基本信息

黄长水 男  青岛生物能源与过程研究所
电子邮件:huangcs@qibebt.ac.cn
通信地址: 山东省青岛市崂山区松岭路189号

邮政编码: 266101

个人主页: http://cs.qibebt.ac.cn

研究领域

从事碳纳米结构材料,包括功能化碳纳米管和石墨烯的光电性质和储能性质的研究。目前研究方向主要是分子材料和纳米材料的设计及性质,以开发新型能源材料和器件为目标,发展新型碳素纳米材料在能源领域的应用及其高附加值的利用,开发锂离子电容器等新型储能器件和关键材料。

招生信息

热忱欢迎加入我们的研究大家庭!可报考博士、硕士研究生。

招生专业
081701-化学工程
080502-材料学
070303-有机化学
招生方向
储能材料,纳米材料,碳材料,分子材料
纳米材料、分子材料和器件
分子材料和器件

教育背景

   
学历
研究生

学位
博士

专利与奖励

   
专利成果
[1] 黄长水, 杨泽, 宋雨威. 一种新型三维碳炔类全碳材料及其制备方法. CN: CN108892119A, 2018-11-27.
[2] 黄长水, 王宁, 赵富华, 李晓东, 吕青, 王坤. 一类富含sp碳及Ⅲ、Ⅴ主族三价杂原子的二维富碳材料制备方法及其应用. CN: CN108912314A, 2018-11-30.
[3] 黄长水, 王宁, 王坤, 吕青, 杨泽, 何建江. 一类富含羰基、硫酮及硒砜官能基团的二维富碳材料制备方法及其应用. CN: CN107011504A, 2017-08-04.
[4] 黄长水, 何建江, 王宁, 吕青, 杨泽. 一种含卤素或拟卤素富碳材料及其应用. CN: CN106898773A, 2017-06-27.
[5] 黄长水, 杨泽, 王宁, 吕青. 一种新型三嗪富碳二维材料及其制备方法. CN: CN107098910A, 2017-08-29.
[6] 黄长水, 吕青, 司文燕, 何建江, 王宁. 一种吡啶氮掺杂的氢取代共轭碳材料在氧还原中的应用. CN: CN107093747A, 2017-08-25.
[7] 黄长水, 杨泽, 王宁, 吕青. 一种三嗪富碳二维材料及其制备方法. CN: CN107098910B, 2020-04-10.
[8] 黄长水, 何建江, 王宁, 吕青, 杨泽. 一种含氢富碳材料及其应用. CN: CN107069036A, 2017-08-18.
[9] 黄长水, 杜惠平, 何建江, 张明佳, 吕青, 李玉良. 一种异原子掺杂石墨炔的制备方法. CN: CN105645378A, 2016-06-08.
[10] 黄长水, 闫星辰, 崔光磊, 刘志宏, 逄淑平, 徐红霞. 一种新型含锗钙钛矿材料及其太阳能电池. CN: CN103943368A, 2014-07-23.
[11] 李玉良, 黄长水, 刘辉彪, 李勇军. 石墨炔在金属离子电池和超级电容器中的应用. CN: CN103943373A, 2014-07-23.
[12] 黄长水, 张圣亮, 崔光磊, 张传健, 逄淑平, 韩鹏献. 一种大面积转移CVD石墨烯膜的方法. CN: CN103833030A, 2014-06-04.
[13] 崔光磊, 张波, 韩鹏献, 逄淑平, 刘志宏, 黄长水, 姚建华, 徐红霞. 一种具有褶皱结构的石墨膜导热散热片. CN: CN203675528U, 2014-06-25.
[14] 崔光磊, 韩鹏献, 张波, 黄长水. 锂离子电池集流体及锂离子电池. CN: CN104681820A, 2015-06-03.
[15] 崔光磊, 张波, 韩鹏献, 逄淑平, 刘志宏, 黄长水, 姚建华, 徐红霞. 一种基于人造石墨膜的均热板. CN: CN203719484U, 2014-07-16.
[16] 崔光磊, 张波, 韩鹏献, 逄淑平, 刘志宏, 黄长水, 姚建华, 徐红霞. 一种基于碳材料的吸波散热片. CN: CN203554863U, 2014-04-16.
[17] 崔光磊, 张波, 韩鹏献, 逄淑平, 刘志宏, 黄长水, 姚建华, 徐红霞. 一种导热率可控的复合石墨导热膜材料及其制备工艺. CN: CN103450857A, 2013-12-18.
[18] 黄长水, 刘辉彪, 李玉良, 朱道本. κ-(BEDT-TTF) 2 Cu(SCN) 2 纳米棒阵列及其制备方法与应用. CN: CN101130427B, 2010-08-11.
[19] 黄长水, 刘辉彪, 李玉良, 朱道本. κ-(BEDT-TTF) 2 Cu(SCN) 2 纳米棒阵列及其制备方法与应用. 中国: CN101130427, 2008-02-27.

