当前位置: X-MOL首页全球导师 国内导师 › 支春义

个人简介

Dr. Chunyi Zhi obtained his Ph.D. in physics from the Institute for Physics, Chinese Academy of Sciences, specializing in the topic of property investigation of BCN nanostructures. After two years of a postdoctoral fellow at the National Institute for Materials Science (NIMS) in Japan, he was promoted to ICYS researcher, researcher (faculty) and senior researcher (permanent position) in NIMS. Dr. Zhi is currently a chair professor at MSE, CityU. Dr. Zhi has extensive experience in aqueous electrolyte batteries, zinc ion batteries, solid state batteries and catalysts for sustainable development. He has published more than 500 papers, including Nature Review Mater.; Nature Review Chem.; Nature Commun.; Joule, Chem, Matter, Energy Environ. Sci.; Adv. Mater.; J. Am. Chem. Soc.; Angew Chem. In. Ed. etc, with an H-index of 127 and other-citation of ~55000 (Web of Science). He has been granted more than 100 patents. He serves as Editor-in-Chief of Nano Research Energy, Editor of Materials Research Letters, associate editor of Materials Futures, and Editorial Board Member of "npj Flexible Electronics", “Rare Metals” and “Green Energy & Environment Science”. Dr. Zhi is a recipient of the outstanding research award and the President Award of the City University of Hong Kong, NML award and Beijing Science and Technology Award (first class). He is also a Member of the Hong Kong Young Academy of Sciences, a Fellow of Royal Society of Chemistry, a Clarivate Highly Cited Researcher (2019-2022, Materials Science) and a RGC Senior Research Fellow.

研究领域

Flexible Energy Storage Practical application of flexible energy storage devices has not been realized despite the booming of experimental researches. On one hand, their flexibility is not good enough to accommodate arbitrary deformations, which was merely demonstrated by statically bending at certain angles. Thus, stability against dynamic mechanical stimuli is highly desired. On the other hand, these devices are not strong enough to endure severe mechanical stimuli including large shear forces and impacts, which greatly limits their practicability. Our study focus on enhance device-level toughness and ensure long-term usability of flexible energy storage with hydrogel electrolyte developed and device level structure/materials optimization. We develop various hydrogel electrolytes for mutifunctional flexible energy storage devices and target on a highly reliable, stable and durable flexible energy storage. Zinc Based Batteries & Aqueous Electrolyte Batteries Since its first emergence in Leclanché cell in 1866, metallic zinc has been considered as an ideal electrode material for aqueous energy storage systems owing to its merits of intrinsically high capacity, suitable redox potential, non-toxicity, high abundance, and absolute safety. These advantageous features have resultantly promoted the recent renaissance of the studies on aqueous rechargeable zinc batteries. These zinc batteries mainly target at low-cost stationary grid storage or flexible applications for wearable electronics, as they have outperformed traditional lithium-ion batteries (LIBs) in both cost efficiency and safety consideration. Our study focus on enhance voltage and capacity, as well as stablity of a zinc based batteries by developing new electrode materials and electrolytes. We also explore other potential aqueous systems with extreme safety performance and enviromental-friendliness. Catalysts for Oxygen and Nitrogen Reduction Reaction The benchmark ORR, OER catalysts are Pt-based and Ir/Ru-based composites, respectively, but the embarrassing high-cost and awkward bifunctionality along with limited durability of all these compounds regretfully dispel their potential extensive practical use. The last decade has witnessed the bloom of research into inexpensive and highly reversible electrocatalysts for ORR and OER, including doped carbons, metal compounds (alloys, oxides, nitrides, sulfides, etc.) and metal-carbon molecular composites. We focus on novel catalyst development, emphasizing their application for flexible zinc air batteries. Despite of catalyst, we also optimize metal air batteries through fabricating new electrolytes and fabricate integrated system of air batteries and metal ion batteries.

