Publications

Publications

Date: 2022-08-23




2024


101.Yuan, H.; Krishna, A.; Wei, Z.; Su, Y.; Chen, J.; Hua, W.; Zheng, Z.; Song, D.; Mu, Q.; Pan, W.; Xiao, L.; Yan, J.; Li, G.; Yang, W.; Deng, Z.;Peng, Y*.; Ligand-Bound CO2as a Nonclassical Route toward Efficient Photocatalytic CO2Reduction with a Ni N‑Confused Porphyrin.Journal of the American Chemical Society, (2024).

https://doi.org/10.1021/jacs.3c14717



100.Hua, W.; Liu, T.; Zheng, Z.; Yuan, H.; Xiao, L.; Feng, K.; Hui, J.; Deng, Z.; Ma, M.; Cheng, J.; Song, D.; Lyu, F.; Zhong, J.;Peng, Y*.; Pulse Electrolysis Turns on CO2Methanation through N-Confused Cupric Porphyrin.Angewandte Chemie International Edition, e202315922 (2024).

https://doi.org/10.1002/anie.202315922


99.Ma, M.; Xiong, L.; Dong, Y.; Bai, Q.; Hua, W.; Zheng, Z.; Lyu, F.; Lian, Y.; Wei, Z.; Yuan, H.; Jiao, Z.; Cheng, J.; Song, D.; Wang, M.; Xing, Z.; Zhong, J.; Han, S.; Deng, Z.;Peng, Y*.;Metalloporphyrin Frameworks to Encapsulate Copper Oxides for Boosting Ethylene Production in Neutral Electrolyte.Advanced Functional Material,2315667 (2024).

https://doi.org/10.1002/adfm.202315667



98.Su, Y.; Mu, Q.; Fan, N.; Wei, Z.; Pan, W.; Zheng, Z.; Song, D.; Sun, H.; Lian, Y.; Xu, B.; Yang, W.; Deng, Z.;Peng, Y*.;Accelerating Charge Kinetics in Photocatalytic CO2Reduction by Modulating the Cobalt Coordination in Heterostructures of Cadmium Sulfide/Metal–Organic Layer.Small, 2312020 (2024).

https://doi.org/10.1002/smll.202312020




2023



97.He, Y.; Ding, L.; Cheng, J.; Mei, S.; Xie, X.; Zheng, Z.; Pan, W.; Qin, Y.; Huang, F.;Peng Y*.; Deng Z. A ‘Trinity’ Design of Li-O2Battery Engaging the Slow-Release Capsule of Redox Mediators.Advanced Materials(2023).

https://doi.org/10.1002/adma.202308134



96.Wei, Z.; Su Y.; Pan W.; Shen J.; Fan R.; Yang W.; Deng Z.; Shen M*.;Peng, Y*Covalently Grafting Graphene onto Si Photocathode to Expedite Aqueous Photoelectrochemical CO2Reduction.Angewandte Chemie International Edition,62, e202305558 (2023).

https://doi.org/10.1002/anie.202305558



95.Cheng, J.; Chen, L.; Xie, X.; Feng, K.; Sun, H.; Qin, Y.; Hua, W.; Zheng, Z.; He, Y.; Pan, W.; Yang, W.; Lyu, F.; Zhong, J.; Deng, Z.; Jiao, Y.;Peng, Y. Proton Shuttling by Polyaniline of High Brønsted Basicity for Improved Electrocatalytic Ethylene Production from CO2.Angewandte Chemie International Edition, 10.1002/anie.202312113 (2023).

https://doi.org/10.1002/anie.202312113



94.Wang M.; Lin L.; Zheng Z.; Jiao Z.; Wang G.; KeX.; Lian Y.; Lyu F*.; Zhong J.; Deng Z.;Peng Y*. Hydrophobized Electrospun Nanofibers of Hierarchical Porosity as the Integral Gas Diffusion Electrode for Full-pH CO2Electroreduction in Membrane Electrode Assemblies.Energy & Environmental Science(2023).

https://doi.org/10.1039/D3EE01866K



93.Li, X.; Su Y.; Qin Y.; Huang F.; Mei S.; He Y.; Peng C.; Ding L.; Zhang Y.;Peng, Y.; Deng, Z*. Spatially Confined Silver Nanoparticles in Mercapto Metal-Organic Frameworks to Compartmentalize Li Deposition Towards Anode-FreeLithium Metal Batteries.Advanced Materials.

https://doi.org/10.1002/adma.202303489



92.Lyu, F.; Ma, B.; Xie, X.; Song, D.; Lian, Y.; Yang, H.; Hua, W.; Sun, H.; Zhong, J.; Deng, Z.; Cheng, T.;Peng, Y*.; Pre-Activation of CO2at Cobalt Phthalocyanine-Mg(OH)2Interface for Enhanced Turnover Rate.Advanced Functional Material,33, 2214609 (2023).

https://doi.org/10.1002/adfm.202214609




91. Qin, Y1.; Liu, Y1.; Zhang, Y.; Gu, Y.; Lian, Y.; Su, Y.; Hu, J.; Zhao, X*.;Peng, Y*.; Feng, K.; Zhong, J.;Rümmerli, M.; Deng, Z*. Ru-Substituted MnO2for Accelerated Water Oxidation: The Feedback of Strain-Induced and Polymorph-Dependent Structural Changes to the Catalytic Activity and Mechanism.ACS Catalysis,13, 256-266 (2023).

