Advances in machine learning for high value-added applications of lignocellulosic biomass
H Ge, J Zheng, H Xu - Bioresource Technology, 2023 - Elsevier
Lignocellulose can be converted into biofuel or functional materials to achieve high value-
added utilization. Biomass utilization process is complex and multi-dimensional. This paper …
added utilization. Biomass utilization process is complex and multi-dimensional. This paper …
Milestones of electrocatalyst development for direct alcohol fuel cells
With increasing energy demands and environmental issues, renewable energy‐related
conversion systems have gained significant attention as a potential substitute for traditional …
conversion systems have gained significant attention as a potential substitute for traditional …
Correlating Experimentally Determined Hydrogen Binding Energy with Hydrogen Evolution Activity over Metal Monolayers on Molybdenum Nitride
It is well established that the hydrogen binding energy (HBE) is a key descriptor for
hydrogen evolution reaction (HER) activity, and such a relationship is a useful tool for …
hydrogen evolution reaction (HER) activity, and such a relationship is a useful tool for …
Electrochemical Biomass Depolymerization: Will Complex Catalysts Trigger High Product Selectivity?
In this perspective, we propose a conversation toward the future of sustainable chemical
industry through the lens of electrochemical biomass depolymerization. Despite the …
industry through the lens of electrochemical biomass depolymerization. Despite the …
Machine learning filters out efficient electrocatalysts in the massive ternary alloy space for fuel cells
Despite their potential promise, multicomponent materials have not been actively
considered as catalyst materials to date, mainly due to the massive compositional space …
considered as catalyst materials to date, mainly due to the massive compositional space …
Fabrication of nitrogen-carbon mediated γ-Mo2N nanocomposite based electrochemical sensor for rapid and sensitive determination of antioxidant 6-PPD in the …
The rapid and sensitive determination of antioxidant N-(1, 3-dimethylbutyl)-N′-phenyl-p-
henylenediamine (6-PPD) in the environment is crucial for early intervention to prevent its …
henylenediamine (6-PPD) in the environment is crucial for early intervention to prevent its …
Controlling Bond Scission Pathways of Isopropanol on Fe- and Pt-Modified Mo2N Model Surfaces and Powder Catalysts
Biomass valorization can be used to produce value-added chemicals and fuels from
renewable biomass resources by upgrading them via selective bond scission while retaining …
renewable biomass resources by upgrading them via selective bond scission while retaining …
Using ethanol and isopropanol as biomass model compounds for understanding bond scission mechanisms over Cu/Mo2N catalysts
The conversion of biomass compounds into fuels and chemicals is an important step
towards a more sustainable future. This work combines results from model surfaces and …
towards a more sustainable future. This work combines results from model surfaces and …
Controllable Porous Nanogrids of Chromium Nitride with Strong Metal–Support Interactions for Achieving Stable Oxygen Reduction Reaction
H Lin, Y Chen, J Huo, L Du - ACS Sustainable Chemistry & …, 2024 - ACS Publications
To facilitate the extensive adoption of proton exchange membrane fuel cells (PEMFCs), it is
important to address the issues of electrochemical corrosion and weak interaction with …
important to address the issues of electrochemical corrosion and weak interaction with …
Fabrication of ion imprinted diethylenetriamine pentaacetic acid-polyethylenimine modified magnetic graphene oxide for selective adsorption of Ce (III)
T Guo, C Bulin, R Zheng - Journal of Cleaner Production, 2024 - Elsevier
Selective recovery of rare earth elements is essential for both sustainable exploitation of rare
earth resources and environmental remediation. Herein, Ce (Ⅲ) imprinted …
earth resources and environmental remediation. Herein, Ce (Ⅲ) imprinted …