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科學(xué)研究

化工學(xué)院劉淑玲教授團(tuán)隊(duì)在電化學(xué)儲(chǔ)能領(lǐng)域取得重要進(jìn)展

2024-10-10 14:30 文/化工學(xué)院 黃文歡 圖/化工學(xué)院 劉淑玲 點(diǎn)擊:[]

圍繞“雙碳”重大戰(zhàn)略決策,我校化學(xué)與化工學(xué)院劉淑玲教授、王超副教授和仝建波教授聚焦電化學(xué)儲(chǔ)能器件與轉(zhuǎn)化及其關(guān)鍵材料研究,并在該領(lǐng)域取得了系列研究進(jìn)展。近2年來(lái)在Advanced Functional Materials(IF=18.5)、Nano Energy(IF=16.8)、Green Chemistry(IF=9.3)、Journal of Colloid And Interface Science(IF=9.4)、Journal of Materials Chemistry A(IF=10.7)等國(guó)際權(quán)威刊物上發(fā)表論文20多篇,主要研究成果介紹如下:

【成果1】全固態(tài)鋰金屬電池的鋰離子交換驅(qū)動(dòng)界面緩沖層

本工作利用PEO基質(zhì)中的Li+-H+離子交換化學(xué)構(gòu)建有機(jī)/無(wú)機(jī)PEO/HMO界面化學(xué)層策略來(lái)解決ASSLMBs界面不穩(wěn)定面臨的重大挑戰(zhàn)。超薄(≈104 nm)高性能緩沖層不僅提供了高離子電導(dǎo)率、足夠的Li+遷移通道,LMO還擁有源自HMO的快速鋰離子交換能力。PEO/HMO層的高離子電導(dǎo)率使得LFP陰極的高比容量為161.9 mAhg-1,而高負(fù)載NCM811陰極的高比容量為183.6 mAhg-1,具有良好的倍率性能。該成果發(fā)表在《Advanced Functional Materials》期刊上。

【成果2】構(gòu)建磷化鎳/氫氧化鐵納米異質(zhì)結(jié)構(gòu)用于析氧反應(yīng)

本工作通過(guò)先低溫溶劑熱磷化,然后常溫水溶液浸漬相結(jié)合的策略,制備了一種Ni2P/Fe(O)OH異質(zhì)結(jié)構(gòu)納米顆粒。泡沫鎳(NF)負(fù)載的Ni2P/Fe(O)OH不僅在1 M KOH中,10 mA cm-2 OER電流密度下表現(xiàn)出240 mV的過(guò)電位,而且Ni2P/Fe(O)OH/NF對(duì)OER也表現(xiàn)出優(yōu)異的長(zhǎng)期耐久性。本工作還對(duì)OER活性增強(qiáng)的原因進(jìn)行了研究。該成果發(fā)表在《Nano Energy》期刊上。

【成果3】超低擴(kuò)散勢(shì)壘的四甲基銨陽(yáng)離子插層MnO2用于高性能水系鋅離子電池

本工作合成了具有較大層間距(0.96 nm)和超低Zn2+擴(kuò)散勢(shì)壘的TMA-MnO2,展示了其作為水系鋅離子電池正極材料的潛力。通過(guò)四甲基銨離子TMA+和H2O分子的共同預(yù)嵌入,TMA-MnO2呈現(xiàn)出獨(dú)特的層狀結(jié)構(gòu),且層間距擴(kuò)大至0.96 nm。DFT計(jì)算證實(shí)TMA+的存在降低了Zn2+擴(kuò)散勢(shì)壘,提高了離子電導(dǎo)率,從而提高了整體電池性能。在電化學(xué)測(cè)試中,TMA-MnO2 在電流密度為0.2 A g-1時(shí)比容量為310.3 mAh g-1,在2 A g-1電流密度下經(jīng)過(guò)1000次循環(huán)后,容量保持率為91%。該成果發(fā)表在《Journal of Materials Chemistry A》期刊上。

【成果4】泡沫鎳上生長(zhǎng)的硒化鐵/磷化鈷異質(zhì)結(jié)構(gòu)薄膜用于析氧反應(yīng)

本工作首先采用一步液相法在泡沫鎳NF上生長(zhǎng)Co2P納米晶,然后在 Co2P/NF 上電沉積非晶態(tài) FeSe 層。在催化堿性溶液中的OER時(shí),F(xiàn)eSe/Co2P/NF在10 mA cm?2電流密度下表現(xiàn)出240 mV的過(guò)電位,Tafel 斜率為 65.6 mV dec?1。優(yōu)異的性能來(lái)自于異質(zhì)結(jié)構(gòu)引起的電荷重新分布改變了羥基的吸附能,并導(dǎo)致更溫和的 OER 動(dòng)力學(xué),表現(xiàn)為電荷轉(zhuǎn)移阻力降低、塔菲爾斜率降低和表觀活化能降低。該成果發(fā)表在《Journal of Materials Chemistry A》期刊上。

【成果5】一步磷化金屬有機(jī)骨架制備鐵摻雜磷化鈷納米線用于析氧反應(yīng)

