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Plasma-assisted aerogel interface engineering enables uniform Zn^(2+)flux and fast desolvation kinetics toward zinc metal batteries
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作者 Zijian Xu Zhenhai Shi +7 位作者 Zhan Chang Fan Feng Zhuanyi Liu Dongkun Chu Jianguo Ren Zi-Feng Ma Suli Chen Tianxi Liu 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第8期29-38,I0002,共11页
The poor reversibility of Zn anodes induced by dendrite growth,surface passivation,and corrosion,severely hinders the practical applicability of Zn metal batteries.To address these issues,a plasmaassisted aerogel(PAG)... The poor reversibility of Zn anodes induced by dendrite growth,surface passivation,and corrosion,severely hinders the practical applicability of Zn metal batteries.To address these issues,a plasmaassisted aerogel(PAG)interface engineering was proposed as efficient ion transport modulator that can simultaneously regulate uniform Zn^(2+)flux and desolvation behavior during battery operation.The PAG with ordered mesopores acted as an ion sieve to homogenize Zn deposition and accelerate Zn^(2+)flux,which is favorable for corrosion resistance and dendrite suppression.Importantly,the plasma-assisted aerogel with abundant hydrophilic groups can facilitate the desolvation kinetics of Zn^(2+)due to the multiple hydrogen-bonding interaction with the activated water molecules,thus accelerating the Zn^(2+)migration kinetics.Consequently,the Zn/Zn cell assembled with PAG-modified separator demonstrates stable plating and stripping behavior(over 1400 h at 1 mA cm^(-2))and high Coulombic efficiency(99.8%at1 mA cm^(-2)after 1100 cycles),and the Zn‖MnO_(2)full cell shows excellent long-term cycling stability and maintains a high capacity of 154.9 mA h g^(-1)after 1000 cycles at 1 A g^(-1).This study provides a feasible approach for the large-scale fabrication of aerogel functionalized separators to realize ultra-stable Zn metal batteries. 展开更多
关键词 zn metal batteries Aerogel interface Plasma zn^(2+)migration kinetics Dendrite growth
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Covalent Organic Framework with 3D Ordered Channel and Multi-Functional Groups Endows Zn Anode with Superior Stability 被引量:1
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作者 Bin Li Pengchao Ruan +9 位作者 Xieyu Xu Zhangxing He Xinyan Zhu Liang Pan Ziyu Peng Yangyang Liu Peng Zhou Bingan Lu Lei Dai Jiang Zhou 《Nano-Micro Letters》 SCIE EI CAS CSCD 2024年第4期350-363,共14页
Achieving a highly robust zinc(Zn)metal anode is extremely important for improving the performance of aqueous Zn-ion batteries(AZIBs)for advancing“carbon neutrality”society,which is hampered by the uncontrollable gr... Achieving a highly robust zinc(Zn)metal anode is extremely important for improving the performance of aqueous Zn-ion batteries(AZIBs)for advancing“carbon neutrality”society,which is hampered by the uncontrollable growth of Zn dendrite and severe side reactions including hydrogen evolution reaction,corrosion,and passivation,etc.Herein,an interlayer containing fluorinated zincophilic covalent organic framework with sulfonic acid groups(COF-S-F)is developed on Zn metal(Zn@COF-S-F)as the artificial solid electrolyte interface(SEI).Sulfonic acid group(-SO_(3)H)in COF-S-F can effectively ameliorate the desolvation process of hydrated Zn ions,and the three-dimensional channel with fluoride group(-F)can provide interconnected channels for the favorable transport of Zn ions with ion-confinement effects,endowing Zn@COF-S-F with dendrite-free morphology and suppressed side reactions.Consequently,Zn@COF-S-F symmetric cell can stably cycle for 1,000 h with low average hysteresis voltage(50.5 m V)at the current density of 1.5 m A cm^(-2).Zn@COF-S-F|Mn O_(2)cell delivers the discharge specific capacity of 206.8 m Ah g^(-1)at the current density of 1.2 A g^(-1)after 800 cycles with high-capacity retention(87.9%).Enlightening,building artificial SEI on metallic Zn surface with targeted design has been proved as the effective strategy to foster the practical application of high-performance AZIBs. 展开更多