https://doi.org/10.1021/acscatal.2c04759



90.Hu, J.; Fan, N.; Chen, C.; Wu, Y.; Wei, Z.; Xu. B.;Peng, Y.; Shen, M.; Fan, R. Facet engineering in Au nanoparticles buried in p-Si photocathodes for enhanced photoelectrochemical CO2reduction.Applied Catalysis B: Environmental,327, 122438 (2023)

https://www.sciencedirect.com/science/article/pii/S0926337323000814



89.Li, X.; Su Y.; Ma, Y.; Wei, L.; He, Y.; Gu, Y.; Mei, S.; Mu, Q.; Peng C.;Peng Y.; Deng Z*. Photoactive cobalt-bipyridine electron mediator promotes reversible Li2O2formation in irradiated Li-O2battery.Applied Catalysis B: Environmental,337, 122964 (2023).

https://doi.org/10.1016/j.apcatb.2023.122964


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88. Su,Y.; Wei Z.; Lian Y.; Mu Q.; Pan W.; Song D.; Qin Y.; Hua W.; Cheng J.; Deng Z.;Peng Y*. Defect-driven electroless deposition andactivation of platinum sites on ZnIn2S4nanosheetsfor accelerated kinetics of photocatalytic hydrogen production.Applied Catalysis B: Environmental,334, 122827 (2023).

https://doi.org/10.1016/j.apcatb.2023.122827



87. Pan, W.; Wei, Z.; Su, Y.; Lian. Y.; Zheng, Z.; Yuan, H.; Qin, Y.; Xie, X.; Bai, Q.; Jiao, Z.; Hua, W.; Chen, J.; Yang, W.; Deng, Z.;Peng, Y*. Hydroxylated matal-organic-layer nanocages anchoring single atomic cobalt sites for robust photocatalytic CO2reduction.Nano Research(2023).

https://doi.org/10.1007/s12274-023-6083-2



86.Bai, Y.; Wei L.; Lian Y.; Wei Z.; Song D.; Su Y.; Zhu X.; Huo W.; Cheng J.;Peng Y.; Deng Z. Electrolyte-Impregnated Mesoporous Hollow Microreactor to Supplement an Inner Reaction Pathway for Boosting the Cyclability of Li-CO2Batteries.ACS Applied Materials & Interfaces,15, 41457−41465 (2023).

https://doi.org/10.1021/acsami.3c05778



85. He, Y.; Su, Y.; Qin, Y.; Ding, L.; Li, X.; Mei, S.; Zhang, Y.; Ma, Y.; Wei, L.; Gu, Y.;Peng, Y.; Deng, Z*. Stepping Up the Kinetics of Li-O2Batteries by Shrinking Down the Li2O2Granules through Concertedly Enhanced Catalytic Activity and Photoactivity of Se-doped LaCoO3.ACS Applied Materials & Interfaces,15, 7, 9285-9295 (2023)

https://doi.org/10.1021/acsami.2c19975



84.Fan, X.; Cheng, J.; Qiu, M.; Zhang, Y.; Chen, S.; Zhang, Z.;Peng, Y.; Zhang, J.; Zhang, L. Biomimetic Cu4Cluster Encapsulated within Hollow Titanium-Oxo Nanoring for Electrochemical CO2Reduction to Ethylene.ACS Materials Letters,5, 1527−1531 (2023).

https://doi.org/10.1021/acsmaterialslett.3c00101




83.Zhu, P.; Chen, C.; Shen, J.; Wei, Z.; Wang, Y.; Zhang, Y.; Dong, W.;Peng, Y.; Fan, R.; Shen, M. 5.7% Efficiency Si Photoanodes for Solar Water Splitting Catalyzed by Vertically Grown and Oxygen-Vacancy-Rich NiFe Hydroxides.Advanced Sustainable System,7, 2300022 (2023).

https://doi.org/10.1002/adsu.202300022



82. Song, D.; Lian, Y.; Wang, M.; Su, Y.; Lyu, F*.; Deng, Z.;Peng, Y*. Electrochemical CO2reduction catalyzed by organic/inorganic hybrids.eScience, 100097 (2023).

https://doi.org/10.1016/j.esci.2023.100097



81. Li, Z.; Zhao, X*.; Hu, J.; Yuan, X.; Qin, Y.; Wang, C.; Chen, M.;Peng, Y.; Ahn, J.; Deng, Z*.Orchestrating multiple cobalt compounds via a unique dual-templating design towards enhanced sulfur conversion kinetics.Electrochimica Acta,439,141720 (2023).

https://doi.org/10.1016/j.electacta.2022.141720




2022




80. Yang, B.;Chen, L.; Xue, S.; Sun, H.; Feng, K.; Chen, Y.; Zhang, X.; Xiao, L.; Qin, Y.;Zhong, J.; Deng, Z*.; Jiao, Y* and Peng, Y*. Electrocatalytic CO2reduction to alcoholsby modulating the molecular geometry and Cu coordination in bicentric coppercomplexes.Nature Communications,13, 5122 (2022).

https://doi.org/10.1038/s41467-022-32740-z


79. Xie, X.; Zhang, X.; Xie, M.; Xiong, L.; Sun, H.; Lu, Y.; Mu, Q.; Rümmerli, M., Xu, J.; Li, S.; Zhong, J.; Deng, Z.; Ma, B.; Cheng, T*.; Goddard III, W*.;Peng, Y*. Au-activated N motifs in non-coherent cupric porphyrin metal organic frameworks for promoting and stabilizing ethylene production.Nature Communications,13,63 (2022).

