劉敬權,男,博士,教授,博士生導師,泰山學者海外特聘專家,現任臨沂大學材料科學與工程學院院長。澳大利亞新南威爾斯大學物理化學專業獲理學博士學位。發表SCI論文280餘篇、申請發明專利40餘項、出版著作章節6部、主持國家、省、市等項目20餘項。2013年榮獲青島市特聘專家突出貢獻獎;2014年入選青島市第一批創新領軍人才;2016年榮獲臨沂市沂蒙友誼獎; 2017年榮獲齊魯友誼獎。2013年合作創辦了青島華高墨烯科技股份有限公司。
基本介紹
研究方向,社會兼職,科研項目,產業化項目,獲獎情況,科研論文,出版專著,
研究方向
(1)石墨烯材料
(2)功能高分子材料
(3)儲能材料等
社會兼職
中國石墨烯創新聯盟 理事
山東石墨烯創新聯盟 理事
青島市無機非金屬材料協會 理事
沂水縣人民政府 科技顧問
中國化學協會 會員
美國化學學會 會員
澳大利亞化學學會 會員
科研項目
1 第一層次特聘教授科研啟動經費 青島大學 1 200 2010-2015
3 用物理和化學方法製備石墨烯/高分子納米複合材料及其導電性的研究 國家自然科學基金委 1 56 2012-2015
4 用石墨烯納米材料製備高儲能的鋰離子充電電池負極材料 山東省科技廳 1 8 2011.07-2014.07
5 用石墨烯製備高儲能高效率的鋰電池電極材料 山東省人力資源與社會保障廳 1 20 2011-2011
6 用石墨烯製備高儲能、高效率的鋰離子電池負極材料 青島市科技廳 1 10 2012.01-2014.09
7 青島市石墨材料聯合創新平台培育計畫 青島市科技廳 1 35 2013-2016
10 石墨烯及相關新材料的研發和規模化生產 山東新華錦集團 1 60 2012.05-2015.04
9 丙烯醛生產所產生的丙烯酸廢液的再利用 淄博市興魯化工有限公司 1 30 2012.07-2015.06
10 單片石墨烯的產業化及其相關產品的研發 山東華高礦業有限公司 1 30 2013.05.01-2016.04.30
11 一種基於金屬粒子螢光增強效應和溫敏可控高分子的納米螢光開關 國家教育部科技發展中心博士點基金 1
12 2014.01.01-201612.31 12 創新領軍人才 青島市 1 200 2014.10-2017.10
13 高端外國專家項目 國家外國專家局 8*3 2014-2016
14 石墨烯在鉛酸蓄電池等儲能材料中的套用 長沙豐日集團 1 30 2015.05-2018.05
發明專利
申請日 | 專利名稱 | 申請號 |
2016.03.16 | 一種複合吸波材料的製備方法 | 201610147836.3 |
2016.03.16 | 一種基於RAFT聚合法提高7,8-二羥基黃酮水溶性的方法 | 201610147209.X |
2016.03.16 | 一種孔徑可控定向熱解石墨電極製備方法 | 201610147702.1 |
2016.03.16 | 一種用於不鏽鋼表面的石墨烯塗層製備方法 | 201610148083.8 |
2015.12.10 | 一種固態碳量子點的製備方法 | 201510903400.8 |
2015.10.1 | 一種利用自組裝石墨烯高靈敏檢測蛋白質分子的方法 | CN201510700005.X |
2015.10.1 | 一種採用電化學實時監測溶液中共價鍵形成的方法 | CN201510700028 |
2015.05.12 | 一種石墨烯薄膜無損轉移方法; | CN201510237214 |
2015.04.24 | 一種氧化石墨烯/水溶性聚氨酯複合材料的製備方法; | CN201510202746 |
2015.03.16 | 一種含石墨烯的超高分子量聚乙烯無緯布及其製備方法; | CN201510115154 |
2015.02.05 | 一種基於晶片上碳印刷電極製備碳量子點的方法; | CN201510059661 |
2015.01.16 | 石墨烯模型;(已授權) | CN201530012963 |
2015.01.15 | 一種金屬表面石墨烯/聚吡咯防護複合薄膜的製備方法; | CN201510019390 |
2014.12.17 | 一種無銦透明電極及其製備方法; | CN201410789348 |
2014.12.17 | 一種低銦透明電極及其製備方法; | CN201410783806 |
2014.01.10 | 利用磁控濺射技術製備石墨烯量子點;(已授權) | CN201310518141 |
2014.01.03 | 一種利用聚異丙基丙烯醯胺調節葡萄糖氧化酶活性的方法; | 201410012551.X |
2014.01.02 | 一種利用石墨烯組裝多層生物酶感測器提高檢測性能的新方法; | 201410000397.4 |
2013.12.26 | 一種利用二氧化鈦對活性染料染色織物皂洗的方法;(已授權) | CN201310755256 |
2013.10.29 | 一種電導率可控石墨烯導電紙的製備; | CN201310518095 |
