石墨烯负载单原子Pt吸附甲醛的理论计算

Theoretical calculation on the adsorption of formaldehyde on graphene supported single atom Pt

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摘要采用密度泛函理论方法研究石墨烯载体调变单原子Pt催化剂的几何结构、电子结构和吸附甲醛分子的性能.计算结果表明,单空穴位石墨烯负载的单原子Pt催化剂(Pt/GrGvac)电荷由Pt向载体转移,Pt带正电荷;杂原子B掺杂的单空穴位石墨烯负载的单原子Pt催化剂(Pt/3BGrGvac)电荷由载体向Pt转移,Pt带负电荷;杂原子N掺杂的单空穴位石墨烯负载的单原子Pt催化剂(Pt/3NGrGvac)中Pt带正电荷.不同石墨烯载体调变的单原子Pt催化剂均可吸附活化甲醛分子,电荷由单原子Pt催化剂向甲醛分子中的C原子转移.计算结果揭示Pt/3NGrGvac催化剂中Pt带正电荷更有利于甲醛分子的吸附活化.研究结果可为设计吸附甲醛的高效单原子催化剂提供理论基础. Density functional theory calculations were employed to study the geometric structure,electronic structure and properties of formaldehyde molecule adsorbed on single atom Pt catalyst.The calculation results showed that the charge of the single Pt atom at the mono-vacancy on graphene(Pt/Gr-vac)is transferred from Pt to support,hence Pt is positively charged.Conversely,the charge is transferred from support to Pt for boron doped graphene(Pt/3BGr-vac),and Pt is negatively charged.Interestingly,Pt is also positively charged on nitrogen doped graphene(Pt/3NGr-vac).The single Pt atom catalysts modified by different graphene supports can adsorb and activate formaldehyde molecules,and the charge is transferred from the Pt catalyst to the C atom in the formaldehyde molecule.The calculation results reveal that Pt is positively charged for the Pt/3NGr-vac catalyst,which is more conducive to the adsorption and activation of formaldehyde molecules.It provides a theoretical basis for the design of efficient single-atom catalysts for adsorbing formaldehyde.

作者孙晓颖卢健卓赵震 SUN Xiaoying;LU Jianzhuo;ZHAO Zhen(College of Chemistry and Chemical Engineering,Shenyang Normal University,Shenyang 110034,China;State Key Laboratory of Heavy Oil Processing,China University of Petroleum,Beijing 102249,China)

机构地区沈阳师范大学化学化工学院中国石油大学(北京)重质油国家重点实验室

出处《沈阳师范大学学报（自然科学版）》 CAS 2024年第2期97-103,共7页 Journal of Shenyang Normal University:Natural Science Edition

基金国家自然科学基金资助项目(22172100,91845201)。

关键词石墨烯载体单原子Pt催化剂甲醛吸附密度泛函理论 graphene support single-atom Pt catalyst formaldehyde adsorption density functional theory

分类号 O643.3 [理学—物理化学]

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参考文献7

1原卫华,毕世华,曹茂盛.石墨烯吸附甲醛的第一性原理研究[J].材料导报,2015,29(18):156-159. 被引量：12
2乔波涛,梁锦霞,王爱琴,刘景月,张涛.Single atom gold catalysts for low-temperature CO oxidation[J].Chinese Journal of Catalysis,2016,37(10):1580-1587. 被引量：9
3Fang Chen,Xunzhu Jiang,Leilei Zhang,Rui Lang,Botao Qiao.Single-atom catalysis: Bridging the homo-and heterogeneous catalysis[J].Chinese Journal of Catalysis,2018,39(5):893-898. 被引量：20
4Yong Wang,Wenhua Zhang,Dehui Deng,Xinhe Bao.Two-dimensional materials confining single atoms for catalysis[J].Chinese Journal of Catalysis,2017,38(9):1443-1453. 被引量：9
5申恒芳,李文翠,蔡佳芯,秦汉颖,张航,赵震.甲烷选择氧化单原子催化剂的研究进展[J].中国科学：化学,2024,54(3):309-337. 被引量：3
6Ping Yan,Song Shu,Xian Shi,Jianjun Li.Promotion effect of Au single-atom support graphene for CO oxidation[J].Chinese Chemical Letters,2022,33(11):4822-4827. 被引量：4
7宋述鹏,贾娜娜,龚铁夫,周和荣,吴润.Fe,Co,Ni掺杂石墨烯表面吸附C2H4的第一性原理研究[J].原子与分子物理学报,2019,36(4):710-716. 被引量：11