关键词 Aqueous zn ion batteries Covalent organic framework Interfacial modification zn ion flux regulation Desolvation effect
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Recent Advances in Aqueous Zn||MnO_(2)Batteries 被引量:1
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作者 Chuan Li Rong Zhang +3 位作者 Huilin Cui Yanbo Wang Guojin Liang Chunyi Zhi 《Transactions of Tianjin University》 EI CAS 2024年第1期27-39,共13页
Recently,rechargeable aqueous zinc-based batteries using manganese oxide as the cathode(e.g.,MnO_(2))have gained attention due to their inherent safety,environmental friendliness,and low cost.Despite their potential,a... Recently,rechargeable aqueous zinc-based batteries using manganese oxide as the cathode(e.g.,MnO_(2))have gained attention due to their inherent safety,environmental friendliness,and low cost.Despite their potential,achieving high energy density in Zn||MnO_(2)batteries remains challenging,highlighting the need to understand the electrochemical reaction mechanisms underlying these batteries more deeply and optimize battery components,including electrodes and electrolytes.This review comprehensively summarizes the latest advancements for understanding the electrochemistry reaction mechanisms and designing electrodes and electrolytes for Zn||MnO_(2)batteries in mildly and strongly acidic environments.Furthermore,we highlight the key challenges hindering the extensive application of Zn||MnO_(2)batteries,including high-voltage requirements and areal capacity,and propose innovative solutions to overcome these challenges.We suggest that MnO_(2)/Mn^(2+)conversion in neutral electrolytes is a crucial aspect that needs to be addressed to achieve high-performance Zn||MnO_(2)batteries.These approaches could lead to breakthroughs in the future development of Zn||MnO_(2)batteries,off ering a more sustainable,costeff ective,and high-performance alternative to traditional batteries. 展开更多
关键词 Aqueous zn||MnO_(2)batteries Zinc-ion batteries Zinc batteries MnO_(2)
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Manipulating Na occupation and constructing protective film of P2-Na_(0.67)Ni_(0.33)Mn_(0.67)O_(2) as long-term cycle stability cathode for sodium-ion batteries 被引量:1
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作者 Yiran Sun Pengfei Zhou +7 位作者 Siyu Liu Zhongjun Zhao Yihao Pan Xiangyan Shen Xiaozhong Wu Jinping Zhao Junying Weng Jin Zhou 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第1期603-611,I0013,共10页
P2-Na_(0.67)Ni_(0.33)Mn_(0.67)O_(2)(NNMO)is promising cathode material for sodium-ion batteries(SIBs)due to its high specific capacity and fast Na+diffusion rate.Nonetheless,the irreversible P2-O_(2)phase transformati... P2-Na_(0.67)Ni_(0.33)Mn_(0.67)O_(2)(NNMO)is promising cathode material for sodium-ion batteries(SIBs)due to its high specific capacity and fast Na+diffusion rate.Nonetheless,the irreversible P2-O_(2)phase transformation,Na+/vacancy ordering,and transition metal(TM)dissolution seriously damage its cycling stability and restrict its commercialization process.Herein,Na occupation manipulation and interface stabilization are proposed to strengthen the phase structure of NNMO by synergistic Zn/Ti co-doping and introducing lithium difluorophosp(LiPO_(2)F_(2))film-forming electrolyte additive.The Zn/Ti co-doping regulates the occupancy ratio of Nae/Nafat Na sites and disorganizes the Na+/vacancy ordering,resulting in a faster Na+diffusion kinetics and reversible P2-Z phase transition for P2-Na_(0.67)Ni_(0.28)Zn_(0.05)Mn_(0.62)Ti_(0.05)O_(2)(NNZMTO).Meanwhile,the LiPO_(2)F_(2)additive can form homogeneous and ultrathin cathode-electrolyte interphase(CEI)on NNZMTO surface,which can stabilize the NNZMTO-electrolyte interface to prevent TM dissolution,surface structure transformation,and micro-crack generation.Combination studies of in situ and ex situ characterizations and theoretical calculations were used to elucidate the storage mechanism of NNZMTO with Li PO_(2)F_(2)additive.As a result,the NNZMTO displays outstanding capacity retention of 94.44%after 500 cycles at 1C with 0.3 wt%Li PO_(2)F_(2),excellent rate performance of 92.5 mA h g^(-1)at 8C with 0.1 wt%Li PO_(2)F_(2),and remarkable full cell capability.This work highlights the important role of manipulating Na occupation and constructing protective film in the design of layered materials,which provides a promising direction for developing high-performance cathodes for SIBs. 展开更多
