Modern society is fueled by fossil energy produced millions of years ago by photosynthetic organisms. Cultivating contemporary photosynthetic producers to generate energy and capture carbon from the atmosphere is one potential approach to sustaining society without disrupting the climate. Algae, photosynthetic aquatic microorganisms, are the fastest growing primary producers in the world and can therefore produce more energy with less land, water, and nutrients than terrestrial plant crops. We review recent progress and challenges in developing bioenergy technology based on algae. A variety of high-value products in addition to biofuels can be harvested from algal biomass, and these may be key to developing algal biotechnology and realizing...
The development of industry, agriculture and the transport sector is associated with the use of vari...
Biofuels derived from marine algae are a potential source of sustainable energy that can contribute ...
Large challenges remain to take advantage of algae (cyanobacteria, microalgae, and macroalgae) as a ...
Modern society is fueled by fossil energy produced millions of years ago by photosynthetic organisms...
Modern society is fueled by fossil energy produced millions of years ago by photosynthetic organisms...
Energy is the main driving force of society today that should be handled as a whole starting from pr...
Global energy use has reached unprecedented levels and increasing human population, technological in...
In recognition of the increasing demand of energy and the worsening environmental problems linked wi...
Algae biomass has enormous potential to produce fuels and value-added products. Algae-derived biofue...
The rapid growth in global energy demands has triggered the scientific community to explore new step...
Microalgae represent one of the most promising groups of candidate organisms for replacing fossil fu...
Biofuels produced by algae may provide a feasible alternative to fossil fuels like petroleum sourced...
Algae have significant potential as a renewable biofuels feedstock, but their promise is unproven at...
Photosynthesis, the mechanism responsible for O2 evolution on Earth, is also a critical instrument f...
Microalgae represent one of the most promising groups of candidate organisms for replacing fossil fu...
The development of industry, agriculture and the transport sector is associated with the use of vari...
Biofuels derived from marine algae are a potential source of sustainable energy that can contribute ...
Large challenges remain to take advantage of algae (cyanobacteria, microalgae, and macroalgae) as a ...
Modern society is fueled by fossil energy produced millions of years ago by photosynthetic organisms...
Modern society is fueled by fossil energy produced millions of years ago by photosynthetic organisms...
Energy is the main driving force of society today that should be handled as a whole starting from pr...
Global energy use has reached unprecedented levels and increasing human population, technological in...
In recognition of the increasing demand of energy and the worsening environmental problems linked wi...
Algae biomass has enormous potential to produce fuels and value-added products. Algae-derived biofue...
The rapid growth in global energy demands has triggered the scientific community to explore new step...
Microalgae represent one of the most promising groups of candidate organisms for replacing fossil fu...
Biofuels produced by algae may provide a feasible alternative to fossil fuels like petroleum sourced...
Algae have significant potential as a renewable biofuels feedstock, but their promise is unproven at...
Photosynthesis, the mechanism responsible for O2 evolution on Earth, is also a critical instrument f...
Microalgae represent one of the most promising groups of candidate organisms for replacing fossil fu...
The development of industry, agriculture and the transport sector is associated with the use of vari...
Biofuels derived from marine algae are a potential source of sustainable energy that can contribute ...
Large challenges remain to take advantage of algae (cyanobacteria, microalgae, and macroalgae) as a ...
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