Nanocarbon catalysts with co-active S−P−C sites enhance metal-free direct oxidation of alcohols

导出

摘要 In this study,a sulfur–phosphorus co-doped nanocarbon(SPC)catalyst was syn-thesized using a straightforward one-step colloidal carbonization method and demonstrated high performance in the metal-free direct oxidation of alcohols to aldehydes.This metal-free SPC catalyst showed exceptional efficiency,achiev-ing a conversion rate of 90%for benzyl alcohol and a selectivity of 94%toward benzaldehyde within only 1 h at 130◦C.Moreover,it displays exceptional cycle stability and a high turnover frequency(17.1×10-3 mol g-1 h-1).Theoretical analysis suggested that the catalyst’s superior performance is attributed to the presence of unsaturated edge defects and S-P-moieties,which increase the density of states at the Fermi level,lower the band gap energy,and promote electron localization.Additionally,the doping introduces cooperative co-active S-P-C sites,facilitating a synergistic multisite catalytic effect that lowers the energy barriers.These findings represent a significant advancement in the field of metal-free direct alcohol oxidation.

作者 Juan Meng Huidong Liu Jianing Xu Yuhan Lou Haixin Sun Bo Jiang Yongzhuang Liu Hengfei Qin Shuo Dou Haipeng Yu

机构地区 Key Laboratory of Bio-Based Material Science and Technology of Ministry of Education School of Resources and Environmental Engineering School of Urban Construction College of Chemistry

出处《SusMat》 SCIE EI 2024年第5期202-215,共14页 可持续发展材料（英文）

基金 National Natural Science Foundation of China,Grant/Award Numbers:31925028,32301541,22102019。

关键词 alcohol oxidation reaction carbon CATALYSTS electronic structures

分类号 TB383 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献4

1Xiya Guan,Yu Sun,Simeng Zhao,Haibo Li,Suyuan Zeng,Qingxia Yao,Rui Li,Hongyan Chen,Konggang Qu.Selectively nucleotide-derived RuP on N,P-codoped carbon with engineered mesopores for energy-efficient hydrogen production assisted by hydrazine oxidation[J].SusMat,2024,4(1):166-177. 被引量：1
2Xinran Yuan,Siming Chen,Jinliang Li,Junpeng Xie,Genghua Yan,Botian Liu,Xibo Li,Rui Li,Likun Pan,Wenjie Mai.Understanding the improved performance of sulfur-doped interconnected carbon microspheres for Na-ion storage[J].Carbon Energy,2021,3(4):615-626. 被引量：6
3Yang Gao,Xiaohui Xu,Yue Niu,Xinran Hu,Zeyu Li,Longkun Yang,Linjie Zhi,Bin Wang.Viologens-based redox mediators with tunable HOMO–LUMO energy gap for highly effective hydrogen peroxide electrosynthesis[J].Nano Research,2023,16(12):12936-12941. 被引量：1
4Israr Masood ul Hasan,Luwei Peng,Jianfeng Mao,Ruiman He,Yongxia Wang,Jing Fu,Nengneng Xu,Jinli Qiao.Carbon‐based metal‐free catalysts for electrochemical CO2 reduction: Activity, selectivity, and stability[J].Carbon Energy,2021,3(1):24-49. 被引量：11