关键词 Layered cathode zn/Ti co-doping Na occupation Electrolyte additive Sodium-ion batteries
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Ni元素对Zn-22Al药芯钎料用于Cu/Al钎焊接头组织和力学性能的影响
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作者 王徐炳 黄魏青 +4 位作者 王思鸿 卜永周 查心婧 刘薇 沈杭燕 《中国计量大学学报》 2024年第3期487-495,共9页
目的:研究Ni元素对Zn-Al药芯焊丝熔化特性、铺展性能的影响。方法:在钎剂中添加一定比例的Ni粉,在钎焊过程中形成Cu/Al接头的Ni合金化,分析不同含量Ni元素添加对Zn-22Al钎料以及Cu/Al异种合金钎焊接头的性能及显微组织的影响。结果:Ni... 目的:研究Ni元素对Zn-Al药芯焊丝熔化特性、铺展性能的影响。方法:在钎剂中添加一定比例的Ni粉,在钎焊过程中形成Cu/Al接头的Ni合金化,分析不同含量Ni元素添加对Zn-22Al钎料以及Cu/Al异种合金钎焊接头的性能及显微组织的影响。结果:Ni粉添加可使Zn-22Al钎料在Al板上的铺展性能得到提升,当添加量质量分数为5%时钎料铺展性能提升26.75%;当添加量质量分数为7%时,用于Cu/Al钎焊的接头抗拉强度相较于未添加Ni粉焊接接头强度提升61.79%。结论:Ni粉添加可有效改善Zn-22Al焊缝的显微组织,体现为主晶相的细化,富Zn边界相的减少,促进主晶团之间形成层片状共析组织,以及减小了Cu侧生成的铜铝金属间化合物脆性相的厚度。 展开更多
关键词 zn-AL钎料 ni原位掺混 铜铝异种接头 力学性能 显微组织
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复杂多组元Cu-Cr-Zr-Ni-Si-Co-Zn合金时效析出动力学研究
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作者 刘胜光 李应焕 +3 位作者 陈帅峰 王松伟 宋鸿武 张士宏 《铜业工程》 CAS 2024年第5期1-10,共10页
Cu-Cr-Zr及Cu-Ni-Si合金均为性能优异的引线框架材料,但二者性能均存在局限性。Cu-Cr-Zr合金具有优异的导电性能,但其强度偏低;Cu-Ni-Si合金具有极高的强度,但其导电性能一般。如果结合二者的优点,并通过后续工艺对其组织进行调控,则是... Cu-Cr-Zr及Cu-Ni-Si合金均为性能优异的引线框架材料,但二者性能均存在局限性。Cu-Cr-Zr合金具有优异的导电性能,但其强度偏低;Cu-Ni-Si合金具有极高的强度,但其导电性能一般。如果结合二者的优点,并通过后续工艺对其组织进行调控,则是制备高强高导铜合金的一条新路径。实验通过真空感应熔炼的方法制备了复杂多组元Cu-0.746Cr-0.217Zr-0.605Ni-0.109Si-0.177Co-0.085Zn(质量分数)合金,对其进行了不同工艺条件的固溶处理,并研究了不同固溶工艺条件下,合金时效过程中电导率及硬度的演化规律。结果表明:合金经1010℃×1.5 h固溶处理后,时效过程在500℃×3 h时,可获得较优异的综合性能,此时合金的硬度为HV 142.83,电导率为60.00%IACS。此外,根据Avrami经验方程描述了合金的时效析出过程,发现不同固溶工艺的合金在时效过程中,析出速率均随时效温度的提高而提高。 展开更多
关键词 复杂多组元 Cu-Cr-Zr-ni-Si-Co-zn合金 固溶处理 时效处理 Avrami经验方程 析出速率
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Regulating zinc ion transport behavior and solvated structure towards stable aqueous Zn metal batteries
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作者 Qiang Ma Aoen Ma +6 位作者 Shanguang Lv Bowen Qin Yali Xu Xianxiang Zeng Wei Ling Yuan Liu Xiongwei Wu 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第6期609-626,I0015,共19页
Aqueous Zn metal batteries(AZMBs)with intrinsic safety,high energy density and low cost have been regarded as promising electrochemical energy storage devices.However,the parasitic reaction on metallic Zn anode and th... Aqueous Zn metal batteries(AZMBs)with intrinsic safety,high energy density and low cost have been regarded as promising electrochemical energy storage devices.However,the parasitic reaction on metallic Zn anode and the incompatibility between electrode and electrolytes lead to the deterioration of electrochemical performance of AZMBs during the cycling.The critical point to achieve the stable cycling of AZMBs is to properly regulate the zinc ion solvated structure and transfer behavior between metallic Zn anode and electrolyte.In recent years,numerous achievements have been made to resolve the formation of Zn dendrite and interface incompatible issues faced by AZMBs via optimizing the sheath structure and transport capability of zinc ions at electrode-electrolyte interface.In this review,the challenges for metallic Zn anode and electrode-electrolyte interface in AZMBs including dendrite formation and interface characteristics are presented.Following the influences of different strategies involving designing advanced electrode structu re,artificial solid electrolyte interphase(SEI)on Zn anode and electrolyte engineering to regulate zinc ion solvated sheath structure and transport behavior are summarized and discussed.Finally,the perspectives for the future development of design strategies for dendrite-free Zn metal anode and long lifespan AZMBs are also given. 展开更多
