发表论文
气体响应材料
30. A Bio-Inspired and Switchable H+/OH+ Ion-Channel for Room Temperature Exhaled CO2 Chemiresistive Sensing
Honghao Chen, Ruofei Lu, Yixun Gao, Xiaorui Yue, Haihong Yang, Hao Li, Yi-Kuen Lee, Paddy J. French, Yao Wang and Guofu Zhou
J. Mater. Chem. A (Impact factor: 11.9), 2023,11, 21959-21971 DOI: 10.1039/D3TA04685K
29. Building porphyrin-based MOFs on MXenes for ppb-level NO sensing
Yanwei Chang, Minyi Chen, Zijing Fu, Ruofei Lu, Yixun Gao, Fengjia Chen, Hao Li, Nicolaas Frans de Rooij, Yi-Kuen Lee, Yao Wang and Guofu Zhou
J. Mater. Chem. A(Impact factor: 14.511), 2023,11, 6966-6977 DOI: 10.1039/D3TA00072A
28. Assembly of Core/Shell Nanospheres of Amorphous Hemin/Acetone-Derived Carbonized Polymer with Graphene Nanosheets for Room-Temperature NO Sensing
Jianqiang Wang, Yixun Gao, Fengjia Chen, Lulu Zhang, Hao Li, Nicolaas Frans de Rooij, Ahmad Umar, Yi-Kuen Lee, Paddy J. French, Bai Yang, Yao Wang*, and Guofu Zhou
ACS Appl. Mater. Interfaces(Impact factor: 10.383) 2022, 14, 47, 53193–53201 DOI: 10.1021/acsami.2c16769
27. A Plant-inspired Light Transducer for High-performance Near-infrared Light Mediated Gas Sensing
Hongping Liang, Xin Guo, Lanpeng Guo, Siying Liu, Qiuqiang Zhan, Haihong Yang, Hao Li, Nicolaas Frans de Rooij, Yi-Kuen Lee, Paddy J. French, Yao Wang, Guofu Zhou
Adv. Funct. Mater(Impact factor: 19.924). 2023, 2215099 DOI: 10.1002/adfm.202215099
26. Assembling Hollow Cactus-like ZnO Nanorods with Dipole-modified Graphene Nanosheets for Practical Room Temperature Formaldehyde Sensing
Huiyun Hu, Hongping Liang, Jincheng Fan, Lanpeng Guo, Hao Li, Nicolaas Frans de Rooij, Ahmad Umar, Hamed Algarni, Yao Wang*, and Guofu Zhou
ACS Appl. Mater. Interfaces(IF= 10.304)2022, 14, 11, 13186–13195
25. Carbon-Iron Electron Transport Channels in Porphyrin-Graphene Complex for ppb-level Room Temperature NO Gas Sensin
Yixun Gao,Jianqiang Wang,Yancong Feng,Nengjie Cao,Hao Li,Nicolaas Frans de Rooij,Ahmad Umar,Paddy J. French,Yao Wang,Guofu Zhou
Small (Impact factor: 13.281) , 2022, 2103259 DOI: 10.1002/smll.202103259
24. Practical room temperature formaldehyde sensing based on a combination of visible-light activation and dipole modification
Hongping Liang, Lanpeng Guo, Nengjie Cao, Huiyun Hu, Hao Li, Nicolaas Frans de Rooij, Ahmad Umar, Hamed Algarni, Yao Wang* and Guofu Zhou
Journal of Materials Chemistry A (Impact factor: 12.732) , 2021,9, 23955-23967
23. A Photovoltaic Self-Powered Gas Sensor Based on All-Dry Transferred MoS2/GaSe Heterojunction for ppb-Level NO2 Sensing at Room Temperature
Yue Niu,* Junwei Zeng, Xiangcheng Liu, Jialong Li, Quan Wang, Hao Li, Nicolaas Frans de Rooij, Yao Wang,* and Guofu Zhou
Adv. Sci. (Impact Factor: 15.840) 2021, 2100472, DOI: 10.1002/advs.202100472
22. All-Dry Transferred ReS2 Nanosheets for Ultrasensitive Room-Temperature NO2 Sensing under Visible Light Illumination
Junwei Zeng, Yue Niu*, Yelei Gong, Quan Wang, Hao Li, Ahmad Umar, Nicolaas Frans de Rooij, Guofu Zhou, and Yao Wang*
ACS Sens(Impact Factor: 7.333). 2020, 5, 10, 3172–3181
21. Synergy of CO2-response and Aggregation Induced Emission in a Small Molecule: Renewable Liquid and Solid CO2 Chemosensors with High Sensitivity and Visibility
Zhijian Mai, Hao Li, Yixun Gao, Yue Niu, Yongrui Li, Nicolaas Frans de Rooij, Ahmad Umar, Mohammad Sultan Al-Assiri, Yao Wang * and Guofu Zhou
Analyst, 2020, doi:10.1039/D0AN00189A.
