Post on 26-Jun-2020
1 Dr. Chuanfang (John) Zhang
Dr. Chuanfang (John) Zhang
ERC senior research fellow, CRANN, School of Chemistry, Trinity College Dublin, Ireland
E-mail: zhangjc@tcd.ie, ruoshuang123@gmail.com Tel: +353-1-896-4837
Background
➢ 2017.05- Trinity College Dublin Senior research fellow Ireland NanoScience, Chemistry
➢ 2016.04-2016.05 Drexel University Visiting scientist USA Materials Engineering
➢ 2015.04-2017.04 Trinity College Dublin ERC Postdoc Ireland NanoScience
➢ 2012.11-2014.05 Drexel University Joint-PhD USA Materials Engineering
➢ 2011.09-2012.10 East China Univ. Sci. Tech. PhD China Chemical Engineering
Research topics and interests
➢ Funding: ERC-3D2D Chief Researcher (CR) Transparent conductive films and devices
➢ Funding: ERC-3D2D CR Printed objects for electronics and energy storage
➢ Funding: ERC-3D2D CR Multifunctional MXene ink for Li-ion batteries
➢ Funding: ERC-3D2D CR Scalable, rapid production of high-performance MSCs
➢ Funding: ERC-2D NanoCaps CR Metal chalcogenides/SWCNT composites for batteries
➢ Funding: ERC-2D NanoCaps CR Large-area thin film composites for Li-ion batteries
➢ Funding: ERC-2D NanoCaps CR Oxidation stability of MXenes
➢ Funding: ERC-3D2D CR 3D printing of energy storage device/objects
➢ Funding: ERC-3D2D CR Inkjet printing of interdigitated objects
➢ Funding: US DOE CR Drexel-UCLA—high energy density nanostructured hybrids
➢ Funding: CN NSF CR Long lifetime, high capacity Li-ion and Li-S batteries
➢ Funding: CN NSF CR Carbon microspheres suspension for flowable capacitors
Professional activities
Membership: ACS, MRS, ECS, IAAM
Reviewer: 17 journals, including Joule, Energy Environ. Sci., Adv. Mater, ACS Nano, Adv. Energy Mater., Small,
Carbon, NPJ 2D Mater. Appl. ChemSusChem, Energy Storage Mater., ACS AMI, Nano Energy, Org. Chem. etc.
Publishing 40 papers as first author or corresponding author: Nature Comm., Adv. Mater. (VIP), Adv. Funct.
Mater. (VIP), ACS Nano, Adv. Sci., Nano Energy, Small, Chem. Mater. etc. First/corresponding authorship: 26
ESI hot paper: 2 (Adv. Mater.) ESI highly cited paper: 7 (1 CM, 2 AM, 1 JPS, 3 NE)
Write a book chapter for Springer Nature: MXenes for transparent conductive coatings and devices.
Write 2 invited reviews: (1) MXenes and their derivatives for pseudocapacitive energy storage and (2)
Two-dimensional flatlands for transparent energy storage devices, from the eic, Energy Environmental
Materials
Given >60 invited talks in Princeton, ETH-EMPA, Trinity College, Drexel, Zhejiang Univ., Fudan, HUST, Sun
Yat-Sen Univ.
H-index: 23, i-10 index: 29, total IF from the first author/corresponding author: 298. SCI citations: >2100
Social activities
Teaching assistant in ECUST (2009-2012) and Drexel MSE (2014) Shanghai, Philadelphia
Symposium assistant of MRS Fall Meeting (2014) and MRS Spring Meeting (2016) Boston, Phoenix
Love history, travelling, foods, Good at singing, handwriting, public speaking, especially at logic deduction
Awards & Honours
2016 and 2018 Irish Young Leader of the Year, Lab Scientist of the Year, Lab Staff Member of the Year
Books & Bagels series lectureship-outstanding presentation 2014.02
ECUST University English speaking competition finals, 2nd prize 2011.12
Recommendations from recognized scientists
Yury Gogotsi, Bruce Dunn, Jonathan N. Coleman, Daniel Steingart, Valeria Nicolosi, Mark Hersam
2 Dr. Chuanfang (John) Zhang
张传芳 (博士,ERC 高级研究员)
爱尔兰都柏林大学圣三一学院化学系,圣三一学院 CRANN 研究所
邮箱: zhangjc@tcd.ie, ruoshuang123@gmail.com
电话: +353-1-896-4837, +353-087-468-9191(爱尔兰)+86-13917578130 (中国)
学习、工作背景
➢ 2017.05- 圣三一学院 ERC 高级 研究员 爱尔兰 化学系,纳米科学
➢ 2016.04, 2018.09 德雷塞尔大学 访问科学家 美国 材料工程
➢ 2015.04-2017.04 圣三一学院 博士后研究员 爱尔兰 化学系,纳米科学
➢ 2012.11-2014.05 德雷塞尔大学 联合培养博士 美国 材料工程
➢ 2011.09-2012.10 华东理工大学 博士 中国 化学工程
研究项目及领域
➢ 资助: ERC-3D2D 主要研究员(主研) 柔性透明导体薄膜与器件用于显示和电化学储能
➢ 资助: ERC-3D2D 主研 3D 打印物体用于电子和储能器件
➢ 资助: ERC-3D2D 主研 多功能 MXene 墨汁用于锂离子电池
➢ 资助: ERC-3D2D 主研 规模化瞬时制备高性能微型超级电容器
➢ 资助: ERC-2D NanoCaps 主研 金属硫族物/碳纳米管柔性复合膜用于锂离子电池
➢ 资助: ERC-2D NanoCaps 主研 大面积纳米片/纳米管复合薄膜的打印用于锂离子电池
➢ 资助: ERC-2D NanoCaps 主研 MXene 的氧化稳定性机理研究
➢ 资助: ERC-3D2D 主研 基于 3D 打印技术的能源存储器件及其他器件
➢ 资助: ERC-3D2D 主研 基于喷墨打印纳米片的集成式器件
➢ 资助: US DOE 主研 Drexel-UCLA—高能量密度纳米复合电极的构筑
➢ 资助: CN NSF 主研 长寿命、高容量的锂离子电池及锂硫电池
➢ 资助: CN NSF 主研 纳米孔道碳微球用于电化学液流电容器
学术活动
行业协会:美国化学会,美国材料研究协会,美国电化学协会,国际先进材料协会
特邀审稿:17个知名期刊,如Joule, Energy Environ. Sci., Adv. Mater, ACS Nano, Adv. Energy Mater., Small,
Carbon, NPJ 2D Mater. Appl. ChemSusChem, Energy Storage Mater., ACS AMI, Org. Chem., Nano Energy 等.
