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个人简介

黄苇苇,博士,教授,博士生导师。2011年7月毕业于南开大学物理化学专业,同年进入陈军院士课题组进行博士后研究。2013年7月出站,进入燕山大学环境与化学工程学院,2019年在南洋理工大学访学。主要从事锂/钠/钾离子二次电池有机正极材料和固态电池的研究。目前,已以第一作者/通讯作者身份发表Angew Chem. Int. Ed,Science Advance,Chem. Mater,Advance Science, Energy Storage Mater等高水平期刊论文50余篇。主持国家自然科学基金2项,河北省自然科学基金2项,中国博士后特别资助和面上资助项目各1项,南开大学先进能源材料化学教育部重点实验室开放基金2项,作为主要参与人完成国家973重大项目1项,入选河北省“三三三人才工程”,2016年度中国百名优秀博士后选介,被评为燕山大学优秀硕士学位论文指导教师,获得燕山大学“新锐工程”青年拔尖人才和燕山大学首批“燕山学者”称号。

研究领域

能量储存和转化,包括锂/钠/钾离子二次电池、有机二次电池、锂硫电池、全固态电池等

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)

[1] 熊文旭.黄苇苇.Pillar[5]quinone-Carbon Nanocomposites as High-Capacity Cathodes for Sodium-Ion Batteries.2019 [2] 闫冰.黄苇苇.High-capacity organic sodium ion batteries using a sustainable C4Q/CMK-3/SWCNT electrode.2019 [3] 黄苇苇.杨志南.Superior performance for lithium-ion battery with organic cathode and ionic liquid electrolyte.2020 [4] 黄苇苇.Research Progress of High-Performance Organic Material Pyrene-4,5,9,10-Tetraone in Secondary Batteries.2021 [5] 黄苇苇.Organic Materials as Electrodes in Potassium-Ion Batteries.2021 [6] 黄苇苇.Recent advances of covalent organic frameworks in lithium ion batteries.2021 [7] 黄苇苇.有机正极材料在钠二次电池中的应用.2018 [8] 孙会民.王丽秋,黄苇苇.High-Performance organic lithium-ion battery with plastic crystal electrolyte.2020 [9] 胡金艳.黄苇苇.Supramolecular Network Obtained from the Interaction of Dihydrophosphate Anions and Thiourea-based Receptors.2016 [10] 黄苇苇.刘洋.Cost-Effective Biomass Carbon/Calix[4]Quinone Composites for Lithium Ion Batteries.2019 [11] 张萌.黄苇苇.Recent Progress in Calix[n]quinone (n=4, 6) and Pillar[5]quinone Electrodes for Secondary Rechargeable Batteries.2020 [12] 周文君.黄苇苇,于升学.Combination of high performance organic cathode Calix[4]quinone and practical biocarbon in sodium -ion batteries.2020 [13] 樊玉欠.郭文锋,马志鹏,黄苇苇.Co(OH)(2)@Co electrode for efficient alkaline anode based on Co2+/Co0 redox mechanism.2019 [14] 黄苇苇.An all-organic symmetric battery based on a triquinoxalinylene derivative with different redox voltage active sites and a large conjugation system.2021 [15] 熊文旭.黄苇苇.高容量锂离子电池正极复合材料pillar[5]quinone/CMK-3的制备.2020 [16] 黄苇苇.High-capacity organic electrode material calix[4] quinone/CMK-3 nanocomposite for lithium batteries.2018 [17] 黄苇苇.单壁碳纳米管提升正极复合材料杯[4]醌/介孔炭CMK-3储锂性能.2019 [18] 李丹.黄苇苇.一种新型识别F~-的硝基脲酰肼荧光化学传感器.2020 [19] 黄苇苇.Characterization methods of organic electrode materials.2020 [20] 黄苇苇.于升学,王慧娟,樊玉欠.In situ synthesis of a 3D highly porous NiO film electrode with enhanced performance for supercapacitors.2019 [21] 黄苇苇.Synthesis and application of Calix[6]quinone as a high-capacity organic cathode for plastic crystal electrolyte-based lithium-ion batteries.2019 [22] 黄苇苇.Design of Poly(siloxane) Electrolytes with Small Molecule Quinone Cathodes for Long-Cycle Lithium-metal Batteries.2022 [23] 王静.黄苇苇.Quinone Electrode for Long Lifespan Potassium-Ion Batteries Based on Ionic Liquid Electrolytes.2022 [24] 黄苇苇.王艳芝.Progress of Solid-state Electrolytes Used in Organic Secondary Batteries.2022 [25] 黄苇苇.A rational configuration for ultralong lifespan all-solid-state organic sodium-metal batteries.2022 [26] 黄苇苇.Double-layer Composite Gel Polymer Electrolyte for Organic Sodium-Metal Batteries.2022 [27] 黄苇苇.Quantitative analysis of molecular surface: systematic application in the sodiation mechanism of a benzoquinone-based pillared compound as a cathode.2022 [28] 黄苇苇.Recent Progress on Organic Electrode Materials for Multivalent (Zn, Al, Mg, Ca) Secondary Batteries.2022 [29] 黄苇苇.刘帅.Calix[8]quinone: A new promising macrocyclic molecule as an efficient organic cathode in lithium ion batteries with a highly-concentrated electrolyte.2022 [30] 崔华敏.郭文锋,黄苇苇.杯[4]醌/N掺杂的无定形碳纳米纤维复合材料储锂性能.2020 [31] 黄苇苇.Rechargeable Sodium-Ion Battery Based on Polyazaacene Analogue Anode.2021 [32] 黄苇苇.Recent Advance in Ionic-Liquid-Based Electrolytes for Rechargeable Metal-Ion Batteries.2021 [33] 有机电极材料过渡态的研究进展.2021 [34] 黄苇苇.Revealing better organic sodium battery performance in ionic liquid electrolytes.2021 [35] 黄苇苇.Fading of a novel colorimetric receptor after recognizing H2PO4-.2018 [36] 胡攀登.郭文锋,黄苇苇.Overview of the Synthesis and Structure of Calix[n]quinones (n=4, 6, 8).2020 [37] 黄苇苇.杨志南.Calix[6]quinone as high-performance cathode for lithium-ion battery聽聽聽聽(Open Access).2019 [38] An inorganic-organic nanocomposite calix[4] quinone (C4Q)/CMK-3 as a cathode material for high-capacity sodium batteries.2017 [39] 陈周昊.黄苇苇,邵光杰.Preparation of Ni-CeO2 composite coatings with high catalytic activity for hydrogen evolution reaction.2015

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