20.“Mimicking a Dog’s Nose: Scrolling Graphene Nanosheets”
Zhuo Chen, Jinrong Wang, Douxing Pan,Yao Wang,*Richard Noetzel, Hao Li, Peng Xie, Wenle Pei, Ahmad Umar, Lei Jiang*, Nan Li, Nicolaas Frans de Rooij, Guofu Zhou*,
ACS Nano, (Impact Factor: 13.942), 2018, 12, 3, 2521–2530, DOI: 10.1021/acsnano.7b08294
19.“Dipole-Modified Graphene with Ultrahigh Gas Sensibility”
Ruokun Jia, Peng Xie, Yancong Feng, Zhuo Chen, Ahmad Umar,Yao Wang,*
Applied Surface Science(Impact Factor: 3.387) ,2018, 440, 409-414.
18.“Enhancement of Charge Transfer between Graphene and Donor-π-Acceptor Molecule for Ultrahigh Sensing Performance”.
Wenle Pei, Tingting Zhang,Yao Wang,*Zhuo Chen, Ahmad Umar, Hao Li, Wei Guo*
Nanoscale(Impact factor: 7.367), 2017, 9, 16273.
17.“One-Step Fabrication of Pyranine Modified- Reduced Graphene Oxide with Ultrafast and Ultrahigh Humidity Response”
Zhuo Chen,Yao Wang,*Ying Shang, Ahmad Umar, Peng Xie, Qi Qi, Guofu Zhou*
Scientific Reports(Impact factor: 4.259),2017, 7: 2731.
16."Three- Dimensional Crumpled Graphene-Based Nanosheets with Ultrahigh NO2 Gas Sensibility"
Zhuo Chen, Jinrong Wang, Ahmad Umar,Yao Wang*,Hao Li, Guofu Zhou*
ACS Appl. Mater.Interfaces (Impact factor: 7.504),2017, 9 (13), 11819-11827.
15."Probe Into the Influence of Crosslinking on CO2 Permeation of Membranes "
Jinghui Li, Zhuo Chen, Ahmad Umar, Yang Liu, Ying Shang, Xiaokai Zhang,Yao Wang*
Scientific Reports(Impact factor: 4.259),2017, 7:40082.
14."Application of CO2-Favored Organic Units in CO2 Separation Membranes"
Ruokun Jia, Juncan Jin, Songzhu Lin,Yao Wang*
Curr. Org. Chem.,(Impact factor: 2.075),2016, 20, 1-10.
13."Application of Crosslinking in Gas Separation Membranes"
Jinghui Li,Yao Wang*
Sci. Adv. Mater(Impact factor: 1.671),2016, 8 (6), 1155-1164.
12."Insight into calcification of Synechocystis sp.enhanced by extracellular carbonic anhydrase"
Zhen-Ni Yang, Xiao-Min Li,* Ahmad Umar, Wen-Hong Fan,Yao Wang*
RSC Adv.(Impact factor: 3.108),2016, 6, 29811–29817.