论文发表:共发表40余篇SCI论文,其中以第一作者或通讯作者发表26篇论文,包括Nature Comm., Adv.
Mater. (VIP, 2篇), Adv. Funct. Mater.(VIP, 2篇), ACS Nano (1篇), Adv. Sci. (1篇), Nano Energy (2篇), Small
(1篇), Chem. Mater (2篇), 其中ESI 热点论文2篇,ESI 高被引用论文7篇, 第一和通讯作者论文影响因子为
298. H-因子为23,i-10因子为29,被SCI引用2100余次
专著章节:受邀为Springer Nature 撰写专著章节,由Yury Gogotsi教授编辑
学术报告:受邀做学术报告60余次,如普林斯顿,ETH-EMPA, Trinity,Drexel,浙大,复旦,华科等
业余活动和爱好
在华东理工大学理学院做助教 (2009-2012) 和 Drexel University 材料系担任材料热力学助教 (2014)
担任 2014 年 MRS 秋季会议(波士顿)和 2016 年 MRS 春季会议(菲尼克斯)的会议助手
唱歌、舞蹈、美食、旅行,客串乐队主唱,主持人,酷爱书法,文艺,历史,演讲,擅长逻辑推理
些许谬赞
2016年,2018年度荣膺爱尔兰年度青年领军人物,爱尔兰年度实验科学家,爱尔兰年度实验研究员
2014 年 Drexel University Books & Bagels 系列杰出报告奖及图书馆奖
2011 年华东理工大学英语演讲大赛第二名
专家推荐 Yury Gogotsi, Bruce Dunn, Jonathan N. Coleman, Daniel Steingart, Valeria Nicolosi, Mark Hersam
3 Dr. Chuanfang (John) Zhang
Peer-reviewed papers (selected) 已发表或邀稿论文
1) C. Zhang* #, S.-H. Park #, A. Seral-Ascaso, S. Barwich, N. McEvoy, C. Boland, J. N. Coleman,* Y.
Gogotsi,* V. Nicolosi,* High Capacity Silicon Anodes Enabled by MXene Viscous Aqueous Ink. Nature
Communications, 2018, just accepted (corresponding author)
2) H. Tang,# W. Li,# L. Pan,# C. Cullen, Y. Liu, A. Pakdel, D. Long, J. Yang,* N. McEvoy, G. Duesberg,
V. Nicolosi,* C. Zhang,*. In-situ Formed Protective Barrier Enabled by Sulfur@Titanium Carbide
(MXene) Ink for Achieving High-Capacity, Long Lifetime Li-S Batteries. Advanced Science, 2018, 5,
1800502 (corresponding author)
Selected as “Hot papers” in Advanced Science, ranking 3 out of top 10:
http://www.materialsviewschina.com/2018/08/29968/
3) J. Xiong, # L. Pan, # H. Wang, F. Du, Y. Chen, J. Yang,* C. Zhang,* Synergistically Enhanced Lithium
Storage Performance Based on Titanium Carbide Nanosheets (MXene) Backbone and SnO2 Quantum
Dots. Electrochimica Acta, 2018, 268, 503-511 (corresponding author)
4) X. Zhang, J. Zhou, W. Dou, J. Wang, X. Mu, Y. Zhang, A. Abas, Q. Su, W. Lan,* E. Xie, and C.
