Ling Tan scite author profile

Although progress has been made to improve photocatalytic CO2 reduction under visible light (λ>400 nm), the development of photocatalysts that can work under a longer wavelength (λ>600 nm) remains a challenge. Now, a heterogeneous photocatalyst system consisting of a ruthenium complex and a monolayer nickel‐alumina layered double hydroxide (NiAl‐LDH), which act as light‐harvesting and catalytic units for selective photoreduction of CO2 and H2O into CH4 and CO under irradiation with λ>400 nm. By precisely tuning the irradiation wavelength, the selectivity of CH4 can be improved to 70.3 %, and the H2 evolution reaction can be completely suppressed under irradiation with λ>600 nm. The photogenerated electrons matching the energy levels of photosensitizer and m‐NiAl‐LDH only localized at the defect state, providing a driving force of 0.313 eV to overcome the Gibbs free energy barrier of CO2 reduction to CH4 (0.127 eV), rather than that for H2 evolution (0.425 eV).

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Single Ru atoms with precise coordination on a monolayer layered double hydroxide for efficient electrooxidation catalysis

Wang

et al. 2019

Chem. Sci.

161

120

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Autonomous self-healing supramolecular elastomer reinforced and toughened by graphitic carbon nitride nanosheets tailored for smart anticorrosion coating applications

Ding

et al. 2018

J. Mater. Chem. A

145

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500 nm induced tunable syngas synthesis from CO₂photoreduction by controlling heterojunction concentration

et al. 2020

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Ling Tan

Highly Selective Photoreduction of CO₂ with Suppressing H₂ Evolution over Monolayer Layered Double Hydroxide under Irradiation above 600 nm

Single Ru atoms with precise coordination on a monolayer layered double hydroxide for efficient electrooxidation catalysis

Autonomous self-healing supramolecular elastomer reinforced and toughened by graphitic carbon nitride nanosheets tailored for smart anticorrosion coating applications

500 nm induced tunable syngas synthesis from CO₂photoreduction by controlling heterojunction concentration

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Ling Tan

Highly Selective Photoreduction of CO2 with Suppressing H2 Evolution over Monolayer Layered Double Hydroxide under Irradiation above 600 nm

Single Ru atoms with precise coordination on a monolayer layered double hydroxide for efficient electrooxidation catalysis

Autonomous self-healing supramolecular elastomer reinforced and toughened by graphitic carbon nitride nanosheets tailored for smart anticorrosion coating applications

500 nm induced tunable syngas synthesis from CO2photoreduction by controlling heterojunction concentration

Contact Info

Product

Resources

About

Highly Selective Photoreduction of CO₂ with Suppressing H₂ Evolution over Monolayer Layered Double Hydroxide under Irradiation above 600 nm

500 nm induced tunable syngas synthesis from CO₂photoreduction by controlling heterojunction concentration