出版信息

Selected Publications 

1.     “Bulk graphdiyne powder applied for highly  efficient lithium storage”, ZHANG S., LIU H., HUANG C.*, CUI G., LI Y., Chemical  Communications, 2015, 51:  1834. 

2.     “Conjugated microporous polymers with excellent  electrochemical performance for lithium and sodium storage”, ZHANG S.,  HUANG W., HU P., HUANG C.*, SHANG C., ZHANG C., YANG  R., CUI G., Journal of Materials Chemistry A, 2015, 3: 1896.  

3.     “Self-catalyzed growth of large-area nanofilms of  two-dimensional carbon”, QIAN X., LIU H., HUANG C., CHEN S., ZHANG L., LI Y.,  WANG J., LI Y., Scientific Reports, 2015, 5: 7756. 

4.     “Graphdiyne for high capacity and long-life  lithium storage”, HUANG C., ZHANG S., LIU H., LI Y., CUI G., LI Y., Nano Energy,  2015, 11: 481.  

5.    “Raman enhancement of a dipolar molecule on graphene”, HUANG  C., KIM M., WONG B. M., SAFRON N. S., ARNOLD M. S., GOPALAN P., Journal  of Physical Chemistry C, 2014, 118: 2077. 

6.    “Orientation of a monolayer of dipolar molecules on graphene from  X-ray absorption spectroscopy”, JOHNSON P. S., HUANG C., KIM M., SAFRON N. S.,  ARNOLD M. S., WONG B. M., GOPALAN P., HIMPSEL F. J., Langmuir, 2014, 30:  2559. 

7.     “Reproducible one-step fabrication of compact  MAPbI3–xClxThin films derived from mixed-lead-halide  precursors”, WANG D., LIU Z., ZHOU Z., ZHU H., ZHOU Y., HUANG C., WANG Z., XU  H., JIN Y., FAN B., PANG S., CUI G., Chemistry of Materials, 2014, 26:  7145. 

8.    Anticorrosive flexible pyrolytic polyimide  graphite film as a cathode current collector in lithium bis(trifluoromethane  sulfonyl) imide electrolyte”, HAN P., ZHANG B., HUANG C., GU L., LI H., CUI G.,  Electrochemistry Communications, 2014, 44: 70. 

9.    “RuSe/reduced graphene  oxide: an efficient electrocatalyst for VO2+/VO2+ redox  couples in vanadium redox flow batteries”, HAN P., WANG X., ZHANG L., WANG T.,  YAO J., HUANG C., GU L., CUI G., RSC Advances, 2014, 4: 20379. 

10.  “One-step,  solution-processed formamidinium lead trihalide  (FAPbI3−xClx) for mesoscopic perovskite–polymer solar  cells”, LV S., PANG S., ZHOU Y., Nitin P. Padture, HU H., WANG L., ZHOU X., ZHU  H., ZHANG L., HUANG C., CUI G., Physical Chemistry Chemical Physics, 2014, 16:  19206. 