Zhang,* Room-temperature vertically-aligned copper oxide nanoblades synthesized by electrochemical
restructuring of copper hydroxide nanorods: An electrode for high energy density hybrid device, Journal
of Power Sources, 2018, 383, 124-132 (corresponding author)
5) C. Zhang, * # M. Kremer,# A. Seral-Ascaso, S. Park, N. McEvoy, B. Anasori, Y. Gogotsi,* V. Nicolosi,*
Stamping of Flexible, Co-planar Micro-Supercapacitors Using MXene Inks. Advanced Functional
Materials, 2018, 28, 1705506 Frontispiece (corresponding author)
6) C. Zhang,* V. Nicolosi,* MXenes and their derivatives for pseudocapacitive energy storage, Energy
Storage Materials, 2018. (Invited review, corresponding author)
7) C. Zhang,* V. Nicolosi,* Graphene and MXene-based transparent conductive electrodes and
supercapacitors, Energy Storage Materials, 2019, 16, 102-125 (Invited review, corresponding author)
Selected as “Top most downloaded papers” in Energy Storage Materials:
https://www.journals.elsevier.com/energy-storage-materials/most-downloaded-articles
8) C. Zhang,* V. Nicolosi,* B. Anasori, Y. Gogotsi, MXenes for transparent conductive coatings and
devices, a chapter in “2D Transition Metal Carbides and Nitrides (MXenes): Structure, Properties, and
Applications”, published by Springer Nature press, 2018. (invited, corresponding author)
9) M. Tian, Y. Sun, C. Zhang,* J. Wang, W. Qiao, L. Ling, D. Long*, Enabling high-rate electrochemical
flow capacitors based on mesoporous carbon microspheres suspension electrodes. Journal of Power
Sources, 2017, 364, 182-190 (corresponding author)
10) C. Zhang, B. Anasori, A. Seral-Ascaso, S. Park, N. McEvoy, A. Shmeliov, G. Duesberg, J. N. Coleman,*
Y. Gogotsi,* and V. Nicolosi*, Transparent, Flexible and Conductive 2D Titanium Carbide (MXene)
Films with High Volumetric Capacitance, Advanced Materials, 2017, 29, 1702678. (VIP paper,
ESI Hot paper, March-June, 2018)
(List as “Most downloaded papers“ on September 2017.
http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1521-4095/homepage/2089_mostaccessed.html)
11) C. Zhang,*# S. Park,# S. O’Brien,# A. Seral-Ascaso, M. Liang, D. Hanlon, D. Krishnan, A. Crossley,
N. McEvoy, J. N. Coleman* and V. Nicolosi*, Liquid Exfoliation of Interlayer Spacing-Tunable 2D
4 Dr. Chuanfang (John) Zhang
Vanadium Oxide Nanosheets: High Capacity and Rate Handling Li-ion Battery Cathodes, Nano Energy,
2017, 39, 151-161. (corresponding author)
12) C. Zhang,*# S. Park,# O. Ronan, A. Harvey, A. Seral-Ascaso, Z. Lin, N. McEvoy, C. Boland, N. Berner,
G. Duesberg, P. Rozier, J. N. Coleman* and V. Nicolosi*, Enabling Flexible Heterostructures for Li-ion
Battery Anodes Based on Nanotube and Liquid-Phase Exfoliated 2D Gallium Chalcogenide Nanosheet
Colloidal Solutions, Small, 2017, 13, 1701677-1701687 (corresponding author)
13) C. Zhang,# S. Pinilla,# N. McEvoy, C. Cullen, B. Anasori, E. Long, S. Park, A. Seral-Ascaso, A.
Shmeliov, D. Krishnan, C. Morant, X. Liu, G. Duesberg, Y. Gogotsi,* V. Nicolosi,* Oxidation stability
of colloidal 2D titanium carbides (MXenes), Chemistry of Materials, 2017. 29 (11), 4848-4856. (ESI
highly cited paper, Feb-June, 2018) (List as “Most downloaded papers“ on May, 2017.
http://pubs.acs.org/action/showMostReadArticles?topArticlesType=month&journalCode=cmatex)
14) F. Du, H. Tang, L. Pan, T. Zhang, H. Lu, J. Xiong, J. Yang,* C. Zhang*. Environmental Friendly
Scalable Production of Colloidal 2D Titanium Carbonitride MXene with Minimized Nanosheets
Restacking for Excellent Cycle Life Lithium-Ion Batteries, Electrochimica Acta, 2017, 235, 690-699.
(corresponding author)
15) C. Zhang, T. Higgins, S. Park, S. O’Brien, D. Long. J. N. Coleman,* V. Nicolosi,* Highly flexible and
transparent solid-state supercapacitors based on RuO2/PEDOT:PSS conductive ultrathin films, Nano
Energy, 2016, 28, 495-505
16) L. Fan, L. Yang, X. Ni, J. Han,* R. Guo,* C. Zhang*, Nitrogen-enriched meso-macroporous carbon
fiber network as a binder-free flexible electrode for supercapacitors, Carbon, 2016, 107, 629-637,
(corresponding author)
17) C. Zhang*, X. Liu, V. Nicolosi*, Synthesis and Physicochemical Properties of Two-Dimensional
Gallium Sulfide Crystals, Bioenergetics 2016, 5:221. (invited review, corresponding author)
18) C. Zhang,# S. Kim,# M. Ghidiu, M. Zhao, M. Barsoum, V. Nicolosi,* Y. Gogotsi,* Layered
orthorhombic Nb2O5@Nb4C3Tx and TiO2@Ti3C2Tx hierarchical composites for high performance Li-ion
batteries, Advanced Functional Materials, 2016, 26, 4143-4151
19) C. Zhang, M. Beidaghi, M. Naguib, M. Lukatskaya, M. Zhao, B. Dyatkin, K. Cook, S. Kim, B. Eng, X.