https://doi.org/10.1038/s41467-021-27768-6


78. Ma, Y.; Wei, L.; He, Y.; Yuan, X.; Su, Y.; Gu, Y.; Li, X.; Zhao, X.; Qin, Y.; Mu, Q.;Peng, Y*.; Sun, Y.; Deng, Z*. A “Blockchain” Synergy in Conductive Polymer-Filled Metal-Organic Frameworks for Dendrite-Free Li Plating/Stripping with High Coulombic Efficiency.Angew. Chem. Int. Ed.e202116291 (2022).

https://doi.org/10.1002/anie.202116291


77. Ma, Y.; Gu, Y.; He, Y.; Wei, L.; Lian, Y.; Pan, W.; Li, X.; Su, Y.;Peng, Y.; Deng, Z.; Liu, Z. Fast-charging and dendrite-free lithium metal anode enabled by partial lithiation of graphene aerogel.Nano Reasearch.(2022)

https://doi.org/10.1007/s12274-022-4261-2



76. Sun, H.; Lin, L.; Hua, W.; Xie,X.; Mu, Q.; Feng, K.; Zhong, J.; Lyu, F.; Deng, Z.; Peng, Y*.Atomically dispersed Co-Cu alloy reconstructed from metal-organic framework topromote electrochemical CO2methanation. Nano Research (2022).

https://doi.org/10.1007/s12274-022-4728-1


75. Cheng, J.; Bai, Y.; Lian, Y.; Ma, Y.; Yin, Z.; Wei, L.; Sun, H.; Su, Y.; Gu, Y.; Kuang, P.; Zhong, J.;Peng, Y.; Wang, H*.; and Deng, Z*.ACS Appl. Mater. Interfaces,14, 18561-18569 (2022).

https://doi.org/10.1021/acsami.2c02249


74. Hua, W.; Sun, H.; Lin, L.; Mu, Q.; Yang, B.; Su, Y.; Wu, H.; Lyu, F*.; Zhong, J.; Deng, Z*.; Peng, Y*. A hierarchical Single-Atom Ni-N3-C catalyst for electrochemical CO2reduction to CO with Near-Unity faradaic efficiency in a broad potential range.Chemical Engineering Journal,446,137296 (2022).

https://doi.org/10.1016/j.cej.2022.137296


73. Wei, L.; Su, Y.; Ma, Y.; Gu, Y.; Qin, Y.; Wu, X.; He, Y.; Li, Xin.; Peng, Y*.; Deng, Z*. Photoluminescent WSe2nanofibers as freestanding cathode for Solar-assisted Li-O2battery with ultrahigh capacity and transparent casing.Chemical Engineering Journal,448,137591 (2022).

https://doi.org/10.1016/j.cej.2022.137591



72. Lin, L.; Sun, H.; Yuan, X.; Gu, Y.; Mu, Q.; Qi, P.; Yan, T.; Zhang, L.;Peng, Y.; Deng, Z*. Rational design and mass-scale synthesis of guar-derived bifunctional oxygen catalyst for rechargeable Zn-air battery with active sites validation.Chemical Engineering Journal,428, 131225 (2022).

https://doi.org/10.1016/j.cej.2021.131225


71. Wei, Z.; Mu, Q.; Fan, R.; Su, Y.; Lu, Y.; Deng, Z.; Shen, M*.; Peng, Y*. Cupric porphyrin frameworks on multi-junction silicon photocathodes to expedite the kinetics of CO2turnover.Nanoscale,14, 8906-8913 (2022).

https://doi.org/10.1039/D2NR01921C


70. Cheng, J.; Bai, Y.; Wei, Z.; Mu, Q.; Sun, H.; Lin, L.; Xiao, L.; Xie, X.; Deng, Z*.; Peng, Y*. Design of experiments unravels insights into selective ethylene or methane production on evaporated Cu catalysts.Journal of EnergyChemistry,(2022)

https://doi.org/10.1016/j.jechem.2022.06.036




2021




69. Xiong, L.; Zhang, X.; Chen, L.; Deng, Z.; Han, S*.; Chen, Y.; Zhong, J*.; Sun, H.; Lian, Y.; Yang, B.; Yuan, X.; Yu, H.; Liu, Y.; Yang, X.; Guo, J.; Rümmerli, M., Jiao, Y*.;Peng, Y*.Geometric Modulation of Local CO Flux in Ag@Cu2O Nanoreactors for Steering the CO2RR Pathway toward High-Efficacy Methane Production.Advanced Materials,33, 2101741 (2021).

https://doi.org/10.1002/adma.202101741

68. Sun, H.; Chen, L.; Xiong, L.; Feng, K.; Chen, Y.; Zhang, X.; Yuan, X.; Yang, B.; Deng, Z.; Liu, Y.; Rümmerli, M.; Zhong, J*.; Jiao, Y*.;Peng, Y*. Promoting ethylene production over a wide potential window on Cu crystallites induced and stabilized via current shock and charge delocalization.Nature Communications,12,6823 (2021).

https://doi.org/10.1038/s41467-021-27169-9



67. Su, Y.; Song, Z.; Zhu, W.; Mu, Q.; Yuan, X.; Lian, Y.; Cheng, H.; Deng, Z.; Chen, M.; Yin, W.;Peng, Y*. Visible-Light Photocatalytic CO2Reduction Using Metal-Organic Framework Derived Ni(OH)2Nanocages: A Synergy from Multiple Light Reflection, Static Charge Transfer, and Oxygen Vacancies;ACS Catalysis,11, 345-354(2021).

https://doi.org/10.1021/acscatal.0c04020


66. Yuan, X.; Mu, Q.; Xue, S.; Su, Y.; Zhu, Y.; Sun, H.; Deng, Z.;Peng, Y*.Polypyrrole reinforced ZIF-67 with modulated facet exposure and billion-fold electrical conductivity enhancement towards robust photocatalytic CO2reduction;Journal of Energy Chemistry,60,202-208 (2021).