本工作通過(guò)一步液相法磷化含F(xiàn)e2+的鈷金屬有機(jī)骨架,制備鐵摻雜磷化鈷(CoFeP)納米線。樣品呈現(xiàn)Co2P相,但Co和Fe之間存在明顯的電子相互作用。CoFeP納米線負(fù)載在鎳泡沫(NF)上催化堿性溶液中的OER時(shí),在10 mA cm?2電流密度下表現(xiàn)出240 mV的過(guò)電位,遠(yuǎn)低于Co2P/NF。動(dòng)力學(xué)分析表明,晶格氧氧化機(jī)制發(fā)生在 CoFeP/NF 表面,而吸附質(zhì)析出機(jī)制在 Co2P/NF 表面占主導(dǎo)地位。該成果發(fā)表在《Green Chemistry》期刊上。

【成果6】增強(qiáng)電化學(xué)性能的鈷摻雜氧化錳用于水性鋅離子電池正極材料

本工作通過(guò)CoMn甘油酸酯前驅(qū)體合成了鈷摻雜Mn2O3,并將其應(yīng)用于水性鋅離子電池。鈷摻雜提高了Mn2O3的離子電導(dǎo)率,加快了Zn2+和H+的擴(kuò)散速度,從而提高了電化學(xué)性能。Co-Mn2O3在0.2 A g-1下表現(xiàn)出 289.7 mAh g-1的高比容量,并且在 2 A g-1下經(jīng)過(guò)1000次循環(huán)后容量保持率為 84.6%。原位表征技術(shù)驗(yàn)證了Zn2+ 和H+共插層機(jī)制,同時(shí)闡明了Mn2O3在充放電循環(huán)過(guò)程中的形態(tài)和結(jié)構(gòu)變化。該成果發(fā)表在《Green Chemistry》期刊上。

2023-2024發(fā)表在二區(qū)以上論文目錄:

[1] Songyi Han, Shuling Liu, Junchao Chen, Yunpeng Zhu, Jingze Zhang, Yongmin Wu, Shangbo Yu, Weiping Tang, Lei Zhu, Xiaowei Wang. Li-ion exchange-driven interfacial buffer layer for all-solid-state lithium metal batteries, Advanced Functional Materials, 2024, 10.1002/adfm.202405152.

[2] Yichuang Xing, Shuling Liu, Yuan Liu, Xuechun Xiao, Yvpei Li, Zeyi Wang, Yanling Hu, Bowen Xin, He Wang, Chao Wang. Construction of nickel phosphide/iron oxyhydroxide heterostructure nanoparticles for oxygen evolution, Nano Energy, 2024, 123: 109402.

[3] Xuan Liu, Zhikai Hu, Peize Xing, Jiale Guo, Yichuang Xing, Shuling Liu, Chao Wang. Construction of iron-doped nickel cobalt phosphide nanoparticles via solvothermal phosphidization and their application in alkaline oxygen evolution, Journal of Colloid and Interface Science, 2025, 677: 441-451.

[4] Zeyi Wang, Shuling Liu, Jinyu Du, Yichuang Xing, Yanling Hu, Yujie Ma, Xinyi Lu, Chao Wang. Iron-doped nickel phosphide hollow nanospheres synthesized by solvothermal phosphidization of layered double hydroxides for electrocatalytic oxygen evolution, Green Chemistry, 2024, 26: 7779-7788.

[5] Shuling Liu, Wenxuan Xu, Kang Feng, Xiaoqiang Shi, Zheng Xu, Ruirui Teng, Xuanlu Fan, Chao Wang. Three-dimensional heterostructured Nickel phosphide@nickel cobalt phosphide nanocomposites with highly porous surface for high-performance supercapacitor, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 686: 133342.

[6] Shuling Liu, Xuanlu Fan, Yuan Liu, Zheng Xu, Wenxuan Xu, Ruirui Teng, Jianbo Tong. High-energy-density, ultralong-life manganese oxide composite carbon aqueous zinc-ion asymmetric supercapacitors, Journal of Energy Storage, 2024, 81: 110443.

[7] Zeyi Wang, Shuling Liu, Wen Duan, Yichuang Xing, Yanling Hu, Yujie Ma. Transition metal selenides as catalysts for electrochemical water splitting, International Journal of Hydrogen Energy, 2024, 60: 1414-1432,

[8] Shuling Liu, Wenxuan Xu, Kang Feng, Xiaoqiang Shi, Chao Wang. Bimetallic MOF derived Ni–Mn phosphide for high-performance supercapacitor electrode material, Journal of Energy Storage, 2024, 96: 112684.

[9] Zixiang Zhou, Jianbo Tong, Xiaoliang Zou, Yue Wang, Yuxuan Bai, Yifan Yang, Youyong Li, Chao Wang, Shuling Liu. Ultra-low diffusion barrier tetramethyl ammonium cation-intercalated layered MnO2 for high performance aqueous zinc-ion batteries, Journal of Materials Chemistry A, 2024, 12: 10923.