二级参考文献20

1Yuquan Li,Bin Ni,Xiaodan Li,Xianghui Wang,Dafeng Zhang,Qingfei Zhao,Jinliang Li,Ting Lu,Wenjie Mai,Likun Pan.High-Performance Na-Ion Storage of S-Doped Porous Carbon Derived from Conjugated Microporous Polymers[J].Nano-Micro Letters,2019,11(4):84-96. 被引量：7
2Bing Zhang,Tian-Jian Zhao,Wei-Jie Feng,Yong-Xing Liu,Hong-Hui Wang,Hui Su,Li-Bing Lv,Xin-Hao Li,Jie-Sheng Chen.Polarized few-layer g-C3N4 as metal-free electrocatalyst for highly efficient reduction of CO2[J].Nano Research,2018,11(5):2450-2459. 被引量：10
3Lili Liu,Miaoqing Qing,Yibo Wang,Shimou Chen.Defects in Graphene:Generation,Healing,and Their Effects on the Properties of Graphene:A Review[J].Journal of Materials Science & Technology,2015,31(6):599-606. 被引量：11
4Chenglong Zhao,Yaxiang Lu,Liquan Chen,Yong-Sheng Hu.Ni-based cathode materials for Na-ion batteries[J].Nano Research,2019,12(9):2018-2030. 被引量：10
5Zhengpei Miao,Pei Hu,Chuanye Nie,Huan Xie,Wenli Fu,Qing Li.ZrO2 nanoparticles anchored on nitrogen-doped carbon nanosheets as efficient catalyst for electrochemical CO2 reduction[J].Journal of Energy Chemistry,2019,28(11):114-118. 被引量：4
6Ruchao Wei,Man Huang,Wenzhe Ma,Baojuan Xi,Zhenyu Feng,Haibo Li,Jinkui Feng,Shenglin Xiong.N-doped carbon nanotubes formed in a wide range of temperature and ramping rate for fast sodium storage[J].Journal of Energy Chemistry,2020,29(10):136-146. 被引量：4
7Tianyun Qiu,Wanwan Hong,Lin Li,Yu Zhang,Peng Cai,Cheng Liu,Jiayang Li,Guoqiang Zou,Hongshuai Hou,Xiaobo Ji.Hollow carbon microbox from acetylacetone as anode material for sodium-ion batteries[J].Journal of Energy Chemistry,2020,29(12):293-302. 被引量：1
8Xiaodan Li,Zhibin Liu,Jinliang Li,Hang Lei,Wenchen Zhuo,Wei Qin,Xiang Cai,Kwun Nam Hui,Likun Pan,Wenjie Mai.Insights on the mechanism of Na-ion storage in expanded graphite anode[J].Journal of Energy Chemistry,2021,30(2):56-62. 被引量：1
9Xin Tong,Xinxing Zhan,Diane Rawach,Zhangsen Chen,Gaixia Zhang,Shuhui Sun.Low-dimensional catalysts for oxygen reduction reaction[J].Progress in Natural Science:Materials International,2020,30(6):787-795. 被引量：5
10Ying-Hua Wang,Rui-Qing Li,Hai-Bo Li,Hong-Li Huang,Zeng-Jing Guo,Hong-Yan Chen,Yao Zheng,Kong-Gang Qu.Controlled synthesis of ultrasmall RuP_(2) particles on N,P-codoped carbon as superior pH-wide electrocatalyst for hydrogen evolution[J].Rare Metals,2021,40(5):1040-1047. 被引量：9

共引文献15

1Xiaodan Li,Jinliang Li,Wenchen Zhuo,Zhibin Li,Liang Ma,Zhong Ji,Likun Pan,Wenjie Mai.In Situ Monitoring the Potassium‑Ion Storage Enhancement in Iron Selenide with Ether‑Based Electrolyte[J].Nano-Micro Letters,2021,13(11):294-307. 被引量：4
2ERRATUM[J].Carbon Energy,2021,3(5):840-840.
3Hang Lei,Jinliang Li,Xiyun Zhang,Liang Ma,Zhong Ji,Zilong Wang,Likun Pan,Shaozao Tan,Wenjie Mai.A review of hard carbon anode: Rational design and advanced characterization in potassium ion batteries[J].InfoMat,2022,4(2):24-52. 被引量：8
4Qianqian Fan,Jianan Su,Tao Sun,Zenghui Bi,Huaisheng Wang,Shusheng Zhang,Qingju Liu,Longzhou Zhang,Guangzhi Hu.Advances of the functionalized carbon nitrides for electrocatalysis[J].Carbon Energy,2022,4(2):211-236. 被引量：3
5Sungsoon Kim,Kwang Hee Kim,Cheoulwoo Oh,Kan Zhang,Jong Hyeok Park.Artificial photosynthesis for high-value-added chemicals:Old material,new opportunity[J].Carbon Energy,2022,4(1):21-44. 被引量：7
6Cheng-Xin Yu,Yu Li,Zhao-Hua Wang,Xin-Ran Wang,Ying Bai,Chuan Wu.Surface engineering based on in situ electro-polymerization to boost the initial Coulombic efficiency of hard carbon anode for sodium-ion battery[J].Rare Metals,2022,41(5):1616-1625. 被引量：2
7王新天,李攀,曹越,洪文浩,耿忠璇,安志洋,王昊宇,王桦,孙斌,朱文磊,周旸.单原子材料在二氧化碳催化中的技术经济分析与产业化应用前景[J].高等学校化学学报,2022,43(9):37-52. 被引量：1
8Lulu Li,Israr Masood ul Hasan,Farwa,Ruinan He,Luwei Peng,Nengneng Xu,Nabeel Khan Niazi,Jia-Nan Zhang,Jinli Qiao.Copper as a single metal atom based photo-,electro-,and photoelectrochemical catalyst decorated on carbon nitride surface for efficient CO_(2) reduction:A review[J].Nano Research Energy,2022,1(2):80-93. 被引量：16
9李苗苗,邱祥云,尹延鑫,张涛,戴作强.钠离子电池层状氧化物正极材料改性研究进展[J].过程工程学报,2023,23(6):799-813. 被引量：3
10任雪岩,李斌,周惠敏.碳基催化剂在锌空气电池中的应用研究进展[J].化工新型材料,2023,51(11):234-237.