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Polymer Hetero-Electrolyte Enabled Solid-state 2.4-V Zn/Li Hybrid Batteries Z Chen, T Wang, Z Wu, Y Hou, A Chen, Y Wang, Z Huang, O Schmidt, M Zhu, J Fan, C Zhi Nature Communications, accepted. Halide Exchange in Perovskites Enables Bromine/Iodine Hybrid Cathodes for Highly Durable Zinc Ion Batteries S Wang, J Zhu, Z Wei, Y Wang, Z Chen, H Hong, Q Xiong, D Zhang, S Li, S Wang, Y Huang, C Zhi Advanced Materials, accepted. Steering sp-Carbon Content in Graphdiynes for Enhanced Two-electron Oxygen Reduction to Hydrogen Peroxide Y Guo, R Zhang, S Zhang, H Hong, P Li, Y Zhao, Z Huang, C Zhi. Angew Chem International Edition, accepted. Surface atom knockout for the active site exposure of alloy catalyst Y Ma, Q Yang, J Qi, Y Zhang, Y Gao, Y Zeng, N Jiang, Y Sun, K Qu, W Fang, Y Li, X Lu, C Zhi, J Qiu PNAS, accepted. Electrochemical nitrate reduction to ammonia using copper-based electrocatalysts R Zhang, S Zhang, H Cui,Y Guo, N Li, C Zhi Next Energy, accepted. Distinguish MnO2/Mn2+ conversion/ Zn2+ intercalation/ H+ conversion chemistries at different potentials in aqueous Zn||MnO2 batteries C Li, H Yuan, T Liu, R Zhang, J Zhu, H Cui, Y Wang, D Cao, D Wang, C Zhi. Angew Chem International Edition, accepted. Achieving high-concentration Cl- ions in non-aqueous electrolytes for high-energy-density Li-Cl2 batteries P Li, S Yang, J Zhu, S Wang, Y Hou, H Cui, Z Chen, R Zhang, Z Wu, Y Wang, Z Wei, X Liu, S Zhang, X Li, C Zhi Matter, accepted. Halogen-powered static conversion chemistry X Li, W Xu, C Zhi Nature Review Chemistry, Accepted. Zinc Powder Anodes for Rechargeable Aqueous Zinc-Based Batteries Q Li, N Li, C Zhi Nano Letters, accepted. Development of Inverse‐Opal‐Structured Charge‐Deficient Co9S8@ nitrogen‐Doped‐Carbon to Catalytically Enable High Energy and High Power for the two‐Electron Transfer I+/I … T Hu, Y Zhao, Y Yang, H Lv, R Zhong, F Ding, F Mo, H Hu, C Zhi, G Liang Advanced Materials, 2312246 Self‐Charging Aqueous Zn//COF Battery with Ultra‐High Self‐Charging Efficiency and Rate L Zhong, C Wang, Z Lin, X Yang, R Li, S Zhan, L Zhao, D Wu, H Chen, Z Tang, J He, H Lv, C Zhi Advanced Materials, 2314050 Fine tuning water states in hydrogels for high voltage aqueous batteries C Li, X Zhu, D Wang, S Yang, R Zhang, P Li, J Fan, H Li, C Zhi. ACS Nano, accepted. Concurrent Mechanisms of Hot Electrons and Interfacial Water Molecule Ordering in Plasmon-enhanced Nitrogen Fixation S Zhang, D Chen, P Chen, R Zhang, Y Hou, Y Guo, P Li, X Liang, T Xing, J Chen, Y Zhao, Z Huang, D Lei, C Zhi. Advanced Materials, Accepted. Asymmetric Anion Zinc Salt Derived Solid Electrolyte Interphase Enabled Long-Lifespan Aqueous Zinc Bromine Batteries. Angew Chem International Edition, accepted. Deploying Cationic Cellulose Nanofiber Confinement to Enable High Iodine Loadings Towards High Energy and High‐Temperature Zn‐I2 Battery Z Li, W Cao, T Hu, Y Hu, R Zhang, H Cui, F Mo, C Liu, C Zhi, G Liang. Angewandte Chemie 136 (5), e202317652 Regulating the Electrochemical Reduction Kinetics by Steric Hindrance Effect for Robust Zn Metal Anode S Yang, A Chen, Z Wu, P Li, R Zhang, Y Wang, X Wang, X Jin, S Bai, C Zhi Energy & Environmental Science, accepted. Crystal orientation engineering of perfectly matched heterogeneous