关键词 aqueous zn metal batteries zn metal anode Transport behavior Solvated structure Dendrite-free
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Long cycle-life aqueous Zn battery enabled by facile carbon nanotube coating on Cu current collector
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作者 Beom-Keun Cho Sung-Ho Huh +4 位作者 So Hee Kim Seungho Yu Jong-Seong Bae Jung-Keun Yoo Seung-Ho Yu 《Carbon Energy》 SCIE EI CAS CSCD 2024年第6期151-164,共14页
As an alternative to Li-ion batteries,aqueous Zn batteries have gained attention due to the abundance of Zn metal,low reduction potential(-0.76 V vs.standard hydrogen electrode),and high theoretical capacity(820 mAh g... As an alternative to Li-ion batteries,aqueous Zn batteries have gained attention due to the abundance of Zn metal,low reduction potential(-0.76 V vs.standard hydrogen electrode),and high theoretical capacity(820 mAh g^(-1))of multivalent Zn2+ion.However,the growth of Zn dendrites and the formation of irreversible surface reaction byproducts pose challenges for ensuring a long battery lifespan and commercialization.Herein,the Cu foil coated with a single-walled carbon nanotube(SWCNT)layer using a facile doctor blade casting method is utilized.The SWCNT-coated Cu foil demonstrates a significantly longer battery lifespan compared to the bare Cu in the half-cell tests.Through operando optical microscopy imaging,we are able to provide intuitive evidence that Zn deposition occurs between the carbon nanotube(CNT)coating and Cu substrate,in agreement with the computational results.Also,with various imaging techniques,the flat morphology and homogeneous distribution of Zn beneath the SWCNT layer are demonstrated.In addition,the full-cell using CNT-coated Cu exhibits a long cycle life compared to the control group,thereby demonstrating improved electrochemical performance with limited Zn for the cycling process. 展开更多
关键词 aqueous zn battery carbon nanotube operando imaging surface coating
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Harnessing eco-friendly additives to manipulate zinc-ion solvation structures towards stable zinc metal batteries
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作者 Lingmei Wang Hao Shen +7 位作者 Wuzhu Sun Tianle Zheng Hongwei Li Jicheng Yan Lemeng Ding Zhongti Sun Jingyu Sun Chao Li 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第11期114-122,共9页
Considerable research efforts have been dedicated to investigating the side reactions and the growth of Zn dendritic in aqueous zinc-ion batteries(AZIBs).The incorporation of organic solvents as additives in electroly... Considerable research efforts have been dedicated to investigating the side reactions and the growth of Zn dendritic in aqueous zinc-ion batteries(AZIBs).The incorporation of organic solvents as additives in electrolytes has yielded highly promising results.Nevertheless,their pervasive use has been hindered by concerns regarding their toxicity,flammability,and economic viability.Herein,we propose the utilization of γ-valerolactone(γ-V),a novel eco-friendly solvent,as an alternative for conventional organic additives to improve the performance of Zn anode.Experimental investigations and theoretical analyses have verified that γ-V additives can diminish the Zn^(2+)-desolvation energy and enhance Zn^(2+) transport kinetics.The adsorbed γ-V molecules modulate the nucleation and diffusion of Zn^(2+),facilitating Zn growth along the(002) crystal plane,thus inhibiting dendrite formation and side reactions.Consequently,the modified electrolyte with 3% γ-V exhibit highly reversible cycling for 2800 h at1 mA cm^(-2) and 1 mA h cm^(-2) in Zn//Zn symmetric cell.The Zn//KVOH coin cells deliver a capacity retention of 74.7% after 1000 cycles at 5 A g^(-1).The Zn//KVOH pouch cells maintain a capacity retention of78.7% over 90 cycles at 3 A g^(-1).Notably,the γ-V additives also effectively alleviate the self-discharge phenomenon.This work provides valuable insights on the development of aqueous zinc-ion batteries with superior safety through the modulation of electrolytes using eco-friendly additives. 展开更多