11.“Mimicking how Plants Control CO2 Influx: CO2 Activation of Ion Current Rectification in Nanochannels”
Yanglei Xu, Minghui Zhang, Tong Tian, Ying Shang, Zheyi Meng, Jiaqiao Jiang, Jin Zhai*,Yao Wang*
NPG Asia Materials(Impact factor: 9.157),2015, 7, (9), e215.
10.“Supramolecular Fabrication of Multilevel Graphene-based Gas Sensors with High NO2 Sensibility”
Zhuo Chen, Ahmad Umar, Shiwei Wang,Yao Wang,*Tong Tian, Ying Shang, Yuzun Fan, Qi Qi, Dongmei Xu, Lei Jiang
Nanoscale(Impact factor: 7.367),2015, 7, 10259-10266.
15.“Supramolecularly Modified Graphene for Ultrafast Responsive and Highly Stable Humidity Sensor”
Shiwei Wang, Zhuo Chen, Ahmad Umar,Yao Wang,*Tong Tian, Ying Shang, Yuzun Fan, Qi Qi, Dongmei Xu.
J. Phys. Chem. C(Impact factor: 4.536 ),2015, 119, 28640-28647.
9.“Supramolecular Fabrication of Polyelectrolyte-Modified Reduced Graphene Oxide for NO2 Sensing Applications”
Xueyan Li, Ahmad Umar, Zhuo Chen, Tong Tian, Shiwei Wang,Yao Wang*
Ceramics International(Impact factor: 2.986 ),2015, 41, 12130–12136.
8.“Research Progress of Intelligent CO2-Responsive Materials, 新型CO2智能响应材料的研究进展”(综述)
Tong Tian, Jinghui Li,Yao Wang*
Chem. J. Chinese Universities(Impact factor: 0.677),2015, 36(3), 399-410.
7.“Fabrication of CO2 Facilitated Transport Channels in Block Copolymer through Supramolecular Assembly”
Yao Wang *,Ying Shang, Xianwu Li, Tong Tian, Longcheng Gao, Lei Jiang
Polymers(Impact factor: 3.364),2014, 6, 1403-1413.
6."Amidine-based Fluorescent Chemosensor with High Applicability for Detection of CO2: A Facile Way to 'See' CO2"
Tong Tian, Xi Chen, Hong Li,Yao Wang,*Lin Guo*, Lei Jiang.
Analyst, (Highlighted by ACS "Noteworthy Chemistry", Analyst 2013 TOP 25 most read paper)(Impact factor: 3.885),2013, 138 (4), 991-994.
5. "A Supramolecular Approach to Probing the Influence of Micro-Phase Structure on Gas Permeability of Block Copolymer Membranes"
Xianwu Li, Tong Tian, Melvina Leolukman,Yao Wang,*Lei Jiang*
Sci. Adv. Mater(Impact factor: 1.671),2013, 5, 719-726.
4.“Research Progress of Preparation Methods of CO2-Favored Permeation Membranes (CO2选择性透过膜材料的制备)”
Xi Chen,Yao Wang*,Lei Jiang.
Chem. J. Chinese Universities(Impact factor: 0.677),2013, 34 (2): 249-268.
3. “High flux CO2 transporting nanochannel fabricated by the self-assembly of a linear-brush block copolymer”
Baolong Xue, Baolong Xue, Longcheng Gao,* Heming Jiang, Zhi Geng, Song Guan,Yao Wang,Zhiwen Liu, Lei Jiang*.
J. Mater. Chem. A(Impact factor: 0.677),2013, 1, 8097–8100.
2.“High flux CO2 transporting nanochannel fabricated by the self-assembly of a linear-brush block copolymer”
Baolong Xue, Baolong Xue, Longcheng Gao,* Heming Jiang, Zhi Geng, Song Guan,Yao Wang,Zhiwen Liu, Lei Jiang*.