发表论文
[1] PNAS. 2024,   通讯作者  
[2] Yang, Ze, Ren, Xin, Song, Yuwei, Li, Xiaodong, Zhang, Chunfang, Hu, Xiuli, He, Jianjiang, Li, Jiazhu, Huang, Changshui. Germanium-Carbdiyne: A 3D Well-Defined sp-Hybridized Carbon-Based Material with Superhigh Li Storage Property. ENERGY & ENVIRONMENTAL MATERIALS[J]. 2023, 第 9 作者  通讯作者  6(1): 
[3] Dai, Hao, Zou, Haiyuan, Song, Tao, Gao, Lei, Wei, Shuting, Liu, Hong, Xiong, Huatian, Huang, Changshui, Duan, Lele. Pyridyl-containing graphdiyne stabilizes sub-2 nm ultrasmall copper nanoclusters for the electrochemical reduction of CO2. INORGANIC CHEMISTRY FRONTIERS. 2023, 第 8 作者http://dx.doi.org/10.1039/d2qi02671f.
[4] Kun Wang, Xin Liu, Fuhua Zhao, Deyi Zhang, Yanguang Cui, Ze Yang, Xiaodong Li, Yanliang Zhang, Hongbao Su, Jianfei Wu, Changshui Huang. Dressing the manganese dioxide cathode with close-fitting thin carbon film to suppress the dissolution and expansion. CHEMICAL ENGINEERING JOURNAL. 2023, 第 11 作者  通讯作者  474: http://dx.doi.org/10.1016/j.cej.2023.145543.
[5] Deyi Zhang, Xiaodong Li, Wenjing Liu, Jingchi Gao, Xingru Yan, Qin Liu, Changshui Huang. Research of graphdiyne materials applied for electrochemical energy storage. NANO TRENDS. 2023, 第 7 作者  通讯作者  4: http://dx.doi.org/10.1016/j.nwnano.2023.100017.
[6] Gao, Jingchi, Yan, Xingru, Huang, Changshui, Zhang, Zhihui, Fu, Xinlong, Chang, Qian, He, Feng, Li, Meiping, Li, Yuliang. Boosting Fe Cationic Vacancies with Graphdiyne to Enhance Exceptional Pseudocapacitive Lithium Intercalation. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION. 2023, 第 3 作者  通讯作者  http://dx.doi.org/10.1002/anie.202307874.
[7] 李晓慧, 李晓东, 孙全虎, 何建江, 杨泽, 肖金冲, 黄长水. 石墨炔衍生物的合成与应用. 物理化学学报. 2023, 第 7 作者39(1): 47-61, https://kns.cnki.net/kcms2/article/abstract?v=M9N_p6ifsvOdEOiPkkf2JkKanR3YzCR4mxiawwbnj20EILQdI6iQgw0oRFjSyt3KAdDb6L63U4y4jnzb_4uIHm1utFyO1pit0XBZgFV62v1EykFq9k43X1zaG-u7NwtF&uniplatform=NZKPT&language=gb.
[8] Li, Meiping, Hou, Zhufeng, Li, Xiaodong, Huang, Changshui, Lv, Qing. Constructing atomic single metal Co-C-3(OH)(1) sites with graphdiyne for zinc-air batteries. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2023, 第 4 作者11(30): 16172-16179, http://dx.doi.org/10.1039/d3ta02386a.
[9] Liu, Xin, Wang, Kun, Liu, Ying, Zhao, Fuhua, He, Jianjiang, Wu, Hao, Wu, Jianfei, Liang, HanPu, Huang, Changshui. Constructing an ion-oriented channel on a zinc electrode through surface engineering. CARBON ENERGY[J]. 2023, 第 9 作者  通讯作者  5(11): 2-14, http://dx.doi.org/10.1002/cey2.343.
[10] 闫星儒, 刘文静, 李晓东, 黄长水. 石墨炔氧还原催化剂的合成及应用. 硅酸盐学报[J]. 2023, 第 4 作者51(9): 2362-2397, http://lib.cqvip.com/Qikan/Article/Detail?id=7110779083.
[11] Xin Wang, Xiuli Hu, Lirong Zheng, Qing Lv, Jianjiang He, Xiaodong Li, Ru Li, Tiantian Lu, Changshui Huang. The synthesis of MNC5 active site for electrochemical catalysis. NANO ENERGY. 2023, 第 9 作者  通讯作者  117: http://dx.doi.org/10.1016/j.nanoen.2023.108919.