关键词 Aqueous zinc-ion batteries Eco-friendly electrolyte additive γ-Valerolactone zn anode Renewable energy storage
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Atomistic understanding of capacity loss in LiNiO_(2)for high-nickel Li-ion batteries:First-principles study
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作者 彭率 陈丽娟 +1 位作者 何长春 杨小宝 《Chinese Physics B》 SCIE EI CAS CSCD 2024年第5期625-629,共5页
Combining the first-principles calculations and structural enumeration with recognition,the delithiation process of LiNiO_(2)is investigated,where various supercell shapes are considered in order to obtain the formati... Combining the first-principles calculations and structural enumeration with recognition,the delithiation process of LiNiO_(2)is investigated,where various supercell shapes are considered in order to obtain the formation energy of Li_(x)NiO_(2).Meanwhile,the voltage profile is simulated and the ordered phases of lithium vacancies corresponding to concentrations of 1/4,2/5,3/7,1/2,2/3,3/4,5/6,and 6/7 are predicted.To understand the capacity decay in the experiment during the charge/discharge cycles,deoxygenation and Li/Ni antisite defects are calculated,revealing that the chains of oxygen vacancies will be energetically preferrable.It can be inferred that in the absence of oxygen atom in high delithiate state,the diffusion of Ni atoms is facilitated and the formation of Li/Ni antisite is induced. 展开更多
关键词 Li-ion battery ground state formation energy oxygen vacancy Li/ni antisite
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水系Ni-Zn电池Ni基电极材料改性研究进展
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作者 邓飞云 徐开兵 陈晓 《化工新型材料》 CAS CSCD 北大核心 2024年第S01期174-179,186,共7页
水系Ni-Zn电池具有高容量、低成本、安全可靠等优点,在电动汽车和便携式电子产品等领域具有广阔的应用前景,近年来受到了广泛的关注。然而,正极材料的容量与商业化的锌负极相比仍有较大差距严重阻碍了高能量密度Ni-Zn电池发展。重点综... 水系Ni-Zn电池具有高容量、低成本、安全可靠等优点,在电动汽车和便携式电子产品等领域具有广阔的应用前景,近年来受到了广泛的关注。然而,正极材料的容量与商业化的锌负极相比仍有较大差距严重阻碍了高能量密度Ni-Zn电池发展。重点综述了近几年Ni基纳米材料改性策略提高电化学性能的研究进展,包括Ni基纳米材料与碳材料、导电聚合物和过渡金属氧化物等复合构建多组分复合材料提供协同效应,以及对Ni基纳米材料进行阴/阳离子掺杂增加电化学活性位点和电导率。通过对比分析,重点阐述了材料性能设计和优化的机理和方法,为未来探索和开发高性能水系Ni-Zn电池商业化应用提供了理论基础。 展开更多
关键词 ni-zn电池 复合材料 掺杂 电化学性能
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Regulating the inner Helmholtz plane structure at the electrolyte-electrode interface for highly reversible aqueous Zn batteries
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作者 Jianghe Liu Sanlue Hu +6 位作者 Hexin Guo Guobin Zhang Wen Liu Jianwei Zhao Shenhua Song Cuiping Han Baohua Li 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2024年第8期57-67,I0002,共12页
The development of aqueous Zn batteries is limited by parasitic water reactions,corrosion,and dendrite growth.To address these challenges,an inner Helmholtz plane(IHP)regulation method is proposed by employing low-cos... The development of aqueous Zn batteries is limited by parasitic water reactions,corrosion,and dendrite growth.To address these challenges,an inner Helmholtz plane(IHP)regulation method is proposed by employing low-cost,non-toxic maltitol as the electrolyte additive.The preferential adsorption behavior of maltitol can expel the water from the inner Helmholtz plane,and thus hinder the immediate contact between Zn metal and H_(2)O.Meanwhile,strong interaction between maltitol and H_(2)O molecules can restrain the activity of H_(2)O.Besides,the"IHP adsorption effect"along with the low LUMO energy level of maltitol-CF_(3)SO_(3)^(-)can promote the in-situ formation of an organic-inorganic complex solid electrolyte interface(SEI)layer.As a result,the hydrogen/oxygen evolution side reaction,corrosion,and dendrites issues are effectively suppressed,thereby leading to highly reversible and dendrite-free Zn plating/stripping.The Zn‖I_(2)battery with hybrid electrolytes also demonstrates high electrochemical performance and ultralong cycling stability,showing a capacity retention of 75%over 20000 charge-discharge cycles at a large current density of 5 A g^(-1).In addition,the capacity of the device has almost no obvious decay over20000 cycles even at-30℃.This work offers a successful electrolyte regulation strategy via the IHP adsorption effect to design electrolytes for high-performance rechargeable Zn-ion batteries. 展开更多