Xiao, D. Long,* W. Qiao, B. Dunn,* Y. Gogotsi.* Synthesis and Charge Storage Properties of
Hierarchical Niobium Pentoxide/Carbon/Niobium Carbide (MXene) Hybrid Materials. Chemistry of
Materials, 2016, 28 (11), 3937–3943
20) Y. Wei, Y. Tao, C. Zhang *, J. Wang, W. Qiao, L. Ling and D. Long,* Layered carbide-derived carbon
with hierarchically porous structure for high rate lithium-sulfur batteries, Electrochimica Acta 2016, 188,
385–392 (corresponding author)
21) X. Xiao,# C. Zhang,# S. Lin, L. Huang, Z. Hu, Y. Cheng, T. Li, W. Qiao, D. Long, Y. Huang, L. Mai,
Y. Gogotsi and J. Zhou,* Intercalation of cations into partially reduced molybdenum oxide for high-rate
pseudocapacitors, Energy Storage Materials, 2015, 1, 1-8, (equal contribution, Ranked 4 in top highly
cited paper in Energy Storage Materials )
22) C. Zhang, K. Hatzell, M. Boota, B. Dyatkin, M. Beidaghi, D. Long, W. Qiao, E. C. Kumbur,* Y.
Gogotsi.* Highly porous carbon spheres for electrochemical capacitors and capacitive flowable
suspension electrodes. Carbon 2014, 77, 155–164 (Carbon Highly downloaded paper)
5 Dr. Chuanfang (John) Zhang
23) C. Zhang, Y. Xie, M. Zhao, A. Pentecost, Z. Ling, J. Wang, D. Long,* L. Ling, W. Qiao.* Enhanced
electrochemical performance of hydrous RuO2/mesoporous carbon nanocomposites via nitrogen doping.
ACS Applied Materials & Interfaces 2014, 6 (12), 9751−9759
24) C. Zhang,# R. Maloney,# M. Beidaghi, M. Lukatskaya, B. Dyatkin, E. Perre, D. Long, W. Qiao, B.
Dunn,* Y. Gogotsi.* Synthesis and electrochemical properties of niobium pentoxide deposited on
layered carbide-derived carbon. Journal of Power Sources, 2015, 274, 121-129 (ESI highly cited
paper)
25) C. Zhang, Y. Xie, G. Sun, A. Pentecost, J. Wang, W. Qiao, L. Ling, D. Long,* Y. Gogotsi.* Ion
intercalation into graphitic carbon with a low surface area for high energy density supercapacitors.
Journal of The Electrochemical Society, 2014, 161 (10), A1486-A1494
26) C. Zhang, Y. Xie, J. Wang, A. Pentecost, D. Long,* L. Ling, W. Qiao.* Effect of graphitic structure on
electrochemical ion intercalation into positive and negative electrodes. Journal of Solid State
Electrochemistry, 2014, 18 (10), 2673-2682
27) L. Kong, C. Zhang, J. Wang, W. Qiao, L. Ling and D. Long,* Nanoarchitectured Nb2O5 hollow,
Nb2O5@carbon and NbO2@carbon Core-Shell Microspheres for Ultrahigh-Rate Intercalation
Pseudocapacitors, Scientific Reports, 2016, 6: 21177
28) L. Kong, C. Zhang, J. Wang, W. Qiao, L. Ling and D. Long,* Free-Standing T-Nb2O5/Graphene
Composite Papers with Ultrahigh Gravimetric/Volumetric Capacitance for Li-Ion Intercalation
Pseudocapacitor, ACS Nano, 2015, 9 (11), 11200–11208
29) L. Kong, C. Zhang, S. Zhang, J. Wang, R. Cai, C. Lv,* W. Qiao, L. Ling, D. Long.* High-power and
high-energy asymmetric supercapacitors based on Li+-intercalation into a T-Nb2O5/graphene
pseduocapative electrode. Journal of Materials Chemistry A, 2014, 2, 17962-17970
30) L. Kong, C. Zhang, J. Wang, D. Long,* W. Qiao, L. Ling. Ultrahigh intercalation pseudocapacitance of
mesoporous orthorhombic niobium pentoxide from a novel cellulose nanocrystal template, Materials
Chemistry and Physics, 2015, 149-150, 495-504
31) L. Liu, Y. Wei, C. Zhang, C Zhang, X. Li, J. Wang, L. Ling, W. Qiao, D. Long.* Enhanced
electrochemical performances of mesoporous carbon microsphere/selenium composites by controlling
the pore structure and nitrogen doping. Electrochimica Acta, 2015, 153, 140-148
32) T. Higgins, # S. H. Park, # P. King, C. Zhang, N. McEvoy, N. C. Berner, D. Daly, A. Shmeliov, G.