二级参考文献24

1Liu X Y. Zhang J M. Formaldehyde molecule adsorbed on doped graphene , A first-principles study[J]. Appl Surf Sci. 2014 .293: 216.
2Dai J Y. Yuan J M. Giannozzi P. Gas adsorption on graphene doped with B. N. AI. and S: A theoretical study[J]. Appl Phys Lett.2009,95:232105.
3Talebi S M S. Beheshtian J. Amal M N. Doping effect on the adsorption of NH3 molecule onto graphene quantum dot: From the physisorption to the chemisorption[J]. J Appl Phys.2013.114(12):124307.
4Liu X Y. Zhang J M. Xu K W. Chlorine molecule adsorbed on graphene and doped graphene , A first-principle study[J]. Physica B. 2014.436: 54.
5Lin X Q. Ni J. Fang C. Adsorption capacity of H20. NH3, CO. and N02 on the pristine graphene[J]. J Appl Phys , 2013.113(3):034306.
6Sun Y Y. et al. First-principles stu-dies of HF molecule ad-sorption on intrinsic graphene and Al-doped graphene[J]. Solid State Commun, 2010 .150(39-40) : 1906.
7Yan H J. Xu B. Shi SQ. et al. First-principles study of the oxygen adsorption and dissociation on graphene and nitrogen doped graphene for Li-air batteries[J]. J Appl Phys , 2012. 112(10):104316.
8Zhang Y H. Chen Y B. Zhou K G. et al. Improving gas sensing properties of graphene by introducing dopants and defects: A first-principles study[J]. Nanotechnology. 2009.20(18):185504.
9Wang B J. Zhou S J. Chen L Y. et al. Fluorescent graphene quantum dot nanoprobes for the sensitive and selective detection of mercury ions[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2014 .131: 384.
10Lu D B. Zhang Y. Lin S X. et al. Synthesis of PtAu bimetallic nanoparticles on graphene-carbon nanotube hybrid nanomaterials for nonenzymatic hydrogen peroxide sensor[J]. Talanta.2013.112: III.

共引文献58

1刘玉凤,周瑛,卢梅,耿俊,徐鑫,柯权力,卢晗锋.贵金属单原子催化剂的制备及其在CO、VOCs完全氧化反应中的应用[J].分子催化,2022,36(1):81-97. 被引量：10
2陈明树.催化剂活性位本质和构效关系的模型催化研究[J].物理化学学报,2017,33(12):2424-2437. 被引量：6
3Peng Wang,Yupei Zhao,Jian Liu.Versatile.design and synthesis of mesoporous sulfonic acid catalysts[J].Science Bulletin,2018,63(4):252-266. 被引量：3
4吴耿煌,黄凰,荣峻峰,达志坚.非贵金属单原子催化剂的研究进展[J].石油学报（石油加工）,2018,34(4):639-650. 被引量：6
5张国英,刘士艳.BN烯对毒性有机小分子甲醛传感行为的第一性原理研究[J].沈阳师范大学学报（自然科学版）,2018,36(3):215-219.
6董海宽,杨子龙,关众博,齐义辉.基于密度泛函理论研究掺杂石墨烯对CO分子吸附性能[J].人工晶体学报,2018,47(5):1024-1029. 被引量：6
7袁爽登,周艺,陈久存.室内甲醛来源及其防治措施[J].广州化工,2018,46(16):45-48. 被引量：17
8马欢,马玲,张建民.改性石墨烯HCN气敏特性的第一性原理研究[J].云南大学学报（自然科学版）,2018,40(5):961-970. 被引量：1
9王成雄,冯丰,潘再富,杨冬霞,常仕英,赵云昆.铂族金属单原子催化剂的制备、表征技术研究进展[J].贵金属,2019,40(1):88-97. 被引量：8
10宋述鹏,贾娜娜,龚铁夫,周和荣,吴润.Fe,Co,Ni掺杂石墨烯表面吸附C2H4的第一性原理研究[J].原子与分子物理学报,2019,36(4):710-716. 被引量：11

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沈阳师范大学学报（自然科学版）

2024年第2期

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石墨烯负载单原子Pt吸附甲醛的理论计算

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