single-crystalline ZnSe for Enhanced interfacial kinetic Zn anode Q Li, H Hong, J Zhu, Z Wu, C LI, D Wang, P Li, Y Zhao, Y Hou, G Liang, F Mo, H Cui, C Zhi ACS Nano, accepted. Selenium-Anchored Chlorine Redox Chemistry in Aqueous Zinc Dual-ion Batteries Z Chen, Y Hou, Y Wang, Z Wei, A Chen, P Li, Z Huang, N Li, C Zhi Advanced Materials, Accepted. Electrochemical Nitrate Reduction in Strong Acid Enables High-Efficiency Ammonia Synthesis and High-Voltage Pollutes-Based Fuel Cells R Zhang, C Li, H Cui, Y Wang, S Zhang, P Li, Y Hou, Y Guo, G Liang, Z Huang, C Peng, C Zhi Nature Communications, accepted. Tailoring hydroxyl groups of organic phenazine anode for high-performance and stable alkaline batteries H Cui, D Zhang, Z Wu, J Zhu, P Li, C Li, Y Hou, R Zhang, X Wang, X Jin, S Bai, C Zhi Energy & Environmental Science, accepted. Metal-Free Eutectic Electrolyte with Weak Hydrogen Bonds for High-Rate and Ultra-Stable Ammonium-Ion Batteries H Hong, J Zhu, Y Wang, Z Wei, X Guo, S Yang, R Zhang, H Cui, Q Li, D Zhang, C Zhi Advanced Materials, Accepted. Molecular Engineering of Metal-Organic Polymer for Enhanced Electrochemical Nitrate-to-Ammonia Conversion R Zhang, H Hong, X Liu, S Zhang, C Li, H Cui, Y Wang, J Liu, Y Hou, P Li, Z Huang, Y Guo, C Zhi Angew Chem International Edition, accepted. An Energy-Dense and High-Power Li-Cl2 Battery by Reversible Interhalogen Bonds P Li, Q Xiong, Y Guo, A Chen,R Zhang, Y Hou, Z Huang, Y Wang, Z Chen, J Zhu, X Li, M Zhu, C Zhi CHEM, accepted. Aqueous electrolyte additives for zinc-ion batteries Z Wu, Z Huang, R Zhang, C Zhi International Journal of Extreme Manufacturing, accepted. Three-electron transfer-based high-capacity organic lithium-iodine (chlorine) batteries X Li, Y Wang, J Lu, S Li, P Li, Z Huang, G Liang, H He, C Zhi Angew Chem International Edition, accepted. Tellurium with Reversible Six-electron Transfer Chemistry for High-performance Zinc Batteries Z Chen, S Wang, Z Wei, Y Wang, Z Wu, Y Hou, J Zhu, Y Wang, G Liang, Z Huang, A Chen, D Wang, C Zhi Journal of the American Chemical Society, accepted. Perovskite cathodes for aqueous and organic iodine batteries operating under one and two electrons redox modes X Li, S Wang, D Zhang, P Li, Z Chen, A Chen, Z Huang, Gn Liang, A Rogach, C Zhi Advanced Materials, Accepted. Immiscible phase-separation electrolyte and interface ion transfer electrochemistry enable zinc/lithium hybrid batteries with 3.5 V-class operating voltage A Chen, Y Zhang, Q Li, G Liang, S Yang, Z Huang, Q Yang, H Hu, X Li, Z Chen, J Fa, C Zhi Energy & Environmental Science, accepted. Spider silk-inspired binder design for flexible lithium-ion battery with high durability Y Wang, J Zhu, A Chen, X Guo, H Cui, Z Chen, Y Hou, Z Huang, D Wang, G Liang, S Cao, C Zhi Advanced Materials, accepted. Completely activated and phase-transformed KFeMnHCF for Zn/K hybrid batteries with 14500 cycles by an OH-rich hydrogel electrolyte C Li, Q Li, Z Wu, Y Wang, R Zhang, H Cui, Y Hou, J Liu, Z Huang, C Zhi Advanced Materials, accepted. Lean-Water Hydrogel Electrolyte for Zinc Ion Batteries Y Wang, Q Li, H Hong, S Yang, R Zhang, X Wang, X Jin, B Xiong, S Bai, C Zhi Nature Communications, accepted. Hydrogels with amphiphilic chains and targeted adhesion for high-areal-capacity zinc batteries C Li, J Zhu, R