Pathways of Photocatalytic Oxidation of Formic Acid on Dry and Hydrated Anatase TiO<sub>2</sub> Surfaces. [PDF]
ACS CatalDaldossi C, Di Valentin C, Selloni A.
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Single‐molecule DNA flow‐stretch assays for high‐throughput DNA–protein interaction studies
FEBS Open Bio, EarlyView.We describe an optimised single‐molecule DNA flow‐stretch assay that visualises DNA–protein interactions in real time. Linear DNA fragments are tethered to a surface and stretched by buffer flow for fluorescence imaging. Using λ and φX174 DNA, this protocol enhances reproducibility and accessibility, providing a versatile approach for studying diverse ...
Ayush Kumar Ganguli +8 more
wiley +1 more source
From CO<sub>2</sub> to C<sub>1</sub> Liquid Fuels: Molecular Electrochemical Production of Formic Acid and Methanol. [PDF]
Angew Chem Int Ed EnglKarapapa P, Mondal S, Zeglio E, Das B.
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Efficient cobalt-catalyzed transfer hydrogenolysis of lignin-related compounds using formic acid
Fabian Alarcon-Kenell +4 more
openalex +1 more source
Plasmon-Enhanced Asymmetry in the Charge Distribution Explains the Increased H<sub>2</sub> Production Rate from Formic Acid with a Pd-Tipped Au Nanorod. [PDF]
J Phys Chem LettBiancorosso L, Coccia E.
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SpuA-Mediated Glycogen Metabolism Modulates Acid Stress Adaptation via Formic Acid and Amino Acid Utilization in <i>Streptococcus pneumoniae</i>. [PDF]
MicroorganismsGong W +6 more
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Bismuth Silicate Catalyst for Efficient Electrocatalytic CO<sub>2</sub> Reduction and Electrolyte-Free Formic Acid Production. [PDF]
Adv Sci (Weinh)Zhu P +9 more
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Constructing Palladium-Based Crystalline@Amorphous Core-Shell Heterojunctions for Efficient Formic Acid Oxidation. [PDF]
Adv Sci (Weinh)Li H +8 more
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Hydrogen Production from Formic Acid Decomposition Promoted by Gold Nanoparticles Supported on a Porous Polymer Matrix. [PDF]
Energy FuelsDiglio M +13 more
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