关键词 Inner Helmholtz plane Adsorption effect Dendrite suppression SEI layer zn||I_(2)battery
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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
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作者 Chenglong Lai Mengjun Li +5 位作者 Yi Shen Min Zhou Wei Wang Kai Jiang Haomiao Li Kangli Wang 《Energy & Environmental Materials》 SCIE EI CAS CSCD 2024年第1期121-130,共10页
Designing flexible free-standing air-electrode with efficient OER/ORR performance is of vital importance for the application of Zinc-air batteries in flexible electronics.Herein,a flexible free-standing electrode(Ni/F... Designing flexible free-standing air-electrode with efficient OER/ORR performance is of vital importance for the application of Zinc-air batteries in flexible electronics.Herein,a flexible free-standing electrode(Ni/Fe-NC/NCF/CC)is synthesized by in-situ coupling of binary Ni/Fe-NC nanocubes and N-doped carbon nanofibers(NCF)rooted on carbon cloth.The highly dispersed binary Ni/Fe-NC sites ensure excellent ORR activity and create efficient OER active sites relative to Ni-NC and Fe-NC.The in-situ coupling of Ni/Fe-NC and NCF constructs a 3D interconnected network structure that not only provides abundant and stabilized reactive sites but also guarantees fast electron transfer and gas transportation,thus achieving efficient and fast operation of ORR/OER.Therefore,Ni/Fe-NC/NCF/CC displays a much positive potential(0.952 V)at 4.0 mA cm^(-2)for ORR and a low OER overpotential(310 mV)at 50 mA cm^(-2).The Zinc-air battery with Ni/Fe-NC/NCF/CC air-electrode exhibits excellent battery performance with outstanding discharge/charge durability for 2150 cycles.The flexible Zn-air batteries with foldable mechanical properties display a high power density of 105.0 mW cm^(-2).This work widened the way to prepare flexible bifunctional air-electrode by designing composition/structure and in-situ coupling. 展开更多
关键词 binary ni/Fe-NC sites in-situ coupling synergistic catalytic effect zn-air battery
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Carboxylic bacterial cellulose fiber-based hydrogel electrolyte with imidazole-type ionic liquid for dendrite-free zinc metal batteries
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作者 Tianyun Zhang Xiaohong Shi +4 位作者 Yu Li Sambasivam Sangaraju Fujuan Wang Liang Yang Fen Ran 《Materials Reports(Energy)》 EI 2024年第2期45-53,共9页
Aqueous zinc metal batteries are regarded as the most promising energy storage system due to their advantages of high safety,low cost,and high theoretical capacity.However,the growth of dendrites and the occurrence of... Aqueous zinc metal batteries are regarded as the most promising energy storage system due to their advantages of high safety,low cost,and high theoretical capacity.However,the growth of dendrites and the occurrence of side reactions hinder the development of zinc metal batteries.Despite previous attempts to design advanced hydrogel electrolytes,achieving high mechanical performance and ionic conductivity of hydrogel electrolytes has remained challenging.In this work,a hydrogel electrolyte with an ionic crosslinked network is prepared by carboxylic bacterial cellulose fiber and imidazole-type ionic liquid,following by a covalent network of polyacrylamide.The hydrogel electrolyte possesses a superior ionic conductivity of 43.76 mS cm^(−1),leading to a Zn^(2+)migration number of 0.45,and high mechanical performance with an elastic modulus of 3.48 GPa and an elongation at breaking of 38.36%.More importantly,under the anion-coordination effect of the carboxyl group in bacterial cellulose and[BF4]−in imidazole-type ionic liquid,the solvation sheath of hydrated Zn^(2+)ions and the nucleation overpotential of Zn plating are regulated.The results of cycled testing show that the growth of zinc dendrites is effectively inhibited and the generation of irreversible by-products is reduced.With the carboxylic bacterial cellulose-based hydrogel electrolyte,the Zn||Zn symmetric batteries offer good cyclability as well as Zn||Ti batteries. 展开更多