Duesberg, V. Nicolosi,* J. N. Coleman,* A commercial conducting polymer as both binder and
conductive additive for silicon nanoparticle-based Li-ion battery negative electrodes, ACS Nano, 2016,
10 (3), 3703-3713
33) X. Xiao, Z. Peng, C. Chen, C. Zhang, M. Beidaghi, Z. Yang, N. Wu, Y. Huang, L. Miao, Y. Gogotsi,
J. Zhou.* Freestanding MoO3-x nanobelt/carbon nanotube films for Li-ion intercalation
pseudocapacitors. Nano Energy, 2014, 9, 355-363
34) D. Ge, L. Yang,* L. Fan, C. Zhang, X. Xiao, Y. Gogotsi, S. Yang.* Foldable supercapacitors from
triple networks of macroporous cellulose fibers, single-walled carbon nanotubes and polyaniline
nanoribbons. Nano Energy, 2015, 11, 568-578
35) M. Zhao, # C. Ren, # Z. Ling, M. Lukatskaya, C. Zhang, K. Aken, M. Barsoum, Y. Gogotsi.* Flexible
MXene/carbon nanotube composite paper with high volumetric capacitance. Advanced Materials, 2015,
6 Dr. Chuanfang (John) Zhang
27, 339–345 (ESI highly cited paper, hot paper)
36) S. Kim, M. Naguib, M. Zhao, C. Zhang, H. Jung, M. Barsoum, Y. Gogotsi,* High mass loading, binder-
free MXene anodes for high areal capacity Li-ion batteries, Electrochimica Acta 2015, 163, 246–251
37) A. Seral-Ascaso, S. Metel, A. Pokle, C. Backes, C. Zhang, H.C. Nerl, K. Rode, N.C. Berner, C. Downing,
N. McEvoy, E. Muñoz, A. Harvey, Z. Gholamvand, G.S. Duesberg, J.N. Coleman, V. Nicolosi,* Long-
chain amine-templated synthesis of gallium sulfide and gallium selenide nanotubes, Nanoscale, 2016, 8,
11698-11706.
38) M. Naguib, O. Mashtalir, M. Lukatskaya, B. Dyatkin, C. Zhang, V. Presser,* Y. Gogotsi,* M.
Barsoum.* One-step synthesis of nanocrystalline transition metal oxides on thin sheets of disordered
graphitic carbon by oxidation of MXenes. Chem. Commun., 2014, 50, 7420-7423 (covered paper)
39) Z. Hu, X. Xiao, C. Chen, T. Li, L. Huang, C. Zhang, J. Su, L. Miao, J. Jiang, Y. Zhang, J. Zhou.* Al-
doped α-MnO2 for high mass-loading pseudocapacitor with excellent cycling stability. Nano Energy,
2015, 11, 226-234
40) X. Xiao, T. Li, Z. Peng, H. Jin, Q. Zhong, Q. Hu, B. Yao, Q. Luo, C. Zhang, L. Gong, J. Chen, Y.
Gogotsi, J. Zhou.* Freestanding functionalized carbon nanotube-based electrode for solid-state
asymmetric supercapacitors. Nano Energy, 2014, 6,1-9 (selected in the front cover)
Coming papers (in preparation) 审稿中及准备中的论文
1) C. Zhang, et al., Green is better: Spontaneous formation of layered MXene hierarchical composites for
advanced Li+ storage. Journal of Materials Chemistry A.
2) C. Zhang, et al., Interdigitated micro-supercapacitors by printing Ti3C2Tx dispersions, Advanced Energy
Materials.
3) C. Zhang,* et al., A Robust, Freestanding MXene-Sulfur Conductive Paper for High-Energy Li-S
Batteries, Nanoscale (corresponding author)
4) C. Zhang,* et al., MXene-metal chalcogenide flexible composites with high volumetric Li+ storage
capacity. Advanced Functional Materials (corresponding author)
5) C. Zhang,* et al., Exfoliated indium selenide nanosheet-carbon nanotube hierarchical network for
superior Li+ storage. Advanced Energy Materials (corresponding author)
6) C. Zhang,* et al., Transparent conductive films based on titanium carbide (MXene)-PEDOT:PSS with
excellent optoelectronic and electrochemial properties. Advanced Energy Materials, In preparation
7) C. Zhang,* et al., Transparent, conductive, resilient films based on 2D titanium carbide (MXene) for
electromagnetic interference shielding, In preparation
8) S. Park, P. King, J. Coelho, C. Zhang, C. Boland, R. Tian, J. Coleman, V. Nicolosi, Microsized Si
percolated with SWCNT network for excellent areal capacity battery electrodes, Advanced Energy
Materials
9) S. Park, P. King, J. Coelho, C. Zhang, C. Boland, R. Tian, V. Nicolosi, J. Coleman, High Areal Capacity
Battery Electrodes Enabled by SWCNT Network, Nature Energy
10) L. Fan, L. Yang, X. Ni, X. Xu, J. Xi, J. Han, Z. Ling, M. Zhao, R. Guo, C. Zhang,* Template Directed