Zhang, Z Wu, Z Chen, S Zhang, W Zhang, Z Huang, Z Pei, C Zhi Energy Stroage Materials, Accepted. MBene Promoted Zn Peroxide Chemistry for Rechargeable Near-Neutral Zn-Air Batteries Y Hou, Z Chen, X Li, Y Wang, P Li, H Cui, R Zhang, S Yang, S Zhang, C Zhi Energy & Environmental Science, accepted. Zn-rejuvenated and SEI-regulated Additive in Zinc Metal Battery via the Iodine Post-functionalized Zeolitic Imidazolate Framework-90 Y Zhao, H Hong, Y Zhong, J Zhu, Y Hou, S Wan1, H Lv, P liang, Y Guo, D Wang, P Li, Y Wang, Q Li, S C, H Li, C Zhi Advanced Energy Materials, accepted. Aqueous iron batteries with 39 000-cycle lifespan and superior rate capability H Lv, Z Wei, C Han, X Yang, Z Tang, Y Zhang, C Zhi, H. Li, Nature Communications, accepted. Anion chemistry in energy storage devices Z Huang, X Li,, Z Chen, P Li, X Ji, C Zhi, Nature Review Chemistry, accepted. An Asymmetric Electrolyte to Simultaneously Meet Contradictory Requirements of Anode and Cathode S Chen, Y Ying, L Ma, D Zhu, H Huang, L Song, C Zhi Nature Communications, Accepted. Distinct chemistry between Zn and Li at varied temperature Q Li, H Hu, X Guo, J Zhu, Y Hou, C Liu, D Wang, G Liang, Y Zhao, A Chen, H Li, B Dong, B Li, C Zhi Science Bulletin, accepted. Manipulating Coulombic Efficiency of Cathodes in Aqueous Zinc Batteries by Anion Chemistry P Li, Y Wang, Q Xiong, S Yang, H Cui, J Zhu, X Li, Y Hou, Y Wang, R Zhang, S Zhang, X Wang, X Jin, S Bai, C Zhi Angew Chem International Edition 10.1002/ange.202303292, 2023. Manipulating Electric Double Layer Adsorption for Stable Solid-Electrolyte Interphase in 2.3 Ah Zn-Pouch Cells Y Wang, B Liang, J Zhu, G Li, Q Li, R Ye, J Fan, C Zhi Angew Chem International Edition 10.1002/anie.202302583, 2023. Development of rechargeable high-energy hybrid zinc-iodine aqueous batteries exploiting reversible chlorine-based redox reaction G Liang, B Liang, A Chen, J Zhu, Q Li, Z Huang, X Li, Y Wang, X Wang, B Xiong, X Jin, S Bai, J Fan, C Zhi Nature Communications 14, 1856 (2023). Sulfolane-containing aqueous electrolyte solutions for producing efficient ampere-hour-level zinc metal battery pouch cells Y Wang, T Wang, S Bu, J Zhu, Y Wang, R Zhang, H Hong, W Zhang, J Fan, C Zhi Nature Communications 14, 1828 (2023). Piezoelectricity Regulated Ohmic Contact in M/BaTiO3 (M= Ru, Pd, Pt) for Charge Collision and Hydrogen Free Radical Production in Ammonia Electrosynthesis Se Zhang, D Chen, Y Guo, R Zhang, Y Zhao, Z Huang, Jun Fan, J Ho, C Zhi Materials Today, accepted. Solid Interhalogen Compounds with Effective Br0 Fixing for Stable High-energy Zinc Batteries S Chen, Y Ying, S Wang, L Ma, H Huang, X Wang, X Jin, S Bai, C Zhi Angew Chem International Edition 10.1002/ange.202301467, 2023. Metal/covalent organic frameworks for aqueous rechargeable zinc-ion batteries H Hong, X Guo, J Zhu, Z Wu, Q Li, C Zhi Science China Chemistry 10.1007/s11426-023-1558-2, 2023. Regulating inorganic and organic components to build amorphous-ZnFx enriched solid-electrolyte interphase for highly reversible Zn metal chemistry G Liang, Z Tang, B Han, J Zhu, A Chen, Q Li, Z Chen, Z Huang, X Li, Q Yang, C Zhi Advanced Materials 10.1002/adma.202210051, 2023. Grafted MXenes Based Electrolytes for 5V-class Solid-state Batteries Z Chen, X Ma, Y Hou, H Cui, X Li, Q Yang, Z Huang, D