[12] Zheng, Xuchen, Chen, Siao, Li, Jinze, Wu, Han, Zhang, Chao, Zhang, Danyan, Chen, Xi, Gao, Yang, He, Feng, Hui, Lan, Liu, Huibiao, Jiu, Tonggang, Wang, Ning, Li, Guoxing, Xu, Jialiang, Xue, Yurui, Huang, Changshui, Chen, Chunying, Guo, Yanbing, Lu, TongBu, Wang, Dan, Mao, Lanqun, Zhang, Jin, Zhang, Yue, Chi, Lifeng, Guo, Wanlin, Bu, XianHe, Zhang, Hongjie, Dai, Liming, Zhao, Yuliang, Li, Yuliang. Two-Dimensional Carbon Graphdiyne: Advances in Fundamental and Application Research. ACS NANO. 2023, 第 17 作者  通讯作者  http://dx.doi.org/10.1021/acsnano.3c03849.
[13] Li, Xiaodong, Huang, Changshui, Wang, Kun, Qi, Lu, Zhang, Chunfang, Zhang, Mingjia, Xue, Yurui, Cui, Yanguang, Li, Yuliang. Alkyne-to-alkene conversion in graphdiyne driving instant reversible deformation of whole carbon film. SCIENCE ADVANCES[J]. 2023, 第 2 作者  通讯作者  9(40): http://dx.doi.org/10.1126/sciadv.adi1690.
[14] Chang, Qian, Fu, Xinlong, Gao, Jingchi, Zhang, Zhihui, Liu, Xin, Huang, Changshui, Li, Yuliang. Advanced Multilayered Electrode with Planar Building Blocks Structure for High-Performance Lithium-Ion Storage. ADVANCED MATERIALS. 2023, 第 6 作者  通讯作者  http://dx.doi.org/10.1002/adma.202305317.
[15] Zhang, Deyi, Yang, Ze, Liu, Wenjing, Yan, Xingru, Liu, Qin, Li, Xiaodong, Huang, Changshui, Li, Yuliang. The preparation of whole sp-C composed alkyne rich carbon materials. NANO RESEARCH[J]. 2023, 第 7 作者  通讯作者  16(11): 12618-12625, http://dx.doi.org/10.1007/s12274-023-5820-x.
[16] Fu, Xinlong, He, Feng, Gao, Jingchi, Yan, Xingru, Chang, Qian, Zhang, Zhihui, Huang, Changshui, Li, Yuliang. Directly Growing Graphdiyne Nanoarray Cathode to Integrate an Intelligent Solid Mg-Moisture Battery. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY[J]. 2023, 第 7 作者  通讯作者  145(5): 2759-2764, http://dx.doi.org/10.1021/jacs.2c11409.
[17] Gao, Jingchi, He, Feng, Huang, Changshui, Xue, Yurui, Zuo, Zicheng, Li, Yuliang. High energy density primary cathode with a mixed electron/ion interface. MATERIALS HORIZONS[J]. 2022, 第 3 作者  通讯作者  9(11): 2893-2900, http://dx.doi.org/10.1039/d2mh00635a.
[18] Li, Ru, Sun, Huijuan, Zhang, Chao, Zhang, Mingjia, Li, Xiaodong, Yang, Ze, Ma, Xiaodi, Huang, Changshui. Graphdiyne doped with transition metal as ferromagnetic semiconductor. CARBON[J]. 2022, 第 8 作者  通讯作者  188: 25-33, http://dx.doi.org/10.1016/j.carbon.2021.11.057.
[19] Sun, Quanhu, He, Jianjiang, Gao, Lei, Lu, Tiantian, Ma, Xiaodi, Huang, Changshui. Synthesis Methods of Graphdiyne and Graphdiyne Based Materials. CHINESE JOURNAL OF CHEMISTRY[J]. 2022, 第 6 作者  通讯作者  40(7): 872-880, http://dx.doi.org/10.1002/cjoc.202100638.