https://doi.org/10.1016/j.jechem.2020.12.025


65. Mu, Q.; Su, Y.; Wei, Z.; Sun, H.; Lian, Y.; Dong, Y.; Qi, P.; Deng, Z.;Peng, Y*. Dissecting the Interfaces of MOF-Coated CdS on Synergized Charge Transfer for Enhanced Photocatalytic CO2Reduction;Journal of Catalysis,397,128-136 (2021).

https://doi.org/10.1016/j.jcat.2021.03.018


64. Qi, P.; Zhao, L.; Deng, Z*.; Sun, H.; Li, H.; Liu, Q.; Li, X.; Lian, Y.; Cheng, J*.; Guo, J.; Cui, Y.;Peng, Y*. Revisiting the Grain and Valence Effect of Oxide-Derived Copper on Electrocatalytic CO2Reduction Using Single Crystal Cu(111) Foils;Journal of Physical Chemistry Letters,12, 3941-3950 (2021).

https://doi.org/10.1021/acs.jpclett.1c00588


63. Qin, M.; Mu, Q.; Bao, S.; Liang, X.;Peng, Y*; Zheng, L*. Chemically Exfoliated Semiconducting Bimetallic Porphyrinylphosphonate Metal-Organic Layers for Photocatalytic CO2Reduction under Visible Light;ACS Appl. Energy Mater,4,5, 4319-4326(2021).

https://doi.org/10.1021/acsaem.1c00765


62. Yu, H.; Wu, Q.; Mu, Q.; Wei, Z.; Gu, Y.; Yuan, X.; Lu, Y*.; Deng, Z.;Peng, Y*. Robust photocatalytic hydrogen production on metal-organic layers of Al-TCPP with ultrahigh turnover numbers;ChineseChemical Letters, 32, 12, 3833-3836(2021).

https://doi.org/10.1016/j.cclet.2021.05.035


61. Gu, Y,; Min, Y.; Li, L.; Lian, Y.; Sun, H.; Wang, D.; Mark, H.; Guo, J.; Zhong, J*.; Xu, L*.;Peng, Y.; Deng, Z*. Crystal Splintering of βMnO2Induced by Interstitial Ru Doping Toward Reversible Oxygen Conversion.Chemistry of Materials,33, 4135-4145 (2021).

https://doi.org/10.1021/acs.chemmater.1c00828


60. Ma, Y.; Qi, P.; Ma, J.; Wei, L.; Zhao, L.; Cheng, J.; Su, Y.; Gu, Y.; Lian, Y.;Peng, Y.; Shen, L.; Deng, Z*.; Liu, Z. Wax-Transferred Hydrophobic CVD Graphene Enables Water-Resistant and Dendrite-Free Lithium Anode toward Long Cycle Li-Air Battery.Advanced Science,2100488 (2021).

https://doi.org/10.1002/advs.202100488


59. Wei, L.; Ma, Y.; Gu, Y.; Yuan, X.; He, Y.; Li, X.; Zhao, L*.;Peng, Y.; Deng, Z*. Ru-Embedded Highly Porous Carbon Nanocubes Derived from Metal-Organic Frameworks for Catalyzing Reversible Li2O2Formation.ACS Applied Materials & Interfaces,13, 28295-28303 (2021).

https://doi.org/10.1021/acsami.1c06572


58. Zhao, X*.; Wang, C.; Li, Z.; Hu, X.; Razzaq, A.;Deng, Z*. Sulfurized Polyacrylonitrile for High-Performance Lithium Sulfur Batteries: Advances and Prospects.Journal of Materials Chemistry A,9, 19282-19297 (2021).

https://doi.org/10.1039/D1TA03300J


57. Zhang, X.; Xie, X.; Xiong, L.;Peng, Y*. Urchin-like Gold Nanoneedle for Efficient Electrocatalytic CO2Reduction.Chinese Journal of ChineseUniversities,42, 2824-2831 (2021).

http://www.cjcu.jlu.edu.cn/CN/10.7503/cjcu20210408


56. Yuan, X.; Zhao, X*.; Hu, J.; Li, Z.; Qin, Y.;Peng, Y.; Deng, Z*. Entrapping polysulfides via S, N-coordinated supermolecule towards enhanced Li-S kinetics.Chemical Engineering Journal,426, 131355 (2021).

https://doi.org/10.1016/j.cej.2021.131355



55. Ma, Y.; Wei, L.; Gu, Y.; Zhao, L.; Jing, Y.; Mu, Q.; Su, Y.; Yuan, X.;Peng, Y.; Deng, Z*. Insulative Ion-Conducting Lithium Selenide as the Artificial Solid–Electrolyte Interface Enabling Heavy-Duty Lithium Metal Operations.Nano Letters,21, 17, 7354-7362 (2021).

https://doi.org/10.1021/acs.nanolett.1c02658


54. Wei, Z.; Mu, Q.; Li, X.; Yuan, X.; Su, Y.; Deng, Z.;Peng, Y*.; Shen, M*. In Situ Constructed P-N Junction on Cu2O Nanocubes through Reticular Chemistry for Simultaneously Boosting CO2Reduction Depth and Ameliorating Photocorrosion.Adv. Energy Sustainability Res.2100134 (2021).

https://doi.org/10.1002/aesr.202100134


53. Razzaq, A.; Chen, G.; Zhao, X*.; Yuan, X.; Hu, J.; Li, Z.; Chen, Y.; Xu, J.; Shah, R.; Zhong, J.;Peng, Y.; Deng, Z*. Cobalt coordination with pyridines in sulfurized polyacrylonitrile cathodes to form conductive pathways and catalytic M-N4S sites for accelerated Li-S kinetics.Journal of Energy Chemistry,61,170-178 (2021).