Wang, B Dong, J Fan, Ci Zhi Advanced Functional Materials 10.1002/adfm.202214539, 2023. A Covalent Organic Framework as a Long-life and High-Rate Anode Suitable for Both Aqueous Acidic and Alkaline Batteries Y Lin, H Cui, C Liu, R Li, S Wang, G Qu, Z Wei, Y Yang, Y Wang, Z Tang, H Li, H Zhang, C Zhi , H Lv, Angew Chem International Edition, accepted. A High-Energy Aqueous Zn||NO2 Electrochemical Cell: A New Strategy for NO2 Fixation and Electric Power Generation L Ma, S Chen, W Yan, G Zhang, Y Ying, H Huang, D Ho, W Huang, C Zhi Energy & Environmental Science, accepted. Hydrogel Electrolyte with High Tolerance to a Wide Spectrum of pHs and Compressive Energy Storage Devices Based on It C Li, S Yang, Y Guo, H Lv, P Li, X Bai, X Li, C Zhi, H Li Small Methods, 2201448 (2023) Hydrogel electrolyte with high tolerance to a wide spectrum of pHs and compressive energy storage devices based on it C Li, S Yang, Y Guo, H Lv, P Li, X, Bai, X Li, C Zhi, H Li Small methods, accepted. Alkaline Tolerant Antifreezing Additive Enabling Aqueous Zn||Ni Battery Operating at -60 °C S Chen, C Peng, D Xue, L Ma, C Zhi Angew Chem International Edition, accepted. Polymeric Single Ion Conductors with Enhanced Side Chains Motion for High-performance Solid Zinc Ion Batteries Z Chen, T Wang, Y Hou, Y Wang, Z Huang, H Cui, J Fan, Z Pei, C Zhi Advanced Materials, accepted. Regulating Exposed Facets of Metal-Organic Frameworks for High-rate Alkaline Aqueous Zinc Batteries S Yang, H Lv, Y Wang, X Guo, L Zhao, H Li, C Zhi Angew Chem International Edition, accepted. Aqueous rechargeable zinc air batteries operated at -110 °C S Chen, T Wang, L Ma, B Zhou, J Wu, D Zhu, YY Li, J Fan, C Zhi Chem, accepted. Recent advances of Zn-CO2 batteries for the co-production of electricity and carbonaceous fuels Y Guo, R Zhang, S Zhang, C Zhi Nano Materials Science, accepted. Rechargeable Iodine Batteries: Fundamentals, Advances, and PerspectivesS Yang, X Guo, H Lv, C Han, A Chen, Z Tang, X Li, C Zhi, H Li ACS nano 10.1021/acsnano.2c06220. Recent Advances and Interfacial Challenges in Solid-state Electrolytes for Rechargeable Li-air Batteries Y Hou, Z Chen, H Cui, Q Yang, R Zhang, C Zhi Exploration, accepted. Ultrahigh Oxygen-doped Carbon Quantum Dots for Highly Efficient H2O2 Production via Two-Electron Electrochemical Oxygen Reduction Y Guo, R Zhang, S Zhang, H Hong, Y Zhao, Z Huang, C Han, H Li, C Zhi Energy & Environmental Science 10.1039/D2EE01797K. Anion-trap Engineering toward Remarkable Crystallographic Reorientation and Efficient Cation Migration of Zn Ion Batteries M Qiu, P Sun, Y Wang, L Ma, C Zhi, W Mai Angew Chem International Edition, accepted. Tailoring the metal electrode morphology via electrochemical protocol optimization for long-lasting aqueous zinc batteries Q Li, A Chen, D Wang, Y Zhao, X Wang, X Jin, B Xiong, C Zhi Nature Communications 2022, 13, 3699. Recent advances for Zn-gas batteries beyond Zn-air/oxygen battery R Zhang, Z Wu, Z Huang, Y Guo, S Zhang, Y Zhao, C Zhi Chinese Chemical Letters 10.1016/j.cclet.2022.06.023. Phase-transition tailored nanoporous zinc metal electrodes for rechargeable alkaline zinc-nickel oxide hydroxide and zinc-air batteries L Li, YCA Tsang, D Xiao, G Zhu, C Zhi, Q Chen Nature Communications 2022, 13, 2870. Rechargeable Aqueous Mn Metal