[20] Sun, Quanhu, He, Jianjiang, Li, Xiaodong, Lu, Tiantian, Si, Wenyan, Zhao, Fuhua, Wang, Kun, Huang, Changshui. In-situ synthesis of graphdiyne on Mn3O4 nanoparticles for efficient Zn ions diffusion and storage. CHEMICAL ENGINEERING JOURNAL[J]. 2022, 第 8 作者  通讯作者  432: http://dx.doi.org/10.1016/j.cej.2021.134402.
[21] Li, Ru, Zhang, Mingjia, Fu, Xinlong, Gao, Jingchi, Huang, Changshui, Li, Yuliang. Research of Low-Dimensional Carbon-Based Magnetic Materials. ACS APPLIED ELECTRONIC MATERIALS. 2022, 第 5 作者  通讯作者  4(7): 3263-3277, 
[22] Li, Yuan, Cui, Yanguang, Zhang, Mingjia, Li, Xiaodong, Li, Ru, Si, Wenyan, Sun, Quanhu, Yu, Lingmin, Huang, Changshui. Ultrasensitive Pressure Sensor Sponge Using Liquid Metal Modulated Nitrogen-Doped Graphene Nanosheets. NANO LETTERS[J]. 2022, 第 9 作者  通讯作者  22(7): 2817-2825, http://dx.doi.org/10.1021/acs.nanolett.1c04976.
[23] Lu, Tiantian, Deng, Xin, Sun, Quanhu, Xiao, Jinchong, He, Jianjiang, Wang, Kun, Huang, Changshui. 3D Carbiyne Nanospheres Boosting Excellent Lithium and Sodium Storage Performance. SMALL[J]. 2022, 第 7 作者  通讯作者  18(3): 
[24] Yang, Ze, Zhang, Deyi, Wang, Kun, He, Jianjiang, Li, Jiazhu, Huang, Changshui. Investigating graphdiyne based materials for rechargeable batteries. NANO TODAY[J]. 2022, 第 6 作者  通讯作者  46: http://dx.doi.org/10.1016/j.nantod.2022.101588.
[25] Zhao, Fuhua, Wang, Kun, Li, Xiaodong, He, Jianjiang, Si, Wenyan, Liu, Xin, Sun, Quanhu, Cui, Yanguang, Wu, Jianfei, Huang, Changshui. Layer-by-layer covalent bond coupling way making graphdiyne cages. NANO ENERGY[J]. 2022, 第 10 作者  通讯作者  104: http://dx.doi.org/10.1016/j.nanoen.2022.107904.
[26] Li, Meiping, Lv, Qing, Si, Wenyan, Hou, Zhufeng, Huang, Changshui. Sp-Hybridized Nitrogen as New Anchoring Sites of Iron Single Atoms to Boost the Oxygen Reduction Reaction. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2022, 第 5 作者  通讯作者  61(38): http://dx.doi.org/10.1002/anie.202208238.
[27] Lu, Tiantian, Hu, Xiuli, He, Jianjiang, Li, Ru, Gao, Juan, Lv, Qing, Yang, Ze, Cui, Shuang, Huang, Changshui. Aqueous/solid state Zn-air batteries based on N doped graphdiyne as efficient metal-free bifunctional catalyst. NANO ENERGY[J]. 2021, 第 9 作者  通讯作者  85: http://dx.doi.org/10.1016/j.nanoen.2021.106024.
[28] Yang, Ze, Ren, Xin, Ma, Xiaodi, Song, Yuwei, Hu, Xiuli, Zhang, Mingjia, Li, Yuan, Xie, Chipeng, Li, Xiaodong, Li, Jiazhu, Huang, Changshui. Fast preparation of controllable nitrogen-atom-substituted graphyne film for use in field effect transistor devices. MATERIALS CHEMISTRY FRONTIERS[J]. 2021, 第 11 作者  通讯作者  5(22): 7993-8001, http://dx.doi.org/10.1039/d1qm00736j.
[29] Sun, Quanhu, Lu, Tiantian, He, Jianjiang, Huang, Changshui. Advances in the Study of Heteratomic Graphdiyne Electrode Materials. CHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE[J]. 2021, 第 4 作者  通讯作者  42(2): 366-379, http://dx.doi.org/10.7503/cjcu20200598.