https://doi.org/10.1016/j.jechem.2021.01.012


52. Hu, J.; Qin, Y.; Sun, H.; Ma, Y.; Lin, L.;Peng, Y.; Zhong, J.; Chen, M.; Zhao, X*.; Deng, Z*. Combining Multivariate Electrospinning with Surface MOF Functionalization to Construct Tunable Active Sites toward Trifunctional Electrocatalysis.Small, 2106260 (2021).

https://doi.org/10.1002/smll.202106260


51. Lyu, F.; Hua, W.; Wu, H.; Sun, H.; Deng, Z.;Peng, Y*. Structural and interfacial engineering of well-defined metal-organic ensembles for electrocatalytic carbon dioxide reduction.Chinese Journal of Catalysis,

https://www.cjcatal.com/CN/10.1016/S1872-2067(21)63980-3




2020





50. Ma, Y.; Wei, L.; Gu, Y.; Hu, J.; Chen, Y.; Qi, P.; Zhao, X.;Peng, Y.; Deng, Z*.; Liu, Z. High‐Performance Li-O2Batteries Based on All‐Graphene Backbone;Advanced Functional Materials, 2007218 (2020).

https://doi.org/10.1002/adfm.202007218



49. Qi, P.; Gu, Y.; Sun, H.;Lian, Y.; Yuan, X.; Hu, J.; Deng, Z.; Yao, H.; Guo, J.;Peng, Y*.Active nickel derived from coordination complex with weak inter/intra-molecular interactions for efficient hydrogen evolution via a tandem mechanism;Journal of Catalysis,389, 29-37(2020).

https://doi.org/10.1016/j.jcat.2020.05.013



48. Razzaq, A.; Yuan, X.; Chen, Y.;Hu, J.;Mu, Q.; Ma, Y.; Zhao, X*.; Miao, L.; Ahn, J.;Peng, Y.; Deng, Z*. Anchoring MOF-derived CoS2on sulfurized polyacrylonitrile nanofibers for high areal capacity lithium-sulfur batteries;Journal of Materials Chemistry A,8, 1298-1306 (2020).

https://doi.org/10.1039/C9TA11390H


47. Wu, Y.; Yi, Y.; Sun, Z.; Sun, H.; Guo, T.; Zhang, M.; Cui, L.; Jiang, K.;Peng, Y*.; Sun, J*. Bimetallic Fe-Ni phosphide carved nanoframes toward efficient overall water splitting and potassium-ion storage;Chemical Engineering Journal,390, 124515 (2020).

https://doi.org/10.1016/j.cej.2020.124515


46. Xiong, L.; Zhang, X.; Yuan, H.; Wang, J.; Yuan, X.;Lian, Y.; Jin, H.; Sun, H.; Deng, Z*.; Wang, D.; Hu, J.; Hu, H.; Choi, J.; Li, J.; Chen, Y.; Zhong, J*.; Guo, J.; Rummerli, M; Xu, L*.;Peng, Y*. Breaking Linear Scaling Relationship by Compositional and Structural Crafting of Ternary Cu-Au/Ag Nanoframes for Electrocatalytic Ethylene Production;Angewandte Chemie International Edition,59, 2-13 (2020).

https://doi.org/10.1002/anie.202012631


45. Mu, Q.; Zhu, W.; Li, X.; Zhang, C.; Su, Y.; Lian, Y.; Qi, P.; Deng, Z.; Zhang, D.; Wang, S.; Zhu, X.;Peng, Y*. Electrostatic Charge Transfer for Boosting the Photocatalytic CO2Reduction on Metal Centers of 2D MOF/rGO Heterostructure;Applied Catalysis B Environmental,262, 118144 (2020).

https://doi.org/10.1016/j.apcatb.2019.118144


44. Lian, Y.; Shi, K.; Yang, H.; Sun, H.; Qi, P.; Ye, J.; Wu, W.; Deng, Z.;Peng, Y*. Elucidation of Active Sites on S, N Co-doped Carbon Cubes Embedding Co-Fe Carbides toward Reversible Oxygen Conversion in High-Performance Zinc-Air Batteries;Small,16, 1907368 (2020).

https://doi.org/10.1002/smll.201907368


43. Sun, H.; Li, Q.; Lian, Y.; Zhang, C.; Qi, P.; Mu, Q.; Jin, H.; Zhang, B.; Chen, M.; Deng Z.;Peng, Y*. Highly Efficient Water Splitting Driven by Zinc-air Batteries with a Single Catalyst Incorporating Rich Active Species;Applied Catalysis B Environmental,263, 118139 (2020).

https://doi.org/10.1016/j.apcatb.2019.118139


42. Yang, C.; Li, Y.; Zhang, B.;Lian, Y.; Ma, Y.; Zhao, X.; Zeng, X.; Li, J.; Deng, Z*.; Ye, J.; Wu, W.;Peng, Y*. Nitrogen-doped carbon fibers embedding CoOxnanoframes towards wearable energy storage;Nanoscale,12, 8922-8933(2020).

https://doi.org/10.1039/D0NR00582G


41. Li, Q.; Zhu, W*.; Lian, Y.;Peng, Y.; Deng, Z*. One-dimensional HKUST-1 nanobelts from Cu nanowires;ChineseChemical Letters,31, 517-520(2020).

