Chemical reducing agents (sodium dithionite) or bioglycerol (as H and e−-donor under irradiation in the presence of ZnS-A as photocatalyst) are able to back-convert NADP+ into NADPH, which is used as e−-donor in the enzymatic reduction of CO_{2} into CH_{3}OH. In doing so, the molar ratio CH_{3}OH/CO_{2} has been increased (without recycling of NADP+) using the photocatalyst
Heterogeneous biocatalytic hydrogenation is an attractive strategy for clean, enantioselective C=X r...
Abstract The biological reduction of CO2 driven by sunlight via photosynthesis is a crucial process ...
This review surveys advances in the literature that impact organic sacrificial electron donor recycl...
Chemical reducing agents (sodium dithionite) or bioglycerol (as H and e−-donor under irradiation in ...
A hybrid enzymatic/photocatalytic approach for the conversion of CO2 into methanol is described. For...
The need to decrease the concentration of CO2 in the atmosphere has led to the search for strategies...
CO2 can be converted into methanol, through the intermediate steps of reduction to formic acid and f...
NADH is a required cofactor for enzymatic hydrogenation of CO2 to methanol, but the high costs of NA...
This chapter deals with selected aspects of man-made solar-driven photoreduction of CO2. In particul...
We present the photoelectrochemical (PEC) regeneration of nicotinamide cofactors (NADH) coupled with...
*S Supporting Information ABSTRACT: A hybrid for the visible-light-driven photo-catalytic reduction ...
Solar-driven photocatalytic regeneration of cofactors, including reduced nicotinamide adenine dinucl...
In this study, an enzymatic pathway has been developed to replicate the Calvin Cycle by creating the...
A novel system for in situ regeneration of reduced nicotinamide cofactors (NADH) is proposed: throug...
Asymmetric reductions are used to produce chiral molecules, which are important precursors for the p...
Heterogeneous biocatalytic hydrogenation is an attractive strategy for clean, enantioselective C=X r...
Abstract The biological reduction of CO2 driven by sunlight via photosynthesis is a crucial process ...
This review surveys advances in the literature that impact organic sacrificial electron donor recycl...
Chemical reducing agents (sodium dithionite) or bioglycerol (as H and e−-donor under irradiation in ...
A hybrid enzymatic/photocatalytic approach for the conversion of CO2 into methanol is described. For...
The need to decrease the concentration of CO2 in the atmosphere has led to the search for strategies...
CO2 can be converted into methanol, through the intermediate steps of reduction to formic acid and f...
NADH is a required cofactor for enzymatic hydrogenation of CO2 to methanol, but the high costs of NA...
This chapter deals with selected aspects of man-made solar-driven photoreduction of CO2. In particul...
We present the photoelectrochemical (PEC) regeneration of nicotinamide cofactors (NADH) coupled with...
*S Supporting Information ABSTRACT: A hybrid for the visible-light-driven photo-catalytic reduction ...
Solar-driven photocatalytic regeneration of cofactors, including reduced nicotinamide adenine dinucl...
In this study, an enzymatic pathway has been developed to replicate the Calvin Cycle by creating the...
A novel system for in situ regeneration of reduced nicotinamide cofactors (NADH) is proposed: throug...
Asymmetric reductions are used to produce chiral molecules, which are important precursors for the p...
Heterogeneous biocatalytic hydrogenation is an attractive strategy for clean, enantioselective C=X r...
Abstract The biological reduction of CO2 driven by sunlight via photosynthesis is a crucial process ...
This review surveys advances in the literature that impact organic sacrificial electron donor recycl...