[30] Zhao, Fuhua, Li, Xiaodong, He, Jianjiang, Wang, Kun, Huang, Changshui. Preparation of hierarchical graphdiyne hollow nanospheres as anode for lithium-ion batteries. CHEMICAL ENGINEERING JOURNAL[J]. 2021, 第 5 作者  通讯作者  413: http://dx.doi.org/10.1016/j.cej.2020.127486.
[31] Yang, Ze, Song, Yuwei, Zhang, Chunfang, He, Jianjiang, Li, Xiaodong, Wang, Xin, Wang, Ning, Li, Yuliang, Huang, Changshui. Porous 3D Silicon-Diamondyne Blooms Excellent Storage and Diffusion Properties for Li, Na, and K Ions. ADVANCED ENERGY MATERIALS[J]. 2021, 第 9 作者  通讯作者  11(33): http://dx.doi.org/10.1002/aenm.202101197.
[32] He, Jianjiang, Lu, Tiantian, Wang, Kun, Wang, Xin, Li, Xiaodong, Shen, Xiangyan, Gao, Juan, Si, Wenyan, Yang, Ze, Huang, Changshui. Rational Construction of Advanced Potassium Ion Diffusion and Storage Matrix. ADVANCED FUNCTIONAL MATERIALS[J]. 2021, 第 10 作者  通讯作者  31(5): https://www.webofscience.com/wos/woscc/full-record/WOS:000581154900001.
[33] Zhao, Fuhua, Wang, Ning, Wang, Kun, Li, Xiaodong, Yang, Ze, Si, Wenyan, Sun, Quanhu, Huang, Changshui. Nitrogen substituted graphdiyne as electrode for high-performance lithium-ion batteries and capacitors. 2D MATERIALS[J]. 2021, 第 8 作者  通讯作者  8(4): http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000702046600001.
[34] Li, Yuan, Zhang, Mingjia, Hu, Xiuli, Li, Xiaodong, Li, Ru, Yu, Lingmin, Fan, Xinhui, Wang, Naiyin, Huang, Changshui, Li, Yuliang. Graphdiyne Visible-Light Photodetector with Ultrafast Detectivity. ADVANCED OPTICAL MATERIALS[J]. 2021, 第 9 作者  通讯作者  9(6): https://www.webofscience.com/wos/woscc/full-record/WOS:000606815800001.
[35] Li, Ru, Li, Xiaodong, Zhang, Mingjia, Li, Yuan, Yang, Ze, Huang, Changshui. A Universal Fe/N Incorporated Graphdiyne for Printing Flexible Ferromagnetic Semiconducting Electronics (vol 12, pg 204, 2021). JOURNAL OF PHYSICAL CHEMISTRY LETTERS. 2021, 第 6 作者  通讯作者  12(19): 4706-4706, http://dx.doi.org/10.1021/acs.jpclett.1c01477.
[36] 孙全虎, 卢天天, 何建江, 黄长水. 含异原子石墨炔基电极材料的研究进展. 高等学校化学学报[J]. 2021, 第 4 作者42(2): 366-379, http://lib.cqvip.com/Qikan/Article/Detail?id=7103912228.
[37] Li, Yuan, Zhang, Mingjia, Hu, Xiuli, Yu, Lingmin, Fan, Xinhui, Huang, Changshui, Li, Yuliang. Graphdiyne-based flexible respiration sensors for monitoring human health. NANO TODAY[J]. 2021, 第 6 作者  通讯作者  39: http://dx.doi.org/10.1016/j.nantod.2021.101214.
[38] Li, Ru, Li, Xiaodong, Zhang, Mingjia, Li, Yuan, Yang, Ze, Huang, Changshui. A Universal Fe/N Incorporated Graphdiyne for Printing Flexible Ferromagnetic Semiconducting Electronics. JOURNAL OF PHYSICAL CHEMISTRY LETTERS[J]. 2021, 第 6 作者  通讯作者  12(1): 204-210, http://dx.doi.org/10.1021/acs.jpclett.0c03309.
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