J. Mater. Chem. A,(Impact factor: 8.867), 2013, 1, 8097–8100.
1.“CO2-selective Free-standing Membrane by Self-assembly of a UV-crosslinkable Diblock Copolymer”
Baolong Xue, Xianwu Li, Longcheng Gao*, Min Gao,Yao Wang*,Lei Jiang.
J. Mater. Chem. 2012, 22, 10918-10923.
电响应材料
7. Nematic Order, Plasmonic Switching and Self-Patterning of Colloidal Gold Bipyramids
Zhijian Mai, Ye Yuan, Jung-Shen B. Tai, Bohdan Senyuk, Bing Liu, Hao Li, Yao Wang,* Guofu Zhou,* and Ivan I. Smalyukh*
Adv. Sci. 2021, 2102854
6. Configuration-controllable Polymeric Nanovehicles Self-assembled in Pixel Grids under Electric Field
Xin Mu, Jiaxin Hou, Yancong Feng, Biao Tang, Lingling Shui, Yao Wang, Hao Li * and Guofu Zhou
ACS Appl. Mater. Interfaces 2020, 12, 3, 4052-4060
5. Protonation-induced molecular permeation at the oil/water interface in an electric field†
Shenglong Gan, Longbin Chen,Yancong Feng, Yong Deng, Rui Zhou,Yingying Dou, Biao Tang, Lingling Shui, Yao Wang, Hao Li * and Guofu Zhou
Phys.Chem.Chem.Phys.2018, 20, 29012
4.“The Effect of the Electric-field on the Phase Separation of Semiconductor-insulator Composite Film”
Shiwei Wang*, Zhuo Chen andYao Wang*.
Chem. Commun.(Impact factor: 6.319),2015, 51, 765-767.
3. Electric-field Induced Layer-by-layer Assembly Technique with Single Component for Construction of Conjugated Polymer Films
Shiwei Wang, Zhuo Chen, Ahmad Umar,Yao Wang*,Peng-gang Ying .
RSC Adv.(Impact factor: 3.108),2015, 5, 58499–58503.
2.“Effects of Ratio of Electron Donor/Acceptor Moieties on Photophysical, Electronic and Photovoltaic Properties of Donor-π-Acceptor Functionalized Materials”
Xiaobo Sun, Wenjing Tian,Yao Wang*and Lin Guo* .
Sci. Adv. Mater,(Impact factor: 1.671),2015, 7, 50–56.
1. “Hollow Zn2GeO4 Nanorods Supported on Reduced Graphene Oxides as an Environment-Friendly High-Capacity Anode Material for Lithium Ion Batteries”
Yang Li,Yao Wang,and Yu Zhang*
Sci. Adv. Mater.(Impact factor: 1.671),2013, 5, 523-529.
自组装功能高分子
1. Nano-sized Ultrasound Contrast Agents for Cancer Therapy and Theranostics.
Hao Li1,†, Shenglong Gan1,†, Shi-Ting Feng2,†, Guofu Zhou1, Zhi Dong2, Rongqin Zheng3,* and Zi-Ping Li2,*
Current Pharmaceutical Design(Impact factor: 3.052) 2017;23(35):5403-5412.
2.Continuous fabrication of microcapsules with controllable metal covered nanoparticle arrays using droplet microfluidics for localized surface plasmon resonance.
Juan Wang, Mingliang Jin, Yingxin Gong,Hao Li,Sujuan Wu, Zhang Zhang, Guofu Zhou, Lingling Shui#, Jan C. T. Eijkelbc, Albert van den Berg
Lab on a Chip(Impact Factor: 6.045),2017, 17(11), 1970-1979
3. Perfluorooctyl bromide traces self-assembled with polymeric nanovesicles for blood pool ultrasound imaging.
Li H,Wang P, Wang X, et al.
Biomaterials Science(Impact factor: 4.210),2016, 4, 979 –988.
4. Molecular targeting magnetic resonance imaging of human colorectal carcinoma (LoVo) with novel superparamagnetic iron oxide loaded nanovesicles: in vitro and in vivo studies.
