部分代表性论文

[1] P. F. Hu, C. F. Meng*, F. G. Li, P. Wang, H. Zhou, X. G. Li, andA. H. Yuan*. Hierarchical multi-yolk-shell copper oxide@copper-1, 3, 5-benzenetricarboxylate as an ultrastable anode for lithium ion batteries.J. Colloid Interface. Sci.,2022, 617, 568-577.

[2] S. A. Shah, R. Sayyar, L. Xu, H. Sun, I. Khan, J. Y. Guo, X. P. Shen, S. Hussain,A. H. Yuan*,andH. Ullah*. In-situ synthesis of NiS₂nanoparticles/MoS₂nanosheets hierarchical sphere anchored on reduced graphene oxide for enhanced electrocatalytic hydrogen evolution reaction.J. Colloid Interface. Sci.,2022,624, 150-159.

[3] F. Yang*, W. H. Li, X. Zhong, W. L. Tu, J. Cheng, L. Chen, J. Lu,A. H. Yuan*, and J. M. Pan*. The alkaline sites integrated into biomass-carbon reinforce selective adsorption of acetic acid: In situ implanting MgO during activation operation.Sep. Purif. Technol.,2022, 297, 121415

[4] H. Q. Wang, S. Su, T. Yu, C. F. Meng, H. Zhou, W. J. Zhao, S. T. Yan, T. Bian*, andA. H. Yuan*. FeNi/NiFe₂O₄hybrids confined in N-doped carbon sponge derived from Hofmann-type MOFs for oxygen electrocatalysis.Appl. Surf. Sci.,2022, 596,153522.

[5] H. Cheng, H. Zhou*, Y. Y. Zhuang, B. Y. Chen, J. F. Chen, andA. H. Yuan*. An integrated optimization of composition and pore structure boosting electrocatalytic oxygen evolution of Prussian blue analogue derivatives.Electrochim. Acta,2022, 416, 140284.

[6] H. Cheng, H. Zhou*, Y. Y. Zhuang, B. Y. Chen, J. F. Chen, and A. H. Yuan*.Controllable synthesis and phase-dependent electrocatalytic oxygen evolution performance of CoNiFe sulfide nanocubes.J. Alloy Compd.,2022, 909, 164774.

[7] Q. X. Li, C. Shi*, M. L. Huang, C. C. Wu, H. Z. Wang, H. T. Wu, Y. Zheng, C. L. Yang*, andA. H. Yuan*. Three types of charged ligands based carboxyl-containing Iridium(III) complexes: structures, photophysics, and solution processed OLED application.Inorg. Chem.,2022, 60, 17699-17704.

[8] Y. J. Cai, W. K. Wang, X. X. Cao, L. F. Wei, C. C. Ye, C. F. Meng,A. H. Yuan*, H. Pang*, and C Yu*. Synthesis of tostadas-shaped metal-organic frameworks for remitting capacity fading of Li-ion batteries.Adv. Funct. Mater.,2021, 31, 2109927.

[9] S. A. Shah, L. Xu, R Sayyar, T. Bian, Z. Y. Liu,A. H. Yuan*, X. P. Shen, I. Khan, A. A. Tahir, and H. Ullah*. Growth of MoS₂nanosheets on M@N-doped carbon particles (M = Co, Fe or CoFe Alloy) as an efficient electrocatalyst toward hydrogen evolution reaction.Chem. Eng. J.,2021, 428, 132126.

[10] C Shi*, H. Huang, Q. X. Li, J. W. Yao, C. C. Wu, Y. B. Cao, F. X. Sun, D. G. Ma *, H. Yan*, C. L. Yang*, andA. H. Yuan*. Three types of charged-ligand-based blue-green to near-infrared emitting iridium complexes: synthesis, structures, and organic light-emitting diode application.Adv. Optical Mater.,2021,9, 2002060.

[11] L. Zhong, H. Zhou*, R. F. Li, H. Cheng, S. Wang, B. Y. Chen, Y. Y. Zhuang, J. F. Chen, andA. H. Yuan*. Co/CoO_xheterojunctions encapsulated N-doped carbon sheets via a dual-template-guided strategy as efficient electrocatalysts for rechargeable Zn-air batteries.J. Colloid Interface. Sci.,2021, 599, 46-57.