Battery Enabled by Inorganic-Organic Interfaces Q Yang, X Qu, H Cui, X He, Y Shao, Y Zhang, X Guo, A Chen, Z Chen, R Zhang, D Kong, Z Shi, J Liu, J Qiu, C Zhi Angew Chem International Edition 10.1002/anie.202206471. Ionic Liquid Softened Polymer Electrolyte for Anti-Drying Flexible Zinc Ion Batteries D Wang, X Guo, Z Chen, Y Zhao, Q Li, C Zhi ACS Applied Materials & Interfaces, 10.1021/acsami.2c06793. Electrocatalytic Selenium Redox Reaction for High-Mass-Loading Zinc-Selenium Batteries with Improved Kinetics and Selenium Utilization L Ma, Y Ying, S Chen, Z Chen, H Li, H Huang, L Zhao, C Zhi Advanced Energy Materials 10.1002/aenm.202201322. A Zn-nitrite battery as an energy-output electrocatalytic system for high-efficiency ammonia synthesis by carbon-doped cobalt oxide nanotubes R Zhang, S Zhang, Y Guo, C Li, J Liu, Z Huang, Y Zhao, Y Li, C Zhi Energy & Environmental Science 15, 3024 (2022). High-Voltage Organic Cathodes for Zinc Ion Batteries through Electron Cloud and Solvation Structure Regulation H Cui, T Wang, Z Huang, G Liang, Z Chen, A Chen, D Wang, Q Yang, H Hong, J Fan, C Zhi Angew Chem International Edition 10.1002/ange.202203453. Low infrared emissivity and strong stealth of Ti-based MXenes X Li, M Li, X Li, X Fan, C Zhi Research 10.34133/2022/9892628. Anion Chemistry Enabled Positive Valence Conversion to Achieve a Record High-voltage Organic Cathode for Zinc Batteries Z Chen, H Cui, Y Hou, X Wang, X Jin, A Chen, Q Yang, D Wang, Z Huang, C Zhi Chem 10.1016/j.chempr.2022.05.001. H2-inhibited organic anodes for fast and long-life aqueous aluminum ion batteries with a 3.5-month calendar life D Wang, Q Li, W Ying, C Han, Y Wang, Y Zhao, H Li, C Zhi Small 10.1002/smll.202200463. Bis-ammonium salts with strong chemisorption to halide ions for fast and durable aqueous redox Zn ion batteries X Li, S Wang, T Wang, Z Duan, Z Huang, G Liang, J Fan, C Yang, A Rogach, C Zhi Nano Eenergy 10.1016/j.nanoen.2022.107278 (2022). Mechanistic study of interfacial modification for stable Zn anode based on a thin separator Q Li, B Yan, D Wang, Q Yang, Z Huang, J Fan, M Dai, Wi Chen, C Zhi Small 10.1002/smll.202201045. Tellurium: A High-performance Cathode for Magnesium Ion Batteries Based on a Conversion Mechanism Z Chen, Q Yang, D Wang, A Chen, X Li, Z Huang, G Liang, Y Wang, C Zhi ACS Nano 10.1021/acsnano.1c07939 (2022). Dendrite issues for Zn anodes in a flexible cell configuration Q Li, D Wang, B Yan, Y Zhao, J Fan, C Zhi Angew Chem International Edition 10.1002/anie.202202780 (2022). Bifunctional Separators Design for Safe Lithium-Ion Batteries: Suppressed Lithium Dendrites and Fire Retardance Y Hou, Z Huang, Z Chen, X Li, A Chen, P Li, Y Wang, C Zhi Nano Energy, 107204. Building durable aqueous K-ion capacitors based on MXene family Nano Research Energy 10.26599/NRE.2022.9120002. Organic materials based cathode for zinc ion battery H Cui, L Ma, Z Huang, Z Chen, C Zhi SmartMat, accepted. Highly thermally/electrochemically stable I-/I3- bonded organic salts with high I content for long-life Li-I2 batteries P Li, X Li, Y Guo, C Li, Y Hou, H Cui, R Zhang, Z Huang, Y Zhao, Q Li, B Dong,C Zhi Advanced Energy Materials, 2103648 Gradient fluorinated alloy to enable highly reversible Zn-metal anode chemistry G Liang, J Zhu, B Yan, Q Li, A Chen, Z Chen, X