Shiting Feng,Hao Li,Yanjing Guo, Huasong Cai, Zhi Dong, Zhuangnian Fan, Xintao Shuai, Ziping Li.
Current Cancer Drug Targets(Impact Factor: 2.992),2016, 16(6), 551-560.
5.Dual-Ligand Modified Polymer-Lipid Hybrid Nanoparticles for Docetaxel Targeting Delivery to Her2/neu Overexpressed Human Breast Cancer Cells.
Yang Z , Tang W , Luo X , Zhang X , Zhang C ,Li H ,Gao D , Luo H , Jiang Q , Liu J .
Journal of Biomedical Nanotechnology(Impact factor: 4.521),2015, 11, 1401-1417. (Citations: 3)
6.Self-assembled UCST-type micelles as potential drug carriers for cancer therapeutics.
Gang Huang ,Hao Li ,Shi-Ting Feng , Xiaoqiong Li , Guoquan Tong , Jie Liu , Changyun Quan , Qing Jiang , Chao Zhang , * Ziping Li* .
Macromolecular Chemistry and Physics(Impact factor: 2.500).2015, 216(9), 1014-1023. (Citations: 6)
. Regulated pH-Responsive Polymeric Micelles for Doxorubicin Delivery to the Nucleus of Liver Cancer Cells.
Hao Li,Xian Li, Chao Zhang, Qiquan Sun, Wei Yi, Xuan Wang, Du Cheng, Biling Liang.
Journal of Biomedical Nanotechnology(Impact factor: 4.521),2014. 2016, 12(6), 1258-1269.
11. Phase-transition contrast nanocapsules triggered by low-intensity ultrasound.
Li Hao,Wang Jianhao, Wang Ping, Zheng Jian, Song Fangfang, Yin Tinghui, Zhou Guofu,Zheng Rongqing,Zhang Chao.
Chem. Comm.(Impact factor: 6.319),2014, 50, 15163-15166. (Citations: 2).
10. Preparation and characterization of poly(γ-glutamic acid) hydrogel as potential tissue engineering scaffold.
Wen Zeng ,Weikang Hu ,Hao Li ,Yihan Jing , Hua Kang ·,Qing Jiang, Chao Zhang.
Chinese Journal of Polymer Science(Impact factor: 1.692),2014, 32(11), 1507-1514. (Citations: 1)
9. Micelles of enzymatically synthesized PEG-poly (amine-co-ester) blockcopolymers as pH-responsive nanocarriers for docetaxel delivery.
Xiaofang Zhang, Bo Liu ,Zhe Yang ,Chao Zhang,Hao Li ,Xingen Luo ,Huiyan Luo ,Di Gao ,Qing Ji.
Colloids and Surfaces B: Biointerfaces(Impact factor: 3.887),2014, 115, 349-358 (Citations: 8).
8. Shuai Magnetic Resonance Imaging-Visible and pH-Sensitive Polymeric Micelles for Tumor Targeted Drug Delivery.
Zhirong Zhang ,Qiquan Sun ,J Zhong, Q Yang,H Li,C Du, Biling Liang , Xintao.
Journal of Biomedical Nanotechnology(Impact factor: 4.521),2014, 10(2), 216-226. (Citations: 9).
7. Acid-triggered core-crosslinked nanomicelle for targeted drug delivery and magnetic resonance imaging of liver cancer cells.
X F Li,Hao Li ,Wei Yi ,Jianyu Chen ,Biling Liang.
International Journal of Nanomedicine(Impact factor: 4.300),2013, 8, 3019-3031. (Citations: 13).
6. Multifunctionalized Microbubbles for Cancer Diagnosis and Therapy
Hao Li ,Jianhao Wang ,Gang Huang , Ping Wang , Rongqin Zheng , Chao Zhang , Qing Jiang.
Anti-Cancer Agents in Medicinal Chemistry(Impact factor: 2.876),2013. 13, 403-413. (Citations: 2).