[12] C. L. Xu, Z. F. Yang, L. Shi, Y. Yin*, M. Lu, M. X. Liu,A. H. Yuan*, H. Wu, X. M. Ren, S. B. Wang, and H. Q. Sun*. Encapsulation of cuprous/cobalt sites in metal organic framework for enhanced C₂H₄/C₂H₆separation.J. Colloid Interface. Sci.,2021,583, 605-613.

[13] R. Ou, W. J. Zhu, L. L. Li, X. Y. Wang, Q. Wang, Q. Gao,A. H. Yuan*, J. M. Pan*, and F. Yang*. Boosted capture of volatile organic compounds in adsorption capacity and selectivity by rationally exploiting defect-engineering of UiO-66(Zr).Sep. Purif. Technol.,2021, 266, 118087.

[14] F. Yang, W. H. Li, L. Zhang*, W. L. Tu, X. Y. Wang, L. L. Li, C. Yu, Q. Gao,A. H. Yuan*, and J. M. Pan *. Drastically boosting volatile acetone capture enabled by N-doping activated carbon: An interesting deep surface digging effect.Sep. Purif. Technol.,2021, 276, 119280.

[15] P. Wang,A. H. Yuan*, Z. T. Wang, X. P. Shen, H. T. Chen, and H. Zhou*. Self-templated formation of hierarchically yolk-shell-structured ZnS/NC dodecahedra with superior lithium storage properties.Nanoscale,2021, 13, 1988-1996.

[16] C. F. Meng, P. F. Hu, H. T. Chen, Y. J. Cai, H. Zhou, Z. H. Jiang, X. Zhu, Z. Y. Liu, C. Y. Wang, andA. H. Yuan*. 2D Conductive MOF with sufficient redox sites: reduced graphene oxide/Cu-benzenehexathiolate composites as high capacity anode materials for lithium-ion batteries.Nanoscale,2021, 13, 7751-7760.

[17] L. Huang, L. Z. Zuo, Z. Y. He, B. B. Xiao, H. Zhou, S. C. Su, Y. Li, T. Bian*, andA. H. Yuan*. g-C₃N₄templated synthesis of the tubular CoFe/N doped carbon composite as advanced bifunctional oxygen electrocatalysts for zinc-air batteries.J. Alloy Compd.,2021, 884, 161011.

[18] Y. Han, Z. Y. Liu, F. F. Zheng, Y. X. Bai, Z. Q. Zhang, X. G. Li, W. W. Xiong*, J. H. Zhang, andA. H. Yuan*. Two-dimensional flower-like cobalt-porphyrin MOF/rGO composite anodes for high-performance Li-ion batteries.J. Alloy Compd.,2021, 881, 160531.

[19] C. Shi*, F. Y. Li, Q. X. Li*, W. L. Zhao, Y. B. Cao, Q. Zhao*, andA. H. Yuan*. B- and N-embedded pi-conjugation units tuning intermolecular interactions and optical properties of platinum(II) complexes.Inorg. Chem.,2021, 60, 526-535.

[20] Q. X. Li, C. Shi*, M. L. Huang, X. H. Zhang, F. X. Sun, Y. Zheng, H. Yan *, C. L. Yang*; andA. H. Yuan*. Three types of charged ligand-based neutral phosphorescent iridium(III) complexes featuring nido-carborane: synthesis, structures, and solution processed organic light-emitting diode applications.Dalton Trans.,2021, 50, 16304-16310.

[21] X. H. Shen, R. Ou, Y. T. Lu,A. H. Yuan*, J. F. Liu*, J. Y. Gu, X. C. Hu, Z. Yang, and F. Yang*. Record-high capture of volatile benzene and toluene enabled by activator implant-optimized banana peel-derived engineering carbonaceous adsorbents.Environ. Int.,2020,143, 105774.

[22] Y.Yin, Z. Z.Zhang, C. L.Xu, H.Wu, L.Shi, S. J.Wang, X. Y.Xu,A. H.Yuan*, S. B.Wang,andH. Q.Sun*. Confinement of Ag(I)sites within MIL-101 forrobustethylene/ethaneseparation.ACS Sustain.Chem.Eng.,2020, 8, 823-830.