关键词 Bacterial cellulose fiber Ionic liquids Carboxylic group Gel electrolyte zn metal batteries
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Manipulating Horizontal Zn Deposition with Graphene Interpenetrated Zn Hybrid Foils for Dendrite-Free Aqueous Zinc Ion Batteries 被引量:2
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作者 Yao Li Lisha Wu +4 位作者 Cong Dong Xiao Wang Yanfeng Dong Ronghuan He Zhongshuai Wu 《Energy & Environmental Materials》 SCIE EI CAS CSCD 2023年第5期398-405,共8页
Aqueous zinc ion batteries(ZIBs)with intrinsic safety have great potentials in portable devices,but suffer from limited cycling life mainly caused by serious dendrite growth and unavoidable side reactions of Zn anodes... Aqueous zinc ion batteries(ZIBs)with intrinsic safety have great potentials in portable devices,but suffer from limited cycling life mainly caused by serious dendrite growth and unavoidable side reactions of Zn anodes.Herein,graphene interpenetrated Zn(GiZn)hybrid foils are developed for dendrite-free and long-term Zn anodes for high-performance ZIBs.The GiZn anode is prepared by interfacial assembly of reduced graphene oxide(rGO)on the skeletons of zinc foams,followed by mechanical compression into hybrid foils and drying process.The presence of the rGO nanosheets in the GiZn hybrid foils provides abundant zincophilic sites to induce horizontal Zn deposition for Zn metal anodes without the growth of dendrites.Meanwhile,the uniform distribution of rGO nanosheets endows the hybrid foils with superior conductivity and wetting ability with electrolytes for reduced interfacial resistances.As a result,GiZn-based symmetric cells exhibit a small voltage hysteresis of 30.4 mV and remarkable areal capacity of 30 mAh cm^(-2)at 0.5 mA cm^(-2).Further,GiZn anodes also enable the corresponding aqueous Zn||MnO_(2)batteries with high capacity of 168.5 mAh g^(-1)at 8 C,superior to the counterpart with pure Zn foil anodes(72.7 mAh g^(-1)).Therefore,GiZn hybrid foil anodes will shed light on the rational construction of 2D material-interpenetrated Zn hybrid foil anodes for high-performance ZIBs. 展开更多
关键词 aqueous zinc ion batteries dendrite-free zn anodes GRAPHENE high capacity long cycling life
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An Air‑Rechargeable Zn Battery Enabled by Organic–Inorganic Hybrid Cathode
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作者 Junjie Shi Ke Mao +10 位作者 Qixiang Zhang Zunyu Liu Fei Long Li Wen Yixin Hou Xinliang Li Yanan Ma Yang Yue Luying Li Chunyi Zhi Yihua Gao 《Nano-Micro Letters》 SCIE EI CAS CSCD 2023年第4期138-152,共15页
Self-charging power systems collecting energy harvesting technology and batteries are attracting extensive attention.To solve the disadvantages of the traditional integrated system,such as highly dependent on energy s... Self-charging power systems collecting energy harvesting technology and batteries are attracting extensive attention.To solve the disadvantages of the traditional integrated system,such as highly dependent on energy supply and complex structure,an airrechargeable Zn battery based on MoS_(2)/PANI cathode is reported.Benefited from the excellent conductivity desolvation shield of PANI,the MoS_(2)/PANI cathode exhibits ultra-high capacity(304.98 mAh g^(−1) in N_(2) and 351.25 mAh g^(−1) in air).In particular,this battery has the ability to collect,convert and store energy simultaneously by an airrechargeable process of the spontaneous redox reaction between the discharged cathode and O2 from air.The air-rechargeable Zn batteries display a high open-circuit voltage(1.15 V),an unforgettable discharge capacity(316.09 mAh g^(−1) and the air-rechargeable depth is 89.99%)and good air-recharging stability(291.22 mAh g^(−1) after 50 air recharging/galvanostatic current discharge cycle).Most importantly,both our quasi-solid zinc ion batteries and batteries modules have excellent performance and practicability.This work will provide a promising research direction for the material design and device assembly of the next-generation self-powered system. 展开更多