5. Synthesis and characterization of polycation block copolymer Poly(l-lysine)-b-poly[N-(N′,N′-diisopropyl-aminoethyl)aspartamide] as potential pH responsive gene delivery system
Guo C, Chen W, Lin S,Li H.,Cheng D, Wang X, Shuai X.
Polymer (Impact factor: 3.684),2012, 53 (2), 342–349. (Citations: 11).
4. A pH-sensitive polymeric nanovesicle based on biodegradable poly(ethylene glycol)-b-poly(2-(diisopropylamino)ethyl aspartate) as a MRI-visible drug delivery system
Qiquan Sun ,Du Cheng ,Xingsu Yu, Zuoquan Zhang, Jian S Dai ,Hao Li,Biling Liang, Xintao Shuai.
Journal of Materials Chemistry(Impact factor: 5.265),2011, 21(39), 15316-15326. (Citations: 29).
3. Kinetic Investigation into the Non-Thermal Microwave Effect on the Ring-Opening Polymerization of ε-Caprolactone
Hao Li ,Liqiong Liao , Lijian Liu .
Macromolecular Rapid Communication(Impact Factor: 4.262),2007, 28, 411-416 (Citations: 35).
2. Flash-Heating-Enhanced Ring--Opening Polymerizations of ε-Caprolactone under Conventional Conditions
Hao Li ,Liqiong Liao, Qingrong Wang, Lijian Liu.
Macromolecular Chemistry and Physics(Impact Factor: 2.500),2006, 207(19), 1789-1793. (Citations: 8).
1. Carbene polymerization: characterization of poly(carballyloxycarbene)+
Lijian Liu, Ying Song,Hao Li.
Polymer International(Impact Factor: 2.070),2002, 51, 1047-1049. (Citations: 45).
计算模拟
15. Where is the best substitution position for amino groups on carbon dots: a computational strategy toward long-wavelength red emission
Nengjie Cao, Quan Wang, Xianggui Zhou, Yixun Gao, Yancong Feng*, Hao Li, Pengfei Bai, Yao Wang* and Guofu Zhou
Journal of Materials Chemistry C (Impact factor: 7.393), 2021,9, 14444-14452
14. Construction of particle network for ultrahigh permittivity of dielectric polymer composite toward energy devices: A molecular dynamics study
Yancong Feng, Peiyin Liang, BiaoTang, Yao Wang, Jun Liu*, Lingling Shui, Hao Li*, Ming Tian, Liqun Zhang, Guofu Zhou*
Nano Energy,(Impact factor: 12.343),2019, 64, 103985.
13. Insight into Fast Ion Migration Kinetics of A New Hybrid Single Li-Ion Conductor Based on Aluminate Complexes for Solid State Li-Ions Battery
Yancong Feng, Rui Tan, Yan Zhao, Rongtan Gao, Luyi Yang, Jinlong Yang,Hao Li, Guofu Zhou, Haibiao Chen, Feng Pan#
Nanoscale(Impact Factor: 7.367), 2018, (DOI: 10.1039/C8NR00573G)
12. Nanocrystals generated under tensile stress in metallic glasses with phase selectivity.
Yancong Feng,Wei-Bing Liao, Jiaxin Zheng, Lin-Wang Wang*, Yong Zhang*, Jianfei Sun and Feng Pan*
Nanoscale, 2017, 9, 15542–15549. (IF=7.367)
11. Flexible Composite Solid Electrolyte Facilitating Highly Stable “Soft Contacting” Li-Electrolyte Interface for Solid State Lithium Ion Batteries
Luyi Yang, Zijian Wang,Yancong Feng,Rui Tan, Yunxing Zuo, Rongtan Gao, Yan Zhao, Lei Han, Ziqi Wang and Feng Pan*.
Advanced Energy Materials,(Impact factor: 16.721),2017, 1701437.
10. 2D hetero-nanosheets to enable ultralow thermal conductivity by all scale phonon scattering for highly thermoelectric performance
Shuankui Li, Chao Xin, Xuerui Liu,Yancong Feng,Yidong Liu, Jiaxin Zheng, Fusheng Liu, Qingzhen Huang, Yiming Qiu, Jiaqing He, Jun Luo and Feng Pan*.