[23] J. H. Feng, H. Zhou*, D. Y. Chen, T. Bian, andA. H. Yuan*. Core-shell structured ZnCo/NC@MoS₂electrocatalysts for tunable hydrogen evolution reaction.Electrochim. Acta,2020, 331, 135445.

[24] S. A. Shah, G. X. Zhu,A. H. Yuan*, N. Ullah, X. P. Shen*, H. Khan, K. Q. Xu, X. Y. Wang, and X. F. Yan. Loading of individual Se-doped Fe2O3-decorated Ni/NiO particles on carbon cloth: facile synthesis and efficient electrocatalysis for the oxygen evolution reaction.Dalton Trans.,2020,49, 15682-15692

[25] G. J. Yi, C. Y. Zhang, W. Zhao, H. H. Cui, L. Chen*, Z. X. Wang*,X. T. Chen*,A. H. Yuan*, Y. Z. Liu, and Z. W. Ouyang. Structure, magnetic anisotropy and relaxation behavior of seven-coordinate Co(Ⅱ) single-ion magnets perturbed by counter-anions.Dalton Trans.,2020,49, 7620-7627

[26] G. J. Yi，H. H. Cui, C. Y. Zhang, W. Zhao, L. Chen*, Y. Q. Zhang*, X. T. Chen*, Y. Song, andA. H. Yuan*. A capped trigonal prismatic cobalt(II) complex as a structural archetype for single-ion magnets.Dalton Trans.,2020,49, 2063-2067.

[27] F. Yang*, J. J. Tang, R. Ou, Z. J. Guo, S. Y. Gao, Y. Z. Wang, X. Y. Wang;, L. Chen, andA. H. Yuan*. Fully catalytic upgrading synthesis of 5-ethoxymethylfurfural from biomass-derived 5-hydroxymethylfurfural over recyclable layered-niobium-molybdate solid acid.Appl. Catal. B-Environ.,2019, 256, 117786.

[28] P. Wang, H. Zhou*,C. F. Meng, Z. T. Wang, K. Akhtar, andA. H. Yuan*. Cyanometallic framework-derived hierarchical Co₃O₄-NiO/graphene foam as high-performance binder-free electrodes for supercapacitors.Chem. Eng. J.,2019, 369, 57-63.

[29] P. Wang, M. Q. Shen, H. Zhou*, C. F. Meng, andA. H. Yuan*. MOF-derived CuS@Cu-BTC composites as high-performance anodes for lithium-ion batteries.Small,2019, 15, 1903522.

[30] D. Q. Su, M. Huang, J. H. Zhang*, X. M. Guo, J. L. Chen, Y. C. Xue,A. H. Yuan*, Q. H. Kong. High N-doped hierarchical porous carbon networks with expanded interlayers for efficient sodium storage.Nano Res.,2019, 13, 2862-2868.

[31] Q.X.Li, C. Shi*, M.L. Huang, X. Wei, H. Yan*, C.L. Yang*, andA.H.Yuan*. B- and N-embedded color-tunable phosphorescent iridium complexes and B-N Lewis adducts with intriguing structural and optical changes.Chem. Sci.,2019, 10, 3257-3263.

[32] Y.Yin, Z. H.Wen, L.Shi, Z. Z.Zhang, Z. F.Yang, C. L.Xu, H. Q.Sun*, S. B.Wang,andA. H.Yuan*.Cuprous/vanadium sites on MIL-101 for selective COadsorption from gas mixtures with superior stability.ACS Sustain.Chem.Eng.,2019, 7, 11284-11292.

[33] J. X. Shao, J. H. Feng, H. Zhou*, andA.H. Yuan*. Graphene aerogel encapsulated Fe-Co oxide nanocubes derived from Prussian blue analogue as integrated anode with enhanced Li-ion storage properties.Appl. Surf. Sci.,2019, 471, 745-752.

[34] J. X. Shao, H. Zhou*, J. H. Feng, M. Z. Zhu, andA.H. Yuan*. Facile synthesis of MOF-derived hollow NiO microspheres integrated with graphene foam for improved lithium-storage properties.J. Alloy Compd.,2019, 784, 869-876.