[10] Zixiang Zhou, Jianbo Tong, Jiale Guo, Shaofeng Guo, Shuhan Liu, Zhipeng Qin, Muxuan Luo, Chao Wang, Shuling Liu. Cobalt-doped manganese (III) oxide cathode materials with enhanced electrochemical performance for aqueous zinc-ion batteries, Green Chemistry, 2024, 26 (11): 6704-6712.

[11] Jianbo Tong, Yichuang Xing, Xuechun Xiao, Yuan Liu, Zhikai Hu, Zeyi Wang, Yanling Hu, Bowen Xin, Shuling Liu, He Wang, Chao Wang. Iron-doped cobalt phosphide nanowires prepared via one-step solvothermal phosphidization of metal–organic frameworks for the oxygen evolution reactions, Green Chemistry, 2024, 26(9): 5308-5325.

[12] Zixiang Zhou, Jianbo Tong, Jiale Guo, Shaofeng Guo, Shuhan Liu, Zhipeng Qin, Zelei Chang, Chao Wang, Shuling Liu. Manganese (II) oxide-embedded dopamine-derived carbon nanospheres for durable zinc-ion batteries, Materials Chemistry Frontiers, 2024, 10.1039/D4QM00505H.

[13] Shuling Liu, Yue Wang, Zixiang Zhou, Wenhao Zhang, Jiaru Fan. Indium-doped nanoflower structures are used as zinc-manganese aqueous batteries to achieve high specific capacity, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 699: 134688.

[14] Shuling Liu, Jie Wang, Zixiang Zhou, Ying Li, Wei Zhang, Chao Wang. Cobalt-doped δ-MnO2/CNT composites as cathode material for aqueous zinc-ion batteries, Inorganic Chemistry Frontiers, 2023, 10 (17): 5167-5177.

[15] Zixiang Zhou, Shuling Liu, Jie Wang, Yili Wu, Yifan Yang, Yvpei Li, Jinlian Wang, Chao Wang. Enhanced cycling stability achieved by the nitrogen doped carbon coating layer for electrodeposited Mn3O4 in aqueous zinc ion batteries, Applied Surface Science, 2023, 614: 156259.

[16] Shuling Liu, Yichuang Xing, Zixiang Zhou, Yifan Yang, Yvpei Li, Xuechun Xiao, Chao Wang. Heterostructure iron selenide/cobalt phosphide films grown on nickel foam for oxygen evolution, Journal of Materials Chemistry A, 2023, 11(15): 8330-8341.

[17] Songyi Han, Shuling Liu, Jingxiong Gao, Murong Zhai, Yongmin Wu, Jianbo Tong, Hong Zhang, Weiping Tang. A novel composite polymer electrolyte containing the lithium-ion conductor Li3Zr2Si2PO12 synthesized by cationic-exchange method for solid lithium metal batteries, Electrochimica Acta, 2023, 441: 141795.

[18] Jinhao Gao, Shuling Liu, Zhijian Li, Rui Wang, Yichuang Xing, Chao Wang. One-step solvothermal synthesis of heterostructured nanocomposite Ni0.85Se/MnSe as the high-performance electrode material for supercapacitors, Electrochimica Acta, 2023, 439: 141709.

[19] Shuling Liu, Wei Zhang, Lei Ren, Ying Li, Jie Wang, Chao Wang. Hierarchically cobalt phosphide nanostructures embedded in N, P co-doped porous carbon networks assembled by ultrathin sheets for high-performance Li/Na-ion batteries, Chemical Engineering Science, 2023, 280(5): 119089.

[20] Jie Song; Ying Li; Wei Zhang; Yaya Xu; Jie Wang; Shuling Liu. Open 3D Structure of Ni2-xSnxP/C Microflowers Electrodes assisted by ion-exchange in metal-organic skeleton for Battery-Supercapacitor Hybrids, Journal of Alloys and Compounds, 2023, 947: 169622.

[21] Yili Wu, Zixiang Zhou, Qi Yao, Jinlian Wang, Yu Tian, Shuling Liu, Chao Wang. Electrodeposition nanoarchitectonics of nickel cobalt phosphide films from methyltriphenylphosphonium bromide-ethylene glycol deep eutectic solvent for hydrogen evolution reaction, Journal of Alloys and Compounds, 2023, 942: 169070.

[22] Yu Tian, Yifan Yang, Yili Wu, Zixiang Zhou, Yvpei Li, Jinlian Wang, Shuling Liu, Chao Wang. Electropolymerization of 5-amino-2-naphthalenesulfonic acid and their application as the electrode material for supercapacitors, Journal of Energy Storage, 2023, 72: 108308.

[23] Chao Wang, Yifan Yang, Zixiang Zhou, Yihao Li, Yvpei Li, Wentong Hou, Shuling Liu, Yu Tian. Electrodeposited poly(5‐Amino‐2‐naphthalenesulfonic acid‐co‐o‐Aminophenol) as the electrode material for flexible supercapacitor, Small, 2023, 20(8): 2305994.

(核稿:黃文歡 編輯:趙誠(chéng))

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