Add to ORKGNatural photosynthesis harnesses solar energy to convert CO2 and water to value-added chemical products for sustaining life. We present a hybrid bioinorganic approach to solar-to-chemical conversion in which sustainable electrical and/or solar input drives production of hydrogen from water splitting using biocompatible inorganic catalysts. The hydrogen is then used by living cells as a source of reducing equivalents for conversion of CO2 to the value-added chemical product methane. Using platinum or an earth-abundant substitute, α-NiS, as biocompatible hydrogen evolution reaction (HER) electrocatalysts and Methanosarcina barkeri as a biocatalyst for CO2 fixation, we demonstrate robust and efficient electrochemical CO2 to CH4 conversion at u...
Photovoltaic cells have considerable potential to satisfy future renewable-energy needs, but efficie...
Solar-driven bioelectrosynthesis represents a promising approach for converting abundant resources i...
Krassen H, Schwarze A, Friedrich B, Ataka K, Lenz O, Heberle J. Photosynthetic Hydrogen Production b...
The development of sustainable synthesis methods for societally important chemical products which se...
Abstract The biological reduction of CO2 driven by sunlight via photosynthesis is a crucial process ...
Solar energy is the largest energy source on Earth. In contrast to the limited and greenhouse gases‐...
Environmental challenges associated with rising atmospheric CO2 concentrations and the promise of CO...
This review discusses the progress in the assembly of photosynthetic biohybrid systems using enzymes...
Photosynthesis is performed by a multitude of organisms, but in P nearly all cases, it is variations...
Photosynthetic semiconductor biohybrids integrate the best attributes of biological whole-cell catal...
The development of energy converting devices, which are able to light induced split water into hydro...
Due to greenhouse gas emissions, CO2 capture and utilization (CCU) technologies are being immensely ...
This book discusses the basic principles and processes of solar energy conversion in natural photosy...
The conversion of CO2 to value-added products powered with solar energy is an ideal solution to esta...
Future global needs for liquid energy carriers, commodity chemicals and renewable materials should n...
Photovoltaic cells have considerable potential to satisfy future renewable-energy needs, but efficie...
Solar-driven bioelectrosynthesis represents a promising approach for converting abundant resources i...
Krassen H, Schwarze A, Friedrich B, Ataka K, Lenz O, Heberle J. Photosynthetic Hydrogen Production b...
The development of sustainable synthesis methods for societally important chemical products which se...
Abstract The biological reduction of CO2 driven by sunlight via photosynthesis is a crucial process ...
Solar energy is the largest energy source on Earth. In contrast to the limited and greenhouse gases‐...
Environmental challenges associated with rising atmospheric CO2 concentrations and the promise of CO...
This review discusses the progress in the assembly of photosynthetic biohybrid systems using enzymes...
Photosynthesis is performed by a multitude of organisms, but in P nearly all cases, it is variations...
Photosynthetic semiconductor biohybrids integrate the best attributes of biological whole-cell catal...
The development of energy converting devices, which are able to light induced split water into hydro...
Due to greenhouse gas emissions, CO2 capture and utilization (CCU) technologies are being immensely ...
This book discusses the basic principles and processes of solar energy conversion in natural photosy...
The conversion of CO2 to value-added products powered with solar energy is an ideal solution to esta...
Future global needs for liquid energy carriers, commodity chemicals and renewable materials should n...
Photovoltaic cells have considerable potential to satisfy future renewable-energy needs, but efficie...
Solar-driven bioelectrosynthesis represents a promising approach for converting abundant resources i...
Krassen H, Schwarze A, Friedrich B, Ataka K, Lenz O, Heberle J. Photosynthetic Hydrogen Production b...