[35] M. Z. Zhu, H. Zhou*, J. X. Shao, J. H. Feng, andA.H. Yuan*. Prussian blue nanocubes supported on graphene foam as superior binder-free anode of lithium-ion batteries.J. Alloy Compd.,2018, 749, 811-817.

[36] J. P. Wang, H. Zhou*, M. Z. Zhu,A.H. Yuan*, and X. P. Shen. Metal-organic framework-derived Co₃O₄covered by MoS₂nanosheets for high-performance lithium-ion batteries.J. Alloy Compd.,2018, 744, 220-227.

[37] J. X. Shao, H. Zhou*, M. Z. Zhu, J. H. Feng, andA.H. Yuan*. Facile synthesis of metal-organic framework-derived Co₃O₄with different morphologies coated graphene foam as integrated anodes for lithium-ion batteries.J. Alloy Compd.,2018, 768, 1049-1057.

[38] L. Chen, J.B. Song, W. Zhao, G.J. Yi, Z. K.Zhou,A.H.Yuan*, Y. Song*, Z.X.Wang, and Z.W. Ouyang. A mononuclear five-coordinate Co(II) single molecule magnet with a spin crossover between the S = 1/2 and 3/2 states.Dalton Trans.,2018, 47, 16596-16602.

[39] L. Chen, J.J. Zhou, H.H. Cui,A.H. Yuan*, Z.X. Wang*, Y.Q. Zhang*, Z.W. Ouyang,and Y. Song*. Slow magnetic relaxation influenced by change of symmetry from ideal Ci to D3d in cobalt(II)-based single-ion magnets.Dalton Trans.,2018, 47, 2506-2510.

[40] C. Shi, M.L. Huang, Q.X. Li, G.H.Xie, C. L.Yang*, andA.H.Yuan*. A Cu-NHC based phosphorescent binuclear iridium(III)/copper(I) complex with an unpredictable near-linear two-coordination mode.Dalton Trans.,2018, 47, 17299-17303.

[41] D. Ji, H. Zhou*, Y. L. Tong, J. P. Wang, M. Z. Zhu, T. H. Chen,andA. H. Yuan*. Facile fabrication of MOF-derived octahedral CuO wrapped 3D graphene network as binder-free anode for high performance lithium-ion batteries.Chem. Eng. J.,2017, 313, 1623-1632.

[42] M. Huang, K. Mi, J. H. Zhang*, H. L. Liu, T. T. Yu,A. H. Yuan*, Q. H. Kong,and S. L. Xiong*. MOF-derived bi-metal embedded N-doped carbon polyhedral nanocages with enhanced lithium storage.J. Mater. Chem. A,2017, 5, 266-274.

[43] Z. K.Zhou*, J. P.Zhou, L.Z. Gai,A.H. Yuan*,and Z. Shen*. Naphtho[b]-fused BODIPYs: one pot Suzuki-Miyaura-Knoevenagel synthesis and photophysical properties.Chem. Commun.,2017, 53, 6621-6624.

[44] D. Ji, H. Zhou, J. Zhang, Y. Y. Dan, H. X. Yang,andA. H. Yuan*. Facile synthesis of a metal-organic framework-derived Mn₂O₃nanowire coated three-dimensional graphene network for high-performance free-standing supercapacitor electrodes.J. Mater. Chem. A,2016, 4, 8283-8290.

[45] H. Zhou, Q. Chen, H.B. Zhou, X.Z. Yang, Y. Song*, andA.H. Yuan*. Structuralconversion andmagneticstudies oflow-dimensional Ln^III/Mo^V/IV(CN)₈(Ln = Gd–Lu)systems:fromhelicalchain totrinuclearcluster.Cryst. Growth Des.,2016, 16, 1708-1716.

[46] F.L. Yang,A.H. Yuan*, H. Zhou, H.B. Zhou, D. Yang, Y. Song*, and Y.Z. Li. Syntheses,structures, andmagneticproperties ofthreemanganese(II)-octacyanotungstate(V)bimetalliccompounds withlinearligands.Cryst. Growth Des.,2015, 15, 176-184.

