Lignocellulosic biomass‐based carbon dots: synthesis processes, properties, and applications
Carbon dots (CDs), a new type of carbon‐based fluorescent nanomaterial, have attracted
widespread attention because of their numerous excellent properties. Lignocellulosic …
widespread attention because of their numerous excellent properties. Lignocellulosic …
Impact of nanomaterials on sustainable pretreatment of lignocellulosic biomass for biofuels production: An advanced approach
Biomass to biofuels production technology appears to be one of the most sustainable
strategies among various renewable energy resources. Herein, pretreatment is an …
strategies among various renewable energy resources. Herein, pretreatment is an …
[PDF][PDF] Overall utilization of photoexcited charges for simultaneous photocatalytic redox reactions
Z Wang, J Wang, J Zhang, K Dai - Acta Phys Chim Sin, 2023 - whxb.pku.edu.cn
The photoconversion of CO2 to carbon-containing fuels, splitting water into H2, selective
organic synthesis, reduction of N2 to NH3, and hazardous organic contaminant degradation …
organic synthesis, reduction of N2 to NH3, and hazardous organic contaminant degradation …
Rapid dissociation of high concentration excitons between [Bi2O2] 2+ slabs with multifunctional N-Bi-O sites for selective photoconversion into CO
G Zhou, Y Xu, Y Cheng, Z Yu, B Wei, X Liu… - Applied Catalysis b …, 2023 - Elsevier
Regulation of exciton generation and dissociation, directed transfer to active center and
oxidation capacity are the key steps in photoconversion. Here, we report that the …
oxidation capacity are the key steps in photoconversion. Here, we report that the …
Potassium and Sulfur Dual Sites on Highly Crystalline Carbon Nitride for Photocatalytic Biorefinery and CO2 Reduction
Z Liu, J Ma, M Hong, R Sun - ACS Catalysis, 2023 - ACS Publications
The co-production of high-value-added chemicals and fuels by coupling biomass
photooxidation with carbon dioxide (CO2) photoreduction has attracted wide interest …
photooxidation with carbon dioxide (CO2) photoreduction has attracted wide interest …
Rational Design of S‐Scheme Heterojunction toward Efficient Photocatalytic Cellulose Reforming for H2 and Formic Acid in Pure Water
Y You, S Chen, J Zhao, J Lin, D Wen, P Sha… - Advanced …, 2024 - Wiley Online Library
Photocatalytic cellulose reforming usually requires harsh conditions due to its sluggish
kinetics. Here, a hollow structural S‐scheme heterojunction of ZnSe and oxygen vacancy …
kinetics. Here, a hollow structural S‐scheme heterojunction of ZnSe and oxygen vacancy …
Near-Infrared Light-Driven Photocatalytic Reforming Lignocellulose into H2 and Chemicals over Heterogeneous Carbon Nitride
ZK Xie, YJ Jia, YY Huang, DB Xu, XJ Wu, M Chen… - ACS …, 2023 - ACS Publications
Photocatalytic reforming of lignocellulose and water (H2O) into different value-added
chemicals and hydrogen (H2) under near-infrared (NIR) light irradiation is still a huge …
chemicals and hydrogen (H2) under near-infrared (NIR) light irradiation is still a huge …
光激发电荷在光催化氧化还原反应中的全利用
王中辽, 汪静, 张金锋, 代凯 - 物理化学学报, 2022 - whxb.pku.edu.cn
The photoconversion of CO 2 to carbon-containing fuels, splitting water into H 2, selective
organic synthesis, reduction of N 2 to NH 3, and hazardous organic contaminant …
organic synthesis, reduction of N 2 to NH 3, and hazardous organic contaminant …
Solar Reforming Lignocellulose into H2 over pH-Triggered Hydroxyl-Functionalized Chalcogenide Nanotwins
F Liu, Y Fu, K Lu, S Wang, B Wang, J Huang… - ACS …, 2023 - ACS Publications
H2 production by lignocellulose photoreforming is deemed to be a promising approach for
the conversion of solar energy to fuels yet in limited efficiency to date. Herein, we bring a …
the conversion of solar energy to fuels yet in limited efficiency to date. Herein, we bring a …
Anchoring RuS 2 on a multi-shelled hollow cube of CaTiO 3 for ultrahigh hydrogen evolution with the assistance of a photocatalytic biorefinery
X Li, J Ma, R Cui, J Zhang, Z Liu, R Sun - Green Chemistry, 2023 - pubs.rsc.org
Ultrahigh hydrogen evolution from photocatalytic water splitting using CaTiO3 is difficult due
to its low photon-to-electron conversion efficiency. Herein, a facile post-loading strategy was …
to its low photon-to-electron conversion efficiency. Herein, a facile post-loading strategy was …