Nano Energy,(Impact factor: 12.343),2016, 30, 780–789.
9. Band alignment for rectification and tunneling effects in Al2O3 atomic-layer-deposited on back contact for CdTe solar cell
Yantao Su, Chao Xin,Yancong Feng, Qinxian Lin, Xinwei Wang, Jun Liang, Jiaxin Zheng, Yuan Lin, and Feng Pan*.
ACS Applied Materials & Interfaces,(Impact factor:7.504),2016, 8 (41), 28143–28148.
8. Phase separation of comb polymer nanocomposite melts.
Qinzhi Xu*,Yancong Feng,Lan Chen*
Soft Matter, 2016, 12, 1385–1400. (Cover paper) (IF=3.889)
7. Few-layer Fe3(PO4)2·8H2O: Novel H-bonded 2D-material and its abnormal electronic properties
Sibai Li, Ruge Quhe, Mouyi Weng,Yancong Feng,Yunxing Zuo, Weiji Xiao, Jiaxin Zheng*, Jing Lu, and Feng Pan*.
Journal of Physical Chemistry C,(Impact factor: 4.536),2016, 120 (46), 26278–26283.
6. 2D amorphous iron phosphate nanosheets with high rate capability and ultra-long cycle life for sodium ion batteries
Tongchao Liu, Yandong Duan, Guangxing Zhang, Maofan Li,Yancong Feng,Jiangtao Hu, Jiaxin Zheng, Jitao Chen and Feng Pan*
Journal of Materials Chemistry A,(Impact factor: 8.867), 2016, 4, 4479–4484.
5. Formation of mono/bi-layer iron phosphate and nucleation of LiFePO4 nano-crystals from amorphous 2D sheets in charge/discharge process for cathode in high-performance Li-ion batteries.
Tongchao Liu#,Yancong Feng# (contributing equally with the first author),Yandong Duan, Suihan Cui, Lingpiao Lin, Jiangtao Hu, Hua Guo, Zengqing Zhuo, Jiaxin Zheng, Yuan Lin, Wanli Yang, Khalil Amine and Feng Pan*
Nano Energy,(Impact factor: 12.343),2015, 18, 187–195.
4. Role of block copolymer morphology on particle percolation of polymer nanocomposites
Yancong Feng,Nanying Ning, Qiangli Zhao, Jun Liu, Liqun Zhang, Ming Tian* and Jianguo Mi*.
Soft Matter(Impact factor: 3.889)2014, 10, 8236–8244.
3. Towards optimization of electrical network and mechanical properties of polymer nanocomposites with grafted nanoparticles
Yancong Feng,Nanying Ning, Zhaoyang Wei, Liqun Zhang, Ming Tian*, Hua Zou, and Jianguo Mi*.
Polymer,(Impact factor: 3.364),2014, 55 (14), 3178–3185.
2.Evolution of conductive network and properties of nanorod∕polymer composite under tensile strain,
Yancong Feng,Nanying Ning, Liqun Zhang, Ming Tian*, Hua Zou
Journal of Chemical Physics,(Impact factor: 2.965),2013, 139, 024903.
1. Relationship between dispersion and conductivity of polymer nanocomposites: A molecular dynamics study
Yancong Feng,Hua Zou, Ming Tian*, Liqun Zhang, and Jianguo Mi*.
Journal of Physical Chemistry B,(Impact factor: 3.177),2012, 116 (43), 13081–13088.