https://doi.org/10.1016/j.cclet.2019.05.005


40. Yuan, X.; Razzaq, A.; Chen, Y.;Lian, Y.; Zhao, X*.;Peng, Y.; Deng, Z*. Polyacrylonitrile-based gel polymer electrolyte filled with Prussian blue for high-performance lithium polymer batteries;ChineseChemical Letters,32, 890-894(2020).

https://doi.org/10.1016/j.cclet.2020.07.008


39. Ma, Y.; Jing, Y.; Gu, Y.; Qi, P.;Lian, Y.; Yang, C.; Razzaq, A.; Zhao, X.;Peng, Y.; Zeng, X.; Li, J.; Deng, Z*. Redox-Driven Lithium Perfusion to Fabricate Li@Ni-Foam Composites for High Lithium-Loading 3D Anodes;ACS Applied Materials & Interfaces,12, 9355-9364 (2020).

https://dx.doi.org/10.1021/acsami.9b22530


38. Chen, Y.; Liu, S.; Yuan, X.; Hu, X.; Ye, W.; Razzaq, A.; Lian, Y.; Chen, M.; Zhao, X*.;Peng, Y.; Choi, J*.; Ahn, J.; Deng, Z*. rGO-CNT aerogel embedding iron phosphide nanocubes for high-performance Li-polysulfide batteries;Carbon,167, 446-454(2020).

https://doi.org/10.1016/j.carbon.2020.05.066


37. Hu, J.; Yuan, X.; Wang, C.; Shao, X.; Yang, B.; Razzaq, A.; Zhao, X*.; Lian, Y.; Deng, Z*.; Chen, M.;Peng, Y*. Self-Phosphorization of MOF-Armored Microbes for Advanced Energy Storage;Small,16, 2000755 (2020).

https://doi.org/10.1002/smll.202000755


36. Sun, H., Chen, L., Lian, Y., Yang, W., Lin, L., Chen, Y., Xu, J., Wang, D., Yang, X., Rümmerli, M., Guo, J., Zhong, J*., Deng, Z., Jiao, Y*.,Peng, Y*., Qiao, S. Topotactically Transformed Polygonal Mesopores on Ternary Layered Double Hydroxides Exposing Under-Coordinated Metal Centers for Accelerated Water Dissociation;Adv. Mater,32, 2006784 (2020).

https://doi.org/10.1002/adma.202006784


35. Lian, Y.; Yang. W.; Zhang C.; Sun, H.; Deng, Z.; Xu, W.; Song, L.; Ouyang Z.; Wang, Z.; Guo, J.;Peng, Y*. Unpaired 3d Electron on Atomically dispersed Cobalt Centre in Coordination Polymers to Regulate both ORR Activity and Selectivity;Angewandte Chemie International Edition,59, 286-294 (2020).

https://doi.org/10.1002/anie.201910879


34. Jin, H.; Gu, Y.; Lian, Y.; Xue S*.; Fang Y.; Deng, Z.; Sakamoto M.; Teranishi T.;Peng, Y*. Disulfide-Bridged Dimeric Cobalt Porphyrin: Synthesis and Electroreduction of Dioxygen;Chinese Journal of Inorganic Chemistry,36, 2377-2384 (2020).


33. Fan, R.; Mu, Q.; Wei, Z.;Peng, Y.;Shen, M*. Atomic Ir-doped NiCo layered double hydroxide as a bifunctional electrocatalyst for highly efficient and durable water splitting;Journal of Materials Chemistry A,8, 9871-9881 (2020).


32. Haridas, A.; Heo, J.; Li, X.; Ahn, H.; Zhao, X.;Deng, Z.; Agostini, M.; Matic, A.; Ahn, J*.A flexible and free-standing FeS/sulfurized polyacrylonitrile hybrid anode material for high-rate sodium-ion storage;Chemical Engineering Journal,385, 123453 (2020).

https://doi.org/10.1016/j.cej.2019.123453


31. Li, F.; Wang, C.; Han, X.; Feng, X.; Qu, Y.; Liu, J*.; Chen, W.; Zhao, L.; Song, X.; Zhu, H.; Chen, H.; Zhao, M.;Deng, Z.; Wu, J.; Zhang, P*.; Gao, L.Confinement Effect of Mesopores: In Situ Synthesis of Cationic Tungsten-Vacancies for a Highly Ordered Mesoporous Tungsten Phosphide Electrocatalyst;ACS Appl. Mater. Interfaces,12, 22741-22750 (2020).

https://dx.doi.org/10.1021/acsami.9b22761


30. Jin, H.; Xiong, L.; Zhang, X.;Lian, Y.; Chen, S.; Lu, Y*.; Deng, Z.;Peng, Y*. Cu-based Catalyst Derived from Nitrogen-containing Metal Organic Frameworks for Electroreduction of CO2;Acta Physico Chimica Sinica,37, 2006017 (2021).




2019





29. Xiong, L.; Sun, Z.; Zhang, X.; Zhao, L.; Huang, P.; Chen, X.; Jin, H.; Sun, H.; Lian, Y.; Deng, Z*.; Rummerli, M.; Yin, W.*; Zhang, D.; Wang, S.;Peng, Y*. Octahedral gold-silver nanoframes with rich crystalline defects for efficient methanol oxidation manifesting a CO-promoting effect;Nature Communications,10, 3782 (2019).

https://doi.org/10.1038/s41467-019-11766-w


28. Sun, H.; Min, Y.; Yang, W.; Lian, Y.; Lin, L.; Feng, K.; Deng, Z.*; Chen, M.; Zhong, J.; Xu, L.*;Peng, Y*. Morphological and Electronic Tuning of Ni2P through Iron Doping toward Highly Efficient Water Splitting;ACS Catalysis,9, 8882-8892 (2019).