Wang, B Xiong, J Fan, X Jin, C Zhi Energy & Environmental Science 15 (3), 1086-1096 MXene chemistry, electrochemistry, and energy storage applications X Li, Z Huang, C Shuck, G Liang, Y Gogotsi, C Zhi Nature Review Chemistry 6, 389 (2022). Efficient Ammonia Electrosynthesis and Energy Conversion through a Zn-nitrate Battery by Iron Doping Engineered Nickel Phosphide Catalyst R Zhang, Y Guo, S Zhang, D Chen, Y Zhao, Z Huang, L Ma, P Li, Q Yang, G Liang, C Zhi Advanced Energy Materials, 2103872 Few-layer bismuth selenide cathode for low-temperature quasi-solid-state aqueous zinc metal batteries Y Zhao, Y Lu, H Li, Y Zhu, Y Meng, N Li, D Wang, F Jiang, F Mo, C Long, Y Guo, X Li, Z Huang, Q Li, J Ho, J Fan, M Sui, F Chen, W Zhu, W Liu, C Zhi Nature communications 13 (1), 1-12 Insight on Organic Molecules in Aqueous Zn-ion Batteries with an Emphasis on the Zn Anode Regulation D Wang, Q Li, Y Zhao, H Hong, H Li, Z Huang,G Liang, Q Yang, C Zhi Advanced Energy Materials, Accepted. Electrochemical Nitrate Production via Nitrogen Oxidation with Atomically Dispersed Fe on N-doped Carbon Nanosheets Y Guo, S Zhang, R Zhang, D Wang, D Zhu, X Wang, D Xiao, N Li, Y Zhao, Z Huang, W Xu, S Chen, L Song, J Fan, Q Chen, C Zhi ACS Nano, accepted. Lattice Matching and Halogens Regulation Synergistically Induced Uniform Zinc Electrodeposition by Halogenated Ti3C2 MXenes X Li, M Li, K Luo, Y Hou, P Li, Q Yang, Z Huang, G Liang, Z Chen, S Du, Q Huang, C Zhi ACS Nano, accepted. Two-Electron Redox Chemistry Enabled High-Performance Iodide Ion Conversion Battery X Li, Y Wang, Z Chen, P Li, G Liang, Z Huang, Q Yang, A Chen, H Cui, B Dong, H He, C Zhi Angew Chem International Edition, accepted. “Soft Shorts” Hidden in Zinc Metal Anode Research Q Li, A Chen, D Wang, Z Pei, C Zhi Joule, accepted. In situ/operando study on surface reconstruction of transition metals-based oxygen evolution electrocatalysts: an in-depth active species unraveling S Chen, L Ma, Z Huang, G Liang, C Zhi Cell Reports Physical Science, accepted. Stabilizing Interface pH by N-Modified Graphdiyne for Dendrite-Free and High-Rate Aqueous Zn-ion Batteries Q Yang, L Li, T Hussain, D Wang, L Hui, Y Guo, G Liang, X Li, Z Chen, Z Huang, Y Li, Y Xue, Z Zuo, J Qiu, Y Li, C Zhi Angew Chem International Edition, accepted. Cathode Engineering for High Energy Density Aqueous Zn Batteries Q Yang, X Li, Z Chen, Z Huang, C Zhi Accounts of Materials Research, accepted. Reconstructing vanadium oxide with anisotropic pathways for durable and fast aqueous K-ion battery G Liang, Z Gan, X Wang, X Jin, B Xiong, X Zhang, S Chen, Y Wang, H He, C Zhi ACS Nano, accepted. Small dipole molecule-containing electrolytes for high-voltage aqueous rechargeable batteries Z Huang, T Wang, X Li, H Cui, G Liang, Q Yang, Z Chen, A Chen, Y Guo, J Fan, C Zhi Advanced Materials, accepted. High‐Rate Aqueous Aluminum‐Ion Batteries Enabled by Confined Iodine Conversion Chemistry S Yang, C Li, H Lv, X Guo, Y Wang, C Han, C Zhi, H Li Small Methods, 2100611 (2021) Vacancy Modulating Co3Sn2S2 Topological Semimetal for Aqueous Zinc-Ion Batteries Y Zhao, Y Zhu, F Jiang, Y Li, Y Meng, Y Guo, Q Li, Z Huang, S Zhang, R Zhang, J Ho, Q Zhang, W Liu, C Zhi Angew Chem International Edition 10.1002/ange.202111826 (2021). Conversion-type Non-metal Elemental