synthesis of biomass carbon with a high nitrogen doping for pseudocapacitive charge storage, Carbon
(corresponding author)
7 Dr. Chuanfang (John) Zhang
Conference presentations 会议报告
1) C. Zhang, Two-dimensional nanosheets: Scalable production and rapid thin film fabrication for energy
storage devices, The seventh Wuhan Optoelectronics Youth Forum 2018, Jan 24, 2018, Wuhan, China
(invited talk)
2) C. Zhang, Liquid Exfoliation of Interlayer Spacing-Tunable 2D Vanadium Oxide Nanosheets: High
Capacity and Rate Handling Li-Ion Battery Cathodes, 232nd ECS Meeting, National Harbor, MD, USA,
Oct. 1-5, 2017 (Oral)
3) C. Zhang, J. N. Coleman, Y. Gogotsi and V. Nicolosi, Two-Dimensional Titanium Carbide MXene
Colloidal Solution: Oxidation Stability and Application in Transparent Energy Storage Devices, 1st
European Conference on Chemistry of Two-Dimensional Materials, Strasbourg, France, Aug. 22-26,
2017 (Oral)
4) C. Zhang, S. Park, O. Ronan, A. Harvey, J. N. Coleman, and V. Nicolosi, Superior Li-Storage
Performances of Liquid-Phase Exfoliated Two-Dimensional Gallium Sulfide Nanosheets/Single-
Walled Carbon Nanotubes Flexible Composite, PRiME 2016, Honolulu, HI, USA, Oct 2-7, 2016 (oral)
5) C. Zhang, T. Higgins, S. Park, J. N. Coleman and V. Nicolosi, Optoelectronics and Electrochemical
Properties of RuO2/PEDOT:PSS Transparent, Conductive Ultrathin Films PRiME 2016, Honolulu, HI,
USA, Oct 2-7, 2016 (Poster)
6) L. McKeon, E. Long, Joao Coelho, C. Zhang, S. Park, R. Coull, A. Shmelov and V. Nicolosi, In-Situ
TEM Analysis of Ink-Jet Printed MnO2-Graphene for Supercapacitor Electrodes PRiME 2016,
Honolulu, HI, USA, Oct 2-7, 2016 (oral)
7) C. Zhang, S. Park, O. Ronan, A. Harvey, S. O'Brien, J. N. Coleman, and V. Nicolosi, Superior Li-
Storage Performances of Liquid-Phase Exfoliated Two-Dimensional Gallium Sulfide Nanosheets
/Single-Walled Carbon Nanotubes Flexible Composite, International Conference on Smart Energy
Technologies, Stockholm, Sweden, August 23-25, 2016 (oral)
8) C. Zhang, T. Higgins, J. N. Coleman and V. Nicolosi, Advanced RuO2/PEDOT Architecture for
Flexible and Transparent Supercapacitors, 229th ECS Meeting, San Diego, CA, USA, May 29-June 3,
2016 (Oral)
9) M. Lukatskaya, C. Zhang, M. Beidaghi, Y. Gogotsi, R. Maloney and B. Dunn, Intercalation Capacitance
of Transition Metal Oxides and Two-Dimensional Transition Metal Carbides, 2015 TechConnect World
Innovation Conference (invited talk).
10) C. Zhang, T. Higgins, S. Brien, S. Park, J. Coleman, V. Nicolosi. Highly flexible and transparent
solid-state supercapacitors based on RuO2/PEDOT:PSS hybrid ultrathin films. 2016 MRS Spring
Meeting, Phoenix, AZ, USA, March 28-April 1, 2016 (Oral)
11) C. Zhang, S. H. Park, O. Ronan, A. Seral-Ascaso, A. Harvey, J. N. Coleman, V. Nicolosi. Superior Li-
Storage Performances of Liquid-Phase Exfoliated Two-Dimensional Gallium Sulfide
Nanosheets/Single-Walled Carbon Nanotubes Flexible Composite, 2016 MRS Spring Meeting,
Phoenix, AZ, USA (Poster)
12) C. Zhang, T. Higgins, S. Brien, S. Park, J. Coleman, V. Nicolosi. Percolation Effect in the highly
flexible and tansparent solid-state supercapacitors based on RuO2/PEDOT:PSS hybrid ultrathin films.
8 Dr. Chuanfang (John) Zhang
6th International Conference on Carbon for Energy Storage/Conversion and Environment
Protection, Poznan, Poland, (Poster)
13) C. Zhang, M. Beidaghi, M. Naguib, M. Lukatskya, K. Cook, R. Maloney, D. Long, W. Qiao, B. Dunn,
Y. Gogotsi. An environmental green method to prepare highly crystallized Nb2O5/carbon composite
from two-dimensional Nb2C and Nb4C3 MXene. The First International Conference on Nanoenergy
and Nanosystems (NENS 2014), Beijing, China, Dec 8-10, 2014 (Oral)
14) C. Zhang, M. Beidaghi, M. Lukatskaya, R. Maloney, B. Dunn, Y. Gogotsi. One-step synthesis of carbon
supported Nb2O5 particles for electrochemical capacitor applications by oxidation of layered Nb2C.