http://dx.doi.org/10.1021/acscatal.9b02264


27. Yang, C.; Yao, Y.; Lian, Y.; Chen, Y.; Shah, R.; Zhao, X*.;Chen, M.;Peng, Y*.; Deng, Z*. A Double-Buffering Strategy to Boost the Lithium Storage of Botryoid MnOx/C Anodes;Small,15, 1900015 (2019).

https://doi.org/10.1002/smll.201900015


26. Ma, Y.; Gu, Y.; Yao, Y.; Jin, H.; Zhao, X.; Yuan, X.; Lian, Y.; Qi, P.; Shah, R.;Peng, Y.; Deng, Z*. Alkaliphilic Cu2O nanowires on copper foam for hosting Li/Na as ultrastable alkali-metal anodes;Journal of Materials Chemistry A,7, 20926-20935 (2019).

https://doi.org/10.1039/c9ta08687k


25. Ma, B.;Peng, Y*. Ma, D*.; Deng, Z.; Lu, Z. Boron-doped InSe monolayer as a promising electrocatalyst for nitrogen reduction into ammonia at ambient conditions;Applied Surface Science,495, 143463 (2019).

https://doi.org/10.1016/j.apsusc.2019.07.205


24. Lian, Y.; Sun, H.; Wang, X.; Qi, P.; Mu, Q.; Chen, Y.; Ye, J.; Zhao, X.; Deng, Z.*;Peng, Y.*Carved nanoframes of cobalt-iron bimetal phosphide as a bifunctional electrocatalyst for efficient overall water splitting;Chemical Science,10, 464-474 (2019).

https://doi.org/10.1039/c8sc03877e


23. Zhang, C.; Chen, Z.; Lian, Y.; Chen, Y.; Li, Q.; Gu, Y.; Lu, Y.; Deng, Z.;Peng, Y*. Copper-based Conductive Metal Organic Framework In-situ Grown on Copper Foam as a Bifunctional Electrocatalyst;Acta Physico-Chimica Sinica,35, 1404-1411 (2019).

https://doi.org/10.3866/PKU.WHXB201905030


22. Zhang, B.; Li, Y.; Yang, C.;Deng, Z*. Yolk-shell manganese oxide nanostructures for lithium-ion battery anodes;Chinese Science Bulletin,64, 3371-3377 (2019).

https://engine.scichina.com/doi/10.1360/TB-2019-0500


21. Shah, R.; Alam, N.; Razzaq, A.; Yang, C.; Chen, Y.; Hu, J.; Zhao, X*.;Peng, Y.; Deng, Z*. Effect of Binder Conformity on the Electrochemical Behavior of Graphite Anodes with Different Particle Shapes;Acta Physico-Chimica Sinica,35, 1382-1390 (2019).

https://doi.org/10.3866/PKU.WHXB201903060


20. Shi, K.; Yang, H.; Lian, Y.;Peng, Y*. Hierarchical structure N-CoFe-C@NF derived from MOF for rechargeable zinc-air battery;Chinese ScienceBulletin,64, 3378-3384 (2019).

http://engine.scichina.com/doi/10.1360/TB-2019-0539


19. Razzaq, A. ; Yao, Y.; Shah, R.; Qi, P.; Miao, L.; Chen, M.; Zhao, X*.;Peng, Y.; Deng, Z*.High-performance lithium sulfur batteries enabled by a synergy between sulfur and carbon nanotubes;Energy Storage Materials,16, 194-202 (2019).

https://doi.org/10.1016/j.ensm.2018.05.006


18. Xia, Z.; Sun, H.; He, X.; Sun, Z.; Lu, C.; Li, J.;Peng, Y*.; Dou, S.; Sun, J*. Liu, Z. In situ construction of CoSe2@vertical-oriented graphene arrays as self-supporting electrodes for sodium-ion capacitors and electrocatalytic oxygen evolution;Nano Energy,60, 385-393 (2019).

https://doi.org/10.1016/j.nanoen.2019.03.052


17. Gu, Y.; Yan, G.; Lian, Y.; Qi, P.; Mu, Q.; Zhang, C.; Deng, Z.*;Peng, Y*. MnIII-enriched α-MnO2nanowires as efficient bifunctional oxygen catalysts for rechargeable Zn-air batteries;Energy Storage Materials,23, 252-260 (2019).

https://doi.org/10.1016/j.ensm.2019.05.006


16. Yao, Y.; Zhao, X.; Razzaq, A.; Gu, Y.; Yuan, X.; Shah, R.; Lian, Y.; Lei, J.; Mu, Q.; Ma, Y.;Peng, Y.; Deng, Z*.; Liu, Z. Mosaic rGO layers on lithium metal anodes for the effective mediation of lithium plating and stripping;Journal of Materials Chemistry A,7, 12214-12224 (2019).

https://doi.org/10.1039/c9ta03679b


15. Qi, P.; Huang, Y.; Yao, Y.; Li, Q.; Lian, Y.; Lin, L.; Wang, X.; Gu, Y.; Li, L.; Deng, Z*.;Peng, Y*.; Liu, Z. Wax-assisted crack-free transfer of monolayer CVD graphene: Extending from standalone to supported copper substrates;Applied Surface Science,493, 81-86 (2019).

https://doi.org/10.1016/j.apsusc.2019.07.007


14. Chen, Y.; Yuan, X.; Yang, C.; Lian, Y.; Razzaq, A.; Shah, R.; Guo, J.; Zhao, X*.;Peng, Y.; Deng, Z*. γ-Fe2O3nanoparticles embedded in porous carbon fibers as binder-free anodes for high-performance lithium and sodium ion batteries;Journal of Alloys and Compounds,777, 127-134 (2019).

