Yaqiong Su
Articles
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Jan 15, 2025 |
pubs.rsc.org | Bingkun Chen |Bowen Yang |Yaqiong Su |Qidong Hou
NiFeCo Wrinkled Nanosheets Electrode for Selective Oxidation of 5-Hydroxymethylfurfural to 2,5-furandicarboxylic acid Quantitative and selective oxidation of 5-hydroxymethylfurfural (HMF) to 2,5-furandicarboxylic acid (FDCA) via electrocatalysis is a crucial milestone for biomass conversion.
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Nov 9, 2024 |
nature.com | Shuzhen Zhang |Yu Yang |Gengfeng Zheng |Fengwang Li |Yaqiong Su |Jingshu Hui
AbstractCO2 electroreduction is a potential pathway to achieve net-zero emissions in the chemical industry. Yet, CO2 loss, resulting from (bi)carbonate formation, renders the process energy-intensive. Acidic environments can address the issue but at the expense of compromised product Faradaic efficiencies (FEs), particularly for multi-carbon (C2+) products, as rapid diffusion and migration of protons (H+) favors competing H2 and CO production.
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Sep 27, 2024 |
onlinelibrary.wiley.com | Jinshu Huang |Hu Li |Shunmugavel Saravanamurugan |Yaqiong Su
Introduction Lignocellulosic biomass is the most widely distributed and abundant sustainable carbon resource on the planet, with an estimated annual global production of 181.5 billion tons.1 Besides the heterogeneous components of lignin (15–20 wt %) and hemicellulose (25–30 wt %), the glucose-polymer cellulose (40–50 wt %) is available from fractionation of lignocellulosic biomass.2 The isomerization of glucose into fructose is a key process for efficient downstream upgrading of biomass into...
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Sep 27, 2024 |
onlinelibrary.wiley.com | Jinshu Huang |Hu Li |Shunmugavel Saravanamurugan |Yaqiong Su
Supporting Information As a service to our authors and readers, this journal provides supporting information supplied by the authors. Such materials are peer reviewed and may be re-organized for online delivery, but are not copy-edited or typeset. Technical support issues arising from supporting information (other than missing files) should be addressed to the authors.
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Sep 6, 2024 |
nature.com | Kaihang Yue |Mingzhi Cai |Yaqiong Su |Fuqiang Huang
AbstractElectrochemical reduction of carbon dioxide to produce high-value ethylene is often limited by poor selectivity and yield of multi-carbon products. To address this, we propose a cyanamide-coordinated isolated copper framework with both metallic copper (Cu0) and charged copper (Cu1+) sites as an efficient electrocatalyst for the reduction of carbon dioxide to ethylene.
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