynthesis, the major …
potential to produce clean energy. Life on earth depends on photosynthesis, the major …
Metabolic systems biology and multi-omics of cyanobacteria: Perspectives and future directions
Cyanobacteria are oxygenic photoautotrophs whose metabolism contains key biochemical
pathways to fix atmospheric CO 2 and synthesize various metabolites. The development of …
pathways to fix atmospheric CO 2 and synthesize various metabolites. The development of …
Regulatory-systemic approach in Aspergillus niger for bioleaching improvement by controlling precipitation
In the context of e-waste recycling by fungal bioleaching, nickel and cobalt precipitate as
toxic metals by oxalic acid, whereas organic acids, such as citric, act as a high-performance …
toxic metals by oxalic acid, whereas organic acids, such as citric, act as a high-performance …
Interactions between Microcystis and its associated bacterial community on electron transfer and transcriptomic processes
W Wang, Y Sheng - Science of The Total Environment, 2024 - Elsevier
Microcystis and bacteria always live together in the mucilage of Microcystis colonies.
Extracellular electrons between Microcystis and bacteria can be translated from bioenergy to …
Extracellular electrons between Microcystis and bacteria can be translated from bioenergy to …
Cyanobacterial biofilms: from natural systems to applications
M Bozan, H Berreth, P Lindberg, K Bühler - Trends in Biotechnology, 2024 - cell.com
Cyanobacteria are the ancestors of oxygenic photosynthesis. Fueled by light and water, their
ability to reduce CO 2 to sugar holds potential for carbon-neutral production processes. Due …
ability to reduce CO 2 to sugar holds potential for carbon-neutral production processes. Due …
Metabolic regulation boosts bioelectricity generation in Zymomonas mobilis microbial fuel cell, surpassing ethanol production
H Ahmadpanah, E Motamedian, MM Mardanpour - Scientific Reports, 2023 - nature.com
Abstract Zymomonas mobilis (Z. mobilis), a bacterium known for its ethanol production
capabilities, can also generate electricity by transitioning from ethanol production to electron …
capabilities, can also generate electricity by transitioning from ethanol production to electron …
Single microbe photoelectrochemical device using scanning electrochemical microscopy
AK Samuel, S Shinde, A Palaniappan… - Journal of Materials …, 2025 - pubs.rsc.org
Cyanobacteria are known for their efficient oxygenic photosynthesis, capturing solar energy
to produce oxygen and organic compounds under various light conditions. In this work, we …
to produce oxygen and organic compounds under various light conditions. In this work, we …
微藻光驱固碳合成技术的发展现状与未来展望
崔金玉, 张爱娣, 栾国栋, 吕雪峰 - 合成生物学, 2022 - synbioj.cip.com.cn
发展CO 2 的高效资源化利用技术可同时缓解迫切的环境和能源压力, 是实现“双碳”
目标的重要途径. 微藻是重要的光合固碳微生物, 是生物圈初级生产力的主要来源 …
目标的重要途径. 微藻是重要的光合固碳微生物, 是生物圈初级生产力的主要来源 …
[HTML][HTML] Molecular dynamics of photosynthetic electron flow in a biophotovoltaic system
J Yuan, J Appel, K Gutekunst, B Lai… - Environmental Science and …, 2024 - Elsevier
Biophotovoltaics (BPV) represents an innovative biohybrid technology that couples
electrochemistry with oxygenic photosynthetic microbes to harness solar energy and convert …
electrochemistry with oxygenic photosynthetic microbes to harness solar energy and convert …
Engineering microalgae for photosynthetic biosynthesis: progress and prospect
J CUI, A ZHANG, G LUAN, X LYU - Synthetic Biology Journal, 2022 - synbioj.cip.com.cn
The development of highly efficient CO 2 utilization technologies can alleviate the urgent
pressure on the environment and energy, playing a vital role in achieving the goal of “carbon …
pressure on the environment and energy, playing a vital role in achieving the goal of “carbon …