https://doi.org/10.1016/j.jallcom.2018.10.371


13. Haridas, A.;Heo, J.;Liu, Y.; Ahn, H.; Zhao, X.;Deng, Z.; Agostini, M.; Matic, A.; Cho, H*.; Ahn, J*.Boosting High Energy Density Lithium-Ion Storage via the Rational Design of an FeS-Incorporated Sulfurized Polyacrylonitrile Fiber Hybrid Cathode;ACS Appl. Mater. Interfaces,11,29924-29933(2019).

http://dx.doi.org/10.1021/acsami.9b09026


12. Yang, H.;Zhao, L.; Xue, S.;Deng, Z.; Li, J*.; Zeng, X*.Branch-chain length modulated graphene oxides for regulating the physicochemical and tribophysical properties of pickering emulsions;Colloids and Surfaces A: Physicochemical and Engineering Aspects,579,123703(2019).

https://doi.org/10.1016/j.colsurfa.2019.123703


11. Zhao, L.; Yang, H.; Liu, C.; Xue, S.;Deng, Z.; Li, J*.; Zeng, X*. The Correlation Between Molecular Structure and Tribological Properties of Graphene Oxide with Different Oxidation Degree;Tribology Letters,67, 85 (2019).

https://doi.org/10.1007/s11249-019-1199-y


10. Zhang, Y.; Huang, B.; Shao, Q.; Feng, Y.; Xiong, L.;Peng, Y.; Huang, X*. Defect Engineering of Palladium-Tin Nanowires Enables Efficient Electrocatalysts for Fuel Cell Reactions;Nano Letters,19, 6894-6903 (2019).

https://doi.org/10.1021/acs.nanolett.9b02137




2018





9. Sun, H.; Lian, Y.; Yang, C.; Xiong, L.; Qi, P.; Mu, Q.; Zhao, X.; Guo, J.; Deng, Z*.;Peng, Y*. A hierarchical Nickel-Carbon Structure Templated by Metal-Organic Frameworks for Efficient Overall Water Splitting;Energy & Environmental Science,11,2363-2371 (2018).

https://doi.org/10.1039/c8ee00934a


8. Yan, G.; Lian, Y.; Gu, Y.; Yang, C.; Sun, H.; Mu, Q.; Li, Q.; Zhu, W.; Zheng, X.; Chen, M.; Zhu, J.; Deng, Z*.;Peng, Y*. Phase and Morphology Transformation of MnO2Induced by Ionic Liquids toward Efficient Water Oxidation;ACS Catalysis,8,10137-10147 (2018).

http://dx.doi.org/10.1021/acscatal.8b02203


7. Shao, Q.; Wang, Y.; Yang. S.; Lu, K.; Zhang, Y.; Tang, C.; Song, J.; Feng, Y.; Xiong, L.;Peng, Y.; Li, Y*.; Xin, H.; Huang, X*. Stabilizing and Activating Metastable Nickel Nanocrystals for Highly Efficient Hydrogen Evolution Electrocatalysis;ACS Nano,12, 11625-11631 (2018).

http://dx.doi.org/10.1021/acsnano.8b06896


6. Zhu, W.; Zhang, C.; Li, Q.; Xiong, L.; Chen, R.; Wan, X.; Wang, Z.; Chen, W.; Deng, Z.*;Peng, Y*. Selective reduction of CO2by conductive MOF nanosheets as an efficient co-catalyst under visible light illumination;Applied Catalysis B:Environmental, 238,339-345 (2018).

https://doi.org/10.1016/j.apcatb.2018.07.024


5. Mu, Q.; Zhu, W.; Yan, G.; Lian, Y.; Yao, Y.; Li, Q.; Tian, Y.; Zhang, P.; Deng, Z*.;Peng, Y*. Activity and Selectivity Regulation through varying the size of cobalt active sites in Photocatalytic CO2Reduction;Journal of Materials Chemistry A,6,21110-21119 (2018).

https://doi.org/10.1039/c8ta06151c


4. Gu, J.; Yan, G.; Lian, Y.; Mu, Q.; Jin, H.; Zhang, Z.; Deng, Z*.;Peng, Y*. Bandgap engineering of a lead-free defect perovskite Cs3Bi2I9through trivalent doping of Ru3+;RSC Advances,8,25802-25807 (2018).

https://doi.org/10.1039/c8ra04422h


3. Rahim, S.; Gu, J.; Razzaq, A.; Zhao, X.; Shen, X.; Miao, L.; Yan, C.;Peng, Y*.;Deng, Z*. Freestanding Electrode Pairs with High Areal Density Fabricated under High Pressure and High Temperature for Flexible Lithium Ion Batteries;ACS Appl. Energy Mater,1,3171-3179 (2018).

http://dx.doi.org/10.1021/acsaem.8b00388


2. Chen, Y.; Zhao, X*.; Liu. Y.; Razzaq, A.; Haridas, A.; Cho, K.;Peng, Y.; Deng, Z*.; Ahn, J*. γ-Fe2O3nanoparticles aligned in porous carbon nanofibers towards long life-span lithium ion batteries;Electrochimica Acta,289, 264-271 (2018).

https://doi.org/10.1016/j.electacta.2018.08.088


1. Li, H.; Chen, Y.; Zhao, X.;Deng, Z*. Fabrication and electrochemical performance of mesoporous α-Fe2O3anodes for lithium and sodium ion batteries;Chinese Journal of Inorganic Chemistry,34, 1670-1676 (2018).

https://doi.org/10.11862/CJIC.2018.221



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