Nathan E. Soland
YOU?
Author Swipe
View article: Multistep catalytic abiotic CO <sub>2</sub> conversion to sugars through C <sub>1</sub> intermediates
Multistep catalytic abiotic CO <sub>2</sub> conversion to sugars through C <sub>1</sub> intermediates Open
Carbon dioxide (CO 2 ) to multicarbon (C n ) upgrading for commodity chemicals, fuel production, or artificial food synthesis using renewable energy input is a golden target for researchers in sustainable carbon emission reduction. Here, w…
View article: CO <sub>2</sub> upgrading into bioproducts using a two-step abiotic–biotic system
CO <sub>2</sub> upgrading into bioproducts using a two-step abiotic–biotic system Open
The valorization of CO 2 to chemicals beyond C 1-2 products is receiving significant interest; however, the direct electrosynthesis of C n molecules (n > 4) remains a challenge. Here, we present a two-step abiotic–biotic system for upgradi…
View article: Operando probing dynamic migration of copper carbonyl during electrocatalytic CO2 reduction
Operando probing dynamic migration of copper carbonyl during electrocatalytic CO2 reduction Open
Single crystals and shape-controlled nanocrystals are well known to exhibit facet-dependent catalytic properties. However, few studies have investigated how those nanocrystals evolve and (de)activate during reactions, calling for the devel…
View article: Synthesis of Carbohydrates from Methanol Using Electrochemical Partial Oxidation over Palladium with the Integrated Formose Reaction
Synthesis of Carbohydrates from Methanol Using Electrochemical Partial Oxidation over Palladium with the Integrated Formose Reaction Open
Electrochemically derived multicarbon products are a golden target for valorization of captured carbon dioxide due to the potential of turning a waste product into useful commodity chemicals with renewable energy sources. As a tantalizing …
View article: Toward abiotic sugar synthesis from CO2 electrolysis
Toward abiotic sugar synthesis from CO2 electrolysis Open
View article: Separation of bio-based glucaric acid <i>via</i> antisolvent crystallization and azeotropic drying
Separation of bio-based glucaric acid <i>via</i> antisolvent crystallization and azeotropic drying Open
A downstream process was developed for producing pure monopotassium glucarate and crystalline glucaric acid from a fermentation broth.
View article: The cell utilized partitioning model as a predictive tool for optimizing counter-current chromatography processes
The cell utilized partitioning model as a predictive tool for optimizing counter-current chromatography processes Open