Tellurium Anode with High Utilization for Mild/alkaline Zinc Batteries Z Chen, C Li, Q Yang, D Wang, X Li, Z Huang, G Liang, A Chen, C Zhi Advanced Materials 10.1002/adma.202105426 (2021). Stable Bismuth-Antimony Alloy Cathode with a Conversion-Dissolution/Deposition Mechanism for High-Performance Zinc Batteries Y Zhao, F Jiang, H Hong, D Wang, Q Li, Y Meng, Z Huang, Y Guo, X Li, A Chen, R Zhang, S Zhang, J Ho, Z Yao, W Liu, C Zhi Materials Today, Accepted. Intrinsic voltage plateau of a Nb2CTx MXene cathode in an aqueous electrolyte induced by high-voltage-scanning X Li, X, Ma, Y Hou, Z Zhang, Y Lu, Z Huang, G Liang, M Li, Q Yang, J Ma, N Li, B Dong, Q Huang, F Chen, J Fan, C Zhi Joule 10.1016/j.joule.2021.09.006 (2021). Toward a Practical Zn Powder Anode: Ti3C2Tx MXene as a Lattice-Match Electrons/Ions Redistributor X Li, Q Li, Y Hou, Q Yang, Z Chen, Z Huang, G Liang, Y, Zhao, L Ma, M Li, Q Huang, C Zhi ACS Nano 15, 14631 (2021). Adhesive and Cohesive Force Matters in Deformable Batteries G Liang, J Zhu, A Chen, Q Yang, C Zhi Npj Flexible Electronics 5, 7 (2021). Molecular Crowding Effect in Aqueous Electrolytes to Suppress Hydrogen Reduction Reaction and Enhance Electrochemical Nitrogen Reduction Y Guo, J Gu, R Zhang, S Zhang, Z Li, Y Zhao, Z Huang, J Fan, Z Chen, C Zhi Advanced Energy Materials 11, 2101699 (2021). Categorizing Wearable Batteries: Unidirectional and Omnidirectional Deformable Batteries Q Yang, A Chen, C Li, G Zou, H Li, C Zhi Matter 4, 3146 (2021). Pd Doping-weakened Intermediate adsorption to Promote Electrocatalytic Nitrate Reduction on TiO2 Nanoarrays for Ammonia Production and Energy Supply with Zinc-Nitrate Batteries Y Guo, R Zhang, S Zhang, Y Zhao, Q Yang, Z Huang, B Dong, C Zhi Energy & Environmental Science 14, 3938 (2021). The energy storage mechanisms of MnO2 in batteries X Guo, S Yang, D Wang, A Chen, Y Wang, P Li, G Liang, C Zhi Current Opinion in Electrochemistry, 100769 (2021) Strengthening Absorption Ability of Co-NC as Efficient Bifunctional Oxygen Catalyst by Modulating the d Band Center Using MoC J Liu, Y Guo, XZ Fu, JL Luo, C Zhi Green Energy & Environment 10.1016/j.gee.2021.05.008 (2021). Human Joint inspired structural design for bendable/foldable/stretchable/twistable battery: achieving multiple deformability A Chen, X Guo, S Yang, G Liang, Q Li, Z Chen, Z Huang, Q Yang, C Han, C Zhi Energy & Environmental Science DOI: 10.1039/D1EE00480H (2021). Suppressing passivation layer on Al anode in aqueous electrolytes by complexation of H2PO4- to Al3+ and an electrochromic Al ion battery H Lv, S Yang, C Han, Y Tang, X Li, W Wang, C Zhi, H Li Energy Storage Materials 10.1016/j.ensm.2021.04.044 (2021) Regulating Nitrogenous Adsorption and Desorption on Pd Clusters by the Acetylene Linkages of Hydrogen Substituted Graphdiyne for Efficient Electrocatalytic Ammonia Synthesis Y Guo, J Liu, Q Yang, P Khemthong, Z Huang, Y Zhao, Z Chen, B Dong, X Fu, J Luo, C Zhi Nano Energy DOI:10.1016/j.nanoen.2021.106099 (2021). Grafted MXene/Polymer Electrolyte for High Performance Solid Zinc Batteries with Enhanced Shelf Life at Low/High Temperatures Z Chen, X Li, D Wang, Q Yang, L Ma, Z Huang, G Liang, A Chen, Y Guo, B Dong, X Huang, C Yang, C Zhi Energy & Environmental Science DOI: 10.1039/D1EE00409C (2021).

推荐链接
down
wechat
bug