An overview of hydrogen production: current status, potential, and challenges
Hydrogen as an energy carrier can provide a long term solution to the problem of
sustainable supply of cleaner and environmentally friendly fuel. Hydrogen finds extensive …
sustainable supply of cleaner and environmentally friendly fuel. Hydrogen finds extensive …
Biofuel production from microalgae: challenges and chances
The inherent capability and increased efficiency of microalgae to convert sunlight into solar
chemical energy are further enhanced by the higher amount of oils stored in microalgae …
chemical energy are further enhanced by the higher amount of oils stored in microalgae …
Biohydrogen production from biomass sources: metabolic pathways and economic analysis
The commercialization of hydrogen as a fuel faces severe technological, economic, and
environmental challenges. As a method to overcome these challenges, microalgal …
environmental challenges. As a method to overcome these challenges, microalgal …
Amorphous nickel–iron borophosphate for a robust and efficient oxygen evolution reaction
Borophosphate materials are promising electrocatalysts for water splitting. Their structural
flexibility enable self‐adjusting of electronic structure depending on potential. The rich …
flexibility enable self‐adjusting of electronic structure depending on potential. The rich …
Application of modern approaches to the synthesis of biohydrogen from organic waste
Hydrogen production with the use of biological processes and renewable feedstock may be
considered an economical and sustainable alternative fuel. The high calorific value and zero …
considered an economical and sustainable alternative fuel. The high calorific value and zero …
A review on self-sustainable microbial electrolysis cells for electro-biohydrogen production via coupling with carbon-neutral renewable energy technologies
Microbial electrolysis cell (MEC) technology is a promising bioelectrochemical hydrogen
production technology that utilizes anodic bio-catalytic oxidation and cathodic reduction …
production technology that utilizes anodic bio-catalytic oxidation and cathodic reduction …
[HTML][HTML] Addressing scale-up challenges and enhancement in performance of hydrogen-producing microbial electrolysis cell through electrode modifications
Bioelectrohydrogenesis using a microbial electrolysis cell (MEC) is a promising technology
for simultaneous hydrogen production and wastewater treatment which uses electrogenic …
for simultaneous hydrogen production and wastewater treatment which uses electrogenic …
Microbial electrolysis cell (MEC): Strengths, weaknesses and research needs from electrochemical engineering standpoint
R Rousseau, L Etcheverry, E Roubaud, R Basséguy… - Applied Energy, 2020 - Elsevier
Microbial electrolysis cells (MECs) produce hydrogen at the cathode associated with the
oxidation of organic matter at the anode. This technology can produce hydrogen by …
oxidation of organic matter at the anode. This technology can produce hydrogen by …
Biological production of hydrogen: From basic principles to the latest advances in process improvement
AA Ivanenko, AA Laikova, EA Zhuravleva… - International Journal of …, 2024 - Elsevier
The development of net-zero emission fuels is a priority area of modern research due to the
imminent reduction of fossil fuel reserves and environmental problems caused by their …
imminent reduction of fossil fuel reserves and environmental problems caused by their …
Biohydrogen production, storage, and delivery: A comprehensive overview of current strategies and limitations
The development of biohydrogen is crucial for achieving a sustainable and eco-friendly
society and reducing dependence on traditional fossil fuels. Biohydrogen production …
society and reducing dependence on traditional fossil fuels. Biohydrogen production …