其它
11. Carbon Dots Embedded in Cellulose Film: Programmable, Performance-Tunable, and Large-Scale Subtle Fluorescent Patterning by in Situ Laser Writing
Yuanyuan Guo, Quan Wang, Hao Li, Yixun Gao, Xuezhu Xu, Biao Tang, Yao Wang*, Bai Yang, Yi-Kuen Lee, Paddy J. French, and Guofu Zhou
ACS Nano (IF= 15.881), 2022, DOI:10.1021/acsnano.1c09999
10. In Situ Construction of the Coral-like Polyaniline on the Aligned Silicon Nanowire Arrays for Silicon Substrate On-chip Supercapacitors
Hui Liu, Na Chen, Ahmad Umar, Hao Li, Shixiao Li, Pengfei Bai, Nicolaas Frans deRooij, Yao Wang*, and Guofu Zhou
ACS Appl. Energy Mater (Impact Factor: 4.473). 2020, 3, 12, 11792–11802
9. S, N-codoped Oil-soluble Fluorescent Carbon Dots for High Color-rendering WLED
Quan Wang, Yixun Gao, Boyang Wang, Yuanyuan Guo, Umar Ahmad, Yanqing Wang, Yao Wang*, Siyu Lu*, Hao Li*, Guofu Zhou
J. Mater. Chem. C, 2020, doi:10.1039/D0TC00016G (Back Cover)
8. Building a smart surface with converse temperature-dependent wettability based on poly(acrylamide-co-acrylonitrile)
Longbin Chen, Tao Yang, Yue Niu, Xin Mu, Yelei Gong, Yancong Feng, Nicolaas Frans de Rooij, Yao Wang, * Hao Li *, Guofu Zhou
Chem. Commun., 2020, 56, 2837-2840. (Back Cover)
7. Quartz Microcrystal-Hybridized Organosilicone Encapsulant with Enhanced Optical and Thermal Performances,
Xin Chen#, Yancong Feng#, Xiao Wang, En Li, Yao Wang, Lingling Shui,Hao Li*, Nan Li, Guofu Zhou#,
Polymers(Impact Factor: 3.364), 2018, 10, 84
6. Electrowetting Performances of Novel Fluorinated Polymer Dielectric Layer Based on Poly(1H,1H,2H,2Hperfluoroctylmethacrylate) Nanoemulsion,
Jiaxin Hou*, Wenwen Ding*,Yancong Feng,Lingling Shui, Yao Wang, Hao Li#, Nan Li, Guofu Zhou#,
Polymers(Impact Factor: 3.364),2017, 9, 217.
5.“Ce-doped ZnO nanoparticles for efficient photocatalytic degradation of direct red-23 dye”,
R. Kumar, Ahmad Umar*, G.Kumar, M.S.Akhtar,Yao Wang,S.H.Kim,
Ceram. Int,(Impact factor: 2.986),2015, 41, 7773–7782.
4.“Topotactic preparation of textured alumina ceramics from dehydroxylation of gibbsite films”
Seif-Eddine Louaer,Yao Wang*,Lin Guo*,
Mater. Chem. Phys.,(Impact factor: 1.767),2014, 148, 1-4.
3.“Fast Synthesis and Size Control of Gibbsite Nanoplatelets, Their Pseudomorphic Dehydroxylation, and Efficient Dye Adsorption”
Seifeddine Louaer,Yao Wang,*Lin Guo*,
ACS Appl. 2013, 5 (19), 9648–9655.Mater.Interfaces.
2.“Ethanol Sensor of CdO/Al2O3/CeO2 Obtained From Ce-Doped Layered Double Hydroxides with High Response and Selectivity”
Dongmei Xu, Meiyu Guan, Qinghong Xu, Ying Guo*,Yao Wang
Functional Materials Letters,(Impact factor: 1.234),2013, 6(3), 1350035(4 pages)
1.Yield strength of glued Langmuir–Blodgett films determined by friction force microscopy,
Kyle C. Wagner,Yao Wang,Steven L. Regen, Dmitri V. Vezenov*,
Phys. Chem. Chem. Phys.,(Impact factor: 4.123),2013, 15(33): 14037-14046.
邮编: 510006
电话: 020-39314813
邮箱: 王耀老师:wangyao@m.scnu.edu.cn
李皓老师:haoli@scnu.edu.cn
地址: 广州大学城华南师范大学理五栋 (大学城西五路)