1Rongbo Wang,Jiawei Zhang,Juntao Zhao,Ya Wang,Yi Ding,Ying Zhao,Xiaodan Zhang,Guofu Hou.Promoted monolithic perovskite/organic tandem solar cells through elaborate manipulation of light transmission and carrier tunneling in interconnect junction[J].Science China Chemistry,2024,67(9):3131-3139.
2Hui Fu,Jin Tian,Qianqian Zhang,Zhaoke Zheng,Hefeng Cheng,Yuanyuan Liu,Baibiao Huang,Peng Wang.Single-atom modified graphene cocatalyst for enhanced photocatalytic CO_(2) reduction on halide perovskite[J].Chinese Journal of Catalysis,2024,64(9):143-151.
3Ching Tse,Kesen Ma.A novel alcohol dehydrogenase in the hyperthermophilic crenarchaeon Hyperthermus butylicus[J].mLife,2024,3(2):317-325.
4Chenglong Lai,Mengjun Li,Yi Shen,Min Zhou,Wei Wang,Kai Jiang,Haomiao Li,Kangli Wang.In Situ Coupling of Highly Dispersed Ni/Fe Metal-NC Sites and N-Doped 3D Carbon Fibers Toward Free-Standing Bifunctional Cathode for Flexible Zinc-Air Battery[J].Energy & Environmental Materials,2024,7(1):121-130.
5Yuanlin Cai,Ya Lv,Liangzhen Shu,Zhichao Jin,Yonggui Robin Chi,Tingting Li.Access to Axially Chiral Aryl Aldehydes via Carbene-Catalyzed Nitrile Formation and Desymmetrization Reaction[J].Research,2024(3):715-721.
6骆娇.中国–东盟数字经济合作探析[J].电子商务评论,2024,13(3):5535-5540.
7Fulei Li,Tianye Yu,Junwen Lai,Jiaxi Liu,Peitao Liu,Xing-Qiu Chen,Yan Sun.Phononic Weyl Nodal Lines and Weyl Pairs in van der Waals Heavy Fermion Material CeSiI[J].Chinese Physics Letters,2024,41(10):97-102.
8Hujun Wang,Xiuyuan Zhao,Zhengcan Xie,Biao Yang,Jing Zheng,Kai Yin,Zhongrong Zhou.Bioinspired directional structures for inhibiting wetting on super-melt-philic surfaces above 1200°C[J].International Journal of Extreme Manufacturing,2024,6(4):337-346.
9Jingyuan Li,Cui-Qun Chen,Chaoxin Huang,Yifeng Han,Mengwu Huo,Xing Huang,Peiyue Ma,Zhengyang Qiu,Junfeng Chen,Xunwu Hu,Lan Chen,Tao Xie,Bing Shen,Hualei Sun,Dao-Xin Yao,Meng Wang.Structural transition,electric transport,and electronic structures in the compressed trilayer nickelate La_(4)Ni_(3)O_(10)[J].Science China(Physics,Mechanics & Astronomy),2024,67(11):9-15. 被引量：1
10Fengfeng Han,Liwen Fan,Xinzhi Ma,Huiqing Lu,Lu Li,Xitian Zhang,Lili Wu.Conversion of LiPSs Accelerated by Pt-Doped Biomass-Derived Hyphae Carbon Nanobelts as Self-Supporting Hosts for Long-Lifespan Li-S Batteries[J].Energy & Environmental Materials,2024,7(3):49-58.

SusMat

2024年第5期

浏览历史

内容加载中请稍等...

Nanocarbon catalysts with co-active S−P−C sites enhance metal-free direct oxidation of alcohols

参考文献4

二级参考文献20

共引文献15

相关作者

相关机构

相关主题

浏览历史