关键词 Air-rechargeable MoS_(2)/PAni Cathode Desolvation shield Energy storage mechanism zn batteries module
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超声波辅助铁基体电沉积Zn-Ni-P/纳米ZrO_(2)复合镀层及性能研究
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作者 李宁 《电镀与精饰》 CAS 北大核心 2023年第7期8-16,共9页
通过电沉积并辅助超声波振荡在铁基体上制备出Zn-Ni-P/纳米ZrO_(2)复合镀层。研究了镀液中ZrO_(2)颗粒浓度对复合镀层中ZrO_(2)颗粒含量以及复合镀层表面形貌、相结构、硬度、耐磨性能和耐腐蚀性能的影响。结果表明:随着镀液中ZrO_(2)... 通过电沉积并辅助超声波振荡在铁基体上制备出Zn-Ni-P/纳米ZrO_(2)复合镀层。研究了镀液中ZrO_(2)颗粒浓度对复合镀层中ZrO_(2)颗粒含量以及复合镀层表面形貌、相结构、硬度、耐磨性能和耐腐蚀性能的影响。结果表明:随着镀液中ZrO_(2)颗粒浓度从5 g/L增加至30 g/L,ZrO_(2)颗粒含量呈现先升高后降低趋势,复合镀层的形貌特征发生变化,导致硬度、耐磨性能和耐腐蚀性能存在差异,但不同复合镀层的相结构无明显差异,都含有单质Zn、Ni_(5)Zn_(21)和ZrO_(2)相。镀液中ZrO_(2)颗粒浓度为20 g/L时,复合镀层中ZrO_(2)颗粒含量达到10.43%,该复合镀层的晶粒细小且结合紧密,表现出良好的致密性,硬度达到503.5 HV,平均摩擦系数和磨损失重仅为0.48和3.42 mg,电荷转移电阻和低频端阻抗值分别达到6.34×10^(3)Ω·cm^(2)和6.84×10^(3)Ω·cm^(2),其性能与Zn-Ni-P合金镀层相比显著提高。适当增加镀液中ZrO_(2)颗粒浓度有利于提高复合镀层中ZrO_(2)颗粒含量,使复合镀层的晶粒明显细化且致密性改善,具有较强的阻碍局部塑性变形和承载能力,并且能有效抑制电化学腐蚀,从而表现出更好的性能。 展开更多
关键词 zn-ni-P/纳米ZrO_(2)复合镀层 超声波辅助电沉积 ZrO_(2)颗粒 耐磨性能 耐腐蚀性能
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汽车电池用La-Mg-Ni基储氢合金的元素替代及电化学性能
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作者 王飞 李丽君 +1 位作者 梅琼珍 李振坤 《矿冶工程》 CAS 北大核心 2024年第4期90-94,共5页
采用感应熔炼方法制备了La_(0.7)R_(0.1)Mg_(0.2)Ni_(3.35)Al_(0.15)(R=La/Nd/Sm)储氢合金,研究了稀土元素Nd/Sm替代La对储氢合金相结构和电化学性能的影响。结果表明,采用Nd或Sm替代La时,储氢合金物相组成未发生改变,仍由LaNi_(5)、(La... 采用感应熔炼方法制备了La_(0.7)R_(0.1)Mg_(0.2)Ni_(3.35)Al_(0.15)(R=La/Nd/Sm)储氢合金,研究了稀土元素Nd/Sm替代La对储氢合金相结构和电化学性能的影响。结果表明,采用Nd或Sm替代La时,储氢合金物相组成未发生改变,仍由LaNi_(5)、(LaMg)_(2)Ni_(7)和(LaMg)_(5)Ni_(19)相组成,但储氢合金中LaNi_(5)相和(LaMg)_(5)Ni_(19)相丰度会增加、(LaMg)_(2)Ni_(7)相丰度减小。R为La、Nd和Sm时储氢合金的最大放电比容量均在第2次充放电循环时获得,分别为377 mAh/g、382 mAh/g和376 mAh/g;采用Nd或Sm替代La,储氢合金高倍率放电性能、24 h荷电保持率和充放电循环100次时的容量保持率都不同程度地增加,且R为Nd时储氢合金的相应值最大。采用Nd或Sm替代La会使得储氢合金的交换电流密度、氢扩散系数增加,储氢合金电极的高倍率放电性能与交换电流密度和氢扩散系数变化趋势一致,表明储氢合金电极的高倍率放电性能由交换电流密度和氢扩散系数共同决定。 展开更多
关键词 储氢合金 稀土掺杂 La Nd Sm 元素替代 相结构 电化学性能 汽车电池 La-Mg-ni
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温度和甲酸镍含量对制备Zn-Ni合金渗层的影响 被引量:2
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作者 徐鹏辉 王胜民 +2 位作者 乐林江 肖敏 赵晓军 《材料导报》 CSCD 北大核心 2023年第16期205-212,共8页
为改善渗锌层的防腐性能,通过在渗锌过程添加甲酸镍制备了Zn-Ni合金渗层,分析了不同温度(400℃、450℃、500℃、550℃、600℃)和不同甲酸镍含量(0 g、15 g、44 g、75 g、103 g)对渗层制备过程的影响。采用扫描电镜(SEM,配备有EDS能谱)、... 为改善渗锌层的防腐性能,通过在渗锌过程添加甲酸镍制备了Zn-Ni合金渗层,分析了不同温度(400℃、450℃、500℃、550℃、600℃)和不同甲酸镍含量(0 g、15 g、44 g、75 g、103 g)对渗层制备过程的影响。采用扫描电镜(SEM,配备有EDS能谱)、X射线衍射仪(XRD)分析了不同试样渗层截面形貌和物相组成;采用电化学极化曲线和阻抗谱(EIS)表征了不同试样在3.5%(质量分数,下同)NaCl溶液中的电化学行为,并通过中性盐雾实验测试了渗层的耐蚀性能;利用显微维氏硬计测试渗层表面至基体不同相层硬度。结果表明:随温度的升高渗层显著增厚,渗层表面硬度降低;随甲酸镍含量的增加渗层明显减薄,渗层中ZnO、Fe_(3)ZnC_(0.5)相衍射峰明显增强,渗层中间相层硬度值增大;温度和甲酸镍含量对渗层自腐蚀电位无明显影响,腐蚀电流密度随温度的升高而增大,随甲酸镍含量的增大而明显减小;试样阻抗弧半径和渗层电阻均随甲酸镍含量的增加而增大;甲酸镍含量越高,对盐雾实验白锈的出现抑制越明显,出现红锈的时间显著延长。综上所述,添加甲酸镍显著改善了渗锌层的组织结构,明显提高了渗层的耐腐蚀性能,这对促进锌-镍合金共渗技术的应用具有积极意义。 展开更多
关键词 zn-ni合金渗层 电化学行为 渗层显微硬度 耐腐蚀性 甲酸镍含量
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Zn−Sn−Cu−xNi无铅焊料合金的电化学腐蚀行为
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作者 陈文静 叶楠 +1 位作者 卓海鸥 唐建成 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2023年第9期2740-2750,共11页
通过铸造法制备Zn−30Sn−2Cu−xNi(x=0,0.5,1.0,1.5,质量分数,%)无铅焊料合金,并研究该合金的微观组织演化及在0.5 mol/L NaCl溶液中的腐蚀行为。采用电位动力学极化和电化学阻抗谱(EIS)技术研究其电化学行为,以此评估Ni元素含量对Zn−Sn−C... 通过铸造法制备Zn−30Sn−2Cu−xNi(x=0,0.5,1.0,1.5,质量分数,%)无铅焊料合金,并研究该合金的微观组织演化及在0.5 mol/L NaCl溶液中的腐蚀行为。采用电位动力学极化和电化学阻抗谱(EIS)技术研究其电化学行为,以此评估Ni元素含量对Zn−Sn−Cu合金腐蚀性能的影响。通过观察腐蚀过程中合金表面显微组织的演变,分析Zn−Sn−Cu−Ni合金的腐蚀机理。结果表明,添加0.5%Ni由于形成致密而均匀的腐蚀层从而有效提高Zn−30Sn−2Cu合金的耐腐蚀性能,且其主要腐蚀产物为ZnO,Zn(OH)_(2)和Zn_(5)(OH)_(8)Cl_(2)·H_(2)O。当Ni含量达到1.0%和1.5%时,Zn−30Sn−2Cu合金的耐腐蚀性能下降,主要是由于(Ni,Cu)5Zn21金属间化合物与富Zn相之间的电偶腐蚀加速富Zn相的溶解。因此,Zn−30Sn−2Cu−0.5Ni焊料合金具有最佳的耐腐蚀性能。 展开更多
关键词 zn−Sn−Cu−ni合金 显微组织 极化 电化学阻抗谱 电偶腐蚀
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