2014 ECS and SMEQ Joint International Meeting Abstracts, Cancun, Mexico (Oral)
15) C. Zhang, R. P. Maloney, M. Beidaghi, M. Lukatskaya, E. Perre, Y. Gogotsi, B. Dunn. 2013 US
Department of Energy (DOE), Energy Storage Systems Program, Peer Review and Update Meeting,
San Diego, USA (Poster and Oral)
16) C. Zhang, M. Beidaghi, M. Naguib, M. Lukatskya, K. Cook, R. Maloney, B. Dunn, Y. Gogotsi. High
crystallized Nb2O5-Carbon sheets with two-dimensional layered structures for high performance
supercapacitor. 2013 MRS Fall Meeting, Boston, MA (Poster)
17) M. Beidaghi, C. Zhang, R. Maloney, B. Dunn, Y. Gogotsi. Three-dimensional structures of
Nb2O5/graphene as high rate electrodes for Li-ion capacitors. 2014 MRS Spring Meeting, San
Francisco, California (Oral)
Invited talks/presentations in universities/institutes/companies 学术报告
18) C. Zhang, K. B. Hatzell, M. Boota, B. Dyatkin, M. Beidaghi, E. C. Kumbur, Y. Gogotsi. Carbon
Spheres: grape-like nanomaterials for high performances supercapacitors. Books & Bagels
Conversations on Interdisciplinary Research, Drexel University, February 3, 2014
19) C. Zhang, W. Qiao, Y. Gogotsi. Carbon nanotubes: structure, preparation and their applications. East
China University of Science and Technology, May 19, 2014
20) C. Zhang, M. Beidaghi, P. Simon, Y. Gogotsi. Electrochemical Fundamentals and Applications-Series
I: Preliminary introduction on supercapacitor. Huazhong University of Science and Technology, June
19, 2014
21) C. Zhang, G. Sun, D. Long, W. Qiao, Y. Gogotsi. Electrochemical ion intercalation into graphitic
carbons for high energy density supercapacitor. Huazhong University of Science and Technology, June
20, 2014
22) C. Zhang, M. Beidaghi, P. Simon, Y. Gogotsi. Electrochemical Fundamentals in supercapacitor: From
test setup to the data analysis. East China University of Science and Technology, June 23, 2014
23) C. Zhang, M. Beidaghi, P. Simon, Y. Gogotsi. Electrochemical Fundamentals and Applications in
supercapacitor: from test setup to data analysis. Tongji University, October 20, 2014
24) C. Zhang, M. Beidaghi, M. Naguib, M. Lukatskya, S. Kim, K. Cook, R. Maloney, B. Dunn, Y.
Gogotsi, High crystallized Nb2O5-Carbon sheets with two-dimensional layered structures for high
performance supercapacitor. Tongji University, October 20, 2014
25) C. Zhang, M. Zhao, A. Pentecost, D. Long, W. Qiao. Controllable synthesis of Nitrogen-enriched
Mesoporous Carbon/Ruthenium Oxide for high rate handling pseudocapacitors. Northwest University
for Nationalities, October 22, 2014
9 Dr. Chuanfang (John) Zhang
26) C. Zhang, How to become a better graduate? Northwest University for Nationalities, October 22, 2014
27) C. Zhang, D. Long, W. Qiao, B. Dunn, Y. Gogotsi. Designing of materials’ architecture and novel
systems for high energy density supercapacitor. Fudan University, November 22, 2014
28) C. Zhang, M. Beidaghi, P. Simon, Y. Gogotsi. Electrochemical Fundamentals and Applications in
supercapacitor. Yangzhou University, January 13, 2015
29) C. Zhang, D. Long, W. Qiao, B. Dunn, Y. Gogotsi. Two-dimensional MXene and its layered
derivatives: structure and application in supercapacitors and Li-ion batteries, Yangzhou University,
January 13, 2015
30) C. Zhang, W. Qiao, Y. Gogotsi. Two-dimensional MXene and its layered derivatives: structure and
application in supercapacitors and Li-ion batteries, Nanjing Tech University, January 15, 2015
31) C. Zhang, T. Higgins, S. Brien, S. Park, J. Coleman, V. Nicolosi. Percolation Effect in the highly
flexible and tansparent solid-state supercapacitors based on RuO2/PEDOT:PSS hybrid ultrathin films,
Chemistry Research Seminar, School of Chemistry, Trinity College Dublin, October 6, 2015
32) C. Zhang, K. Paton, J. N. Coleman, V. Nicolosi, Two-dimensional Nanosheets Produced by Liquid-
phase Exfoliation: Structure, Characterizations and Applications--Transition Metal Dichalcogenides as
an Example, Nanjing Tech University, December 15, 2015
33) C. Zhang, Tutorial course and electrochemical characterizations on supercapacitors, Li-ion batteries
and Li-S batteries, Nanjing Tech University, December 16, 2015
34) C. Zhang, K. Paton, J. N. Coleman, V. Nicolosi, Two-dimensional Nanosheets Produced by Liquid-
phase Exfoliation: Structure, Characterizations and Applications--Transition Metal Dichalcogenides as
an Example, Sun Yat-Sen University, December 17, 2015
35) C. Zhang, Y. Gogotsi, Two-dimensional MXene and its layered derivatives for energy storage
applications, Princeton University, April 22, 2016
36) C. Zhang, Y. Gogotsi, Two-dimensional MXene and its layered derivatives for energy storage
applications, East China University of Science and Technology, April 30, 2016
37) C. Zhang, Y. Gogotsi, Two-dimensional MXene and its layered derivatives for energy storage
applications, Zhejiang University, May 11, 2016
38) C. Zhang, Y. Gogotsi, Two-dimensional MXene and its layered derivatives for energy storage
applications, Huazhong University of Science and Technology, May 17, 2016
39) C. Zhang, K. Paton, J. N. Coleman, V. Nicolosi, 高质量石墨烯的规模化制备及应用 , Hubei
University of Technology, May 18, 2016
40) C. Zhang, K. Paton, J. N. Coleman, V. Nicolosi, Scalable production of nanosheets solutions, Xiamen
University, Jan 15, 2018
41) C. Zhang, K. Paton, J. N. Coleman, V. Nicolosi, Scalable production of nanosheets solutions, Sun Yat-
Sen University, Jan 17, 2018
42) C. Zhang, Y. Gogotsi, V. Nicolosi, MXene inks for rapid, scalable production of high-performance
micro-supercapacitors, Shenzhen University, Jan 19, 2018.
43) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Transparent conductive films and devices, Huawei
headquarters, Shenzhen, Jan 20, 2018.
10 Dr. Chuanfang (John) Zhang
44) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Two-dimensional nanosheets: Scalable production and
rapid fabrication for thin film-based energy storage devices, Lanzhou University, Jan 22, 2018.
45) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Scalable production and rapid fabrication for two-
dimensional MXene nanosheets-based energy storage devices, Xi’an Jiaotong University, Jan 23, 2018
46) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Two-dimensional nanosheets: Scalable production and
rapid fabrication for thin film-based energy storage devices, Huazhong University of Science and
Technology, Jan 24, 2018
47) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Two-dimensional nanosheets: Scalable production and
rapid fabrication for thin film-based energy storage devices, Wuhan University of Science and
Technology, Jan 25, 2018
48) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Two-dimensional nanosheets: Scalable production and
rapid fabrication for thin film-based energy storage devices, Zhejiang University of Technology, Jan 27,
2018
49) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Scalable production and rapid fabrication for MXene-
based energy storage devices, Nanjing Tech University, Jan 29, 2018
50) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Scalable production and rapid fabrication for MXene-
based energy storage devices, Nanjing University of Science and Technologies, Jan 30, 2018
51) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Two-dimensional nanosheets: Scalable production and
rapid fabrication for thin film-based energy storage devices, Dalian chemistry and physics institute,
Chinese Academy of Science, Feb 1, 2018
52) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Two-dimensional nanosheets: Scalable production and
rapid fabrication for thin film-based energy storage devices, Dalian University of Technology, Feb 2,
2018
53) C. Zhang, Y. Gogotsi, J. Coleman, V. Nicolosi, Two-dimensional nanosheets: Scalable production and
rapid fabrication for thin film-based energy storage devices, Jiangxi University of Technology, Feb 6,
2018
54) C. Zhang, Scalable production of thin films and energy storage devices based on MXene inks. 2018
IFAM, Shenyang, Sept 16-19, 2018
55) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
Tianjing University, Sept 22, 2018
56) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
ETH-EMPA, Switzerland, Sept 24, 2018
57) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
Beijing University of Chemical Technology, Sept 27, 2018
58) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
Xi’an University of Technology, Sept 29, 2018
59) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
Northwest University of nationalities, Oct 8, 2018
60) C. Zhang, To Learn, To Dream, To Success. Northwest University of nationalities, Oct 8, 2018
11 Dr. Chuanfang (John) Zhang
61) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
Hunan University, Oct 10, 2018
62) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
CRRC, Zhuzhou, Oct 12, 2018
63) C. Zhang, Thin films and energy storage devices based on high-quality, two-dimensional nanosheets.
Tongji University, Oct 25, 2018
In the media 新闻报道
1. http://xbmuxyl.university-hr.com/xyl_app/showarticle.php?actiontype=3&id=66
2. http://yss.sysu.edu.cn/Item/886.aspx
3. http://www.hbut.edu.cn/contents/18/13791.html
4. http://phys.hust.edu.cn/xsdt/1276.htm
5. http://cly.njtech.edu.cn/view.asp?id=4942&leibie2=152
6. http://hxhg.yzu.edu.cn/art/2015/4/28/art_34117_480360.html
7. http://cms.xbmu.edu.cn/frontContent.action?siteId=49&articleClassId=1289&articleId=33411
8. http://rczyb.njtech.edu.cn/view.asp?id=705&class=210
9. http://www.xbmu.edu.cn/frontContent.action?siteId=12&articleClassId=151&articleId=38476
10. http://en.hbut.edu.cn/index.php?a=shows&catid=40&id=677
11. http://www.envirocentre.ie/News.aspx?ID=79D21E24-862B-4685-A66A-2D7059FB72E2&PID=a257bece-
c1e7-464a-9cd0-fde10d3a18c3&NID=9ec770ac-b069-4cdc-9b94-694e95676e7d&M=2
12. http://carbon.dlut.edu.cn/info/1050/1564.htm
13. http://phy.lzu.edu.cn/lzupage/2018/01/19/N20180119151024.html
14. http://www.wnlo.cn/index.php?id=6135
15. http://www.mse.zjut.edu.cn/ShowNewsPageAction.do?newsID=4518&smallClassID=118&bigClassID=6
16. http://cl.jxust.edu.cn/info/1172/3584.htm
17. http://cly.njtech.edu.cn/jscxzx/view.asp?id=373&class=18
18. https://www.irishtimes.com/sponsored/business-river/the-irish-laboratory-awards-announce-shortlist-
packed-with-vibrant-talent-1.3434920
19. http://www.sztspi.com/archives/144645.html
20. https://www.linkresearcher.com/meetings/2e0e812b-ecfe-4bb4-b7e6-832b63d58c30
21. http://www.materialsviewschina.com/2018/08/29968/
Image gallery 图片集锦
12 Dr. Chuanfang (John) Zhang
ESI highly cited papers and hot papers (ESI全球高被引论文和热点论文)
13 Dr. Chuanfang (John) Zhang
14 Dr. Chuanfang (John) Zhang