[47] Y. Zhang,J. Wang, X. F. Yan, X. Q. Liu, H. Zhou, andA. H. Yuan*. Syntheses, structures, thermal stabilities and gas sorption properties of two rod-based microporous lead(Ⅱ) polycarboxylate coordination frameworks.Micropor. Mesopor. Mater.,2014, 184, 15-20.

[48] B. Yan, L. Chen, Y. J. Liu, G. X. Zhu, C. G. Wang, H. Zhang, G. Yang*, H. T. Ye, andA. H. Yuan*.Co₃O₄nanostructures with a high rate performance as anode materials for lithium-ion batteries, prepared via book-like cobalt-organic frameworks.CrystEngComm,2014, 16, 10227-10234.

[49] D. Yang*, H. Zhou,A. H. Yuan*, and Y. Z. Li.Sandwich-like octacyanometalate-based cadmium assemblies with the 4,4'-dipyridyl sulfide ligand.CrystEngComm,2014, 16, 8344-8347.

[50] J. H. Zhang*, L. M. Zhang, H. Yang, Q. H. Kong, Y. J. Liu, andA. H. Yuan*. Sustainable processing of waste polypropylene to produce high yield valuable Fe/Carbon nanotube nanocomposities.CrystEngComm,2014, 16, 8832–8840.

[51] Y. J. Liu, G. X. Zhu, J. Z. Chen, H. Xu, X. P. Shen, andA. H. Yuan*. Co₃O₄/ZnO nanocomposites for gas-sensing applications.Appl. Surf. Sci.,2013,265, 379-384.

[52] H. Zhou, G. W. Diao*, S. Y. Qian, X. Z. Yang,A. H. Yuan*, Y. Song*, and Y. Z. Li. Lanthanide-ion-tuned magnetic properties in a series of three-dimensional cyano-bridged Ln^IIIW^Vassemblies.Dalton Trans.,2012, 41, 10690-10697.

[53] Y. J. Liu, G. X. Zhu, B. L. Ge, H. Zhou,A. H. Yuan*, and X. P. Shen. Concave Co₃O₄Octahedral mesocrystal: polymer-mediated synthesis and sensing properties.CrystEngComm,2012, 14, 6264-6270.

[54] J. Wang, Y. Zhang, X. Q. Liu, J. Xiao, H. Zhou, andA. H. Yuan*. Two Zn(II) and Co(II) coordination compounds based on polycarboxylates and curved 4,4′-azopyridine ligands.Micropor. Mesopor. Mater.,2012, 159, 100-104.

[55] S. Y. Qian, H. Zhou,A.H. Yuan*, and Y. Song. Syntheses, Structures and Magnetic Properties of Five Novel Octacyanometallate-Based Lanthanide Complexes with Helical Chains.Cryst. Growth Des.，2011, 11, 5676-5681.

[56] A.H. Yuan*,S. Y. Qian, W. Y. Liu, H. Zhou, Y. Song*. Two octacyanometallate-based Ni(II)W(V) bimetallic assemblies with metamagnetism.Dalton Trans.,2011, 40, 5302-5306.

[57] X. Chen, H. Zhou, Y. Y. Chen, andA.H. Yuan*. Ligand-concentration-dependent self-organization of Hoffman- and PtS-type frameworks from one-pot crystallization.CrystEngComm,2011, 13, 5666-5669.

[58] H. Zhou,A.H. Yuan*, S. Y. Qian, Y. Song*, and G. W. Diao. Efficient synthetic strategy to construct three-dimensional 4d-5f networks using neutral two-dimensional layers as building blocks.Inorg. Chem.，2010, 49, 5971-5976.

[59] A.H. Yuan*, R. Q. Lu, H. Zhou, Y. Y. Che, and Y. Z. Li. Three unique two-fold interpenetrated three-dimensional networks with PtS-type topology constructed from [M(CN)₄]^2-(M = Ni, Pd, Pt) as “square-planar” building blocks.CrystEngComm,2010, 12, 1382-1384.

[60] A.H. Yuan, J. Z. Zou, B. L. Li, Z. G. Zha, C. Y. Duan, Y. J. Liu, Z. Xu*, and S. Keizer. An unusual three-dimensional porous framework complex｛[Cu(en)₂][KCr(CN)₆]｝_∞(en = ethylenediamine) from a template self-assembly reaction.Chem Commun.,2000, 1297-1298.