2013.03.06 | 一種活性染料染色廢水脫色方法; | CN201310078136 |
2013.03.06 | 一種利用纖維素酶提高氧漂過程雙氧水穩定性的方法; | CN201310078147 |
2012.05.25 | 一種提高纖維素酶在純棉織物上吸附量的方法;(已授權) | CN201210057181 |
2012.05.25 | 一種利用生物相容的高分子修飾葡萄糖氧化酶表面以提高其壽命和穩定性的新方法; | CN201210173615 |
2012.02.28 | 純棉針織物練漂、塗料染色一浴加工方法;(已授權) | CN201210057208 |
2011.12.21 | 一種綠色環保、低缺陷、大尺寸石墨烯的製備方法;(已授權) | CN201110442168 |
2011.12.21 | 一種溫敏可控的石墨烯-高分子複合材料的製備方法; | CN201110442170 |
2011.09.26 | 一種利用纖維素酶促進塗料染色的方法;(已授權) | CN201110293788 |
產業化項目
項目一:與新華錦集團聯合成立了石墨烯新材料新技術研發中心
石墨烯具有巨大的比表面積和優良的導電性,在動力鋰電池、超級電容器、鹼性電池等各類高性能儲能材料具有廣闊的套用前景,將會革命性的提高儲能器件儲電能力、大大縮短充電時間等關鍵技術指標,使電能的套用進入全新的時代。另外,石墨烯還可廣泛用於光伏發電、超級計算機晶片、透明觸控螢幕、甚至是太陽能電池、導電油墨等領域。候選人發明的一種生產高質量石墨烯的新方法被山東新華錦集團所採用,正在進行中試生產。
項目二:淄博丙烯酸廢液的回收與利用
淄博市興魯化工有限公司是一家生產丙烯醛的民營企業,生產過程中所產生的5000噸丙烯酸(7-8%)廢液的再利用是個非常棘手的難題,每年的處理費用達到400萬元。本人利用多年來在國外掌握的自由基聚合技術,將該丙烯酸廢液直接聚合成聚丙烯酸,直接用於污水處理、阻聚劑等。該項目將會為該企業創造1000萬的經濟效益。噸級的中試已經成功,產品已經開始銷售。
項目三:合作成立了華高能源科技有限公司
2012年12月合作創立青島華高墨烯科技股份有限公司,擔任技術總監。公司於2016年1月26日在新三板成功掛牌上市(股票代碼:835672)。公司主要研發和生產石墨烯,並將石墨烯用於散熱膜、動力電池、潤滑油、防彈材料、防腐塗料和海水淡化等多個領域。代表公司參加中國石墨烯創新創業大賽,榮獲青島賽區第一名(共130家企業),全國總決賽第二名(160家進入總決賽)。
項目四:與豐日電氣基團股份有限公司合作研發石墨烯在動力電池相關領域的套用和產業化套用。
項目五:2016年三月合作成立臨沂博立特新材料有限公司,擔任董事長,公司現已掛牌銷售,主要生產和經營各種各樣的分子量可控、分子量分布窄的精細高分子,廣泛用於標準樣品、化妝品、電子器件、生物醫藥等領域。該系列產品主要被加拿大的Polyscience所壟斷,產品附加值高、利潤豐厚,填補了國內空白。
項目六:2017年3月與淄川合作成立了青島大學淄川精細高分子研發中心,擔任主任,淄川區投資100萬元,用於精細高分子的研發和產業化。
獲獎情況
2014年,獲批青島市第一批創新領軍人才
2013年,青島市特聘專家突出貢獻獎
2013年,青島大學優秀碩士研究生導師
2000年,新南威爾斯大學化學系學術報告獎(Seminar Prize at School of Chemistry, UNSW)
2007年,新南威爾斯大學校長特聘研究員(UNSWVice-Chancellor’s Research Fellow)
2008年,新南威爾斯大學年輕學者基金(UNSW Early Career Researcher Grant)
課題組共有11名研究生獲得國家獎學金,5名研究生獲澳大利亞博士全額獎學金,1名研究生獲韓國博士全額獎學金,2名研究生獲得光華獎學金
科研論文
2017年
1. DegangJiang, Huihui Zhu, Wenrong Yang, Liang Cui, Jingquan Liu*, One-side non-covalent modification of CVDgraphene sheet using pyrene-terminated PNIPAAm generated via RAFTpolymerization for the fabrication of thermo-responsive actuators, Sensors and Actuators B: Chemical, 2017, 239, 193-202. (IF=4.758)
2. Wen LingZhang*, Degang Jiang, Xiaoxia Wang, Bo Nan Hao, Ying Dan Liu, and JingquanLiu*,Growth of Polyaniline Nanoneedles onMoS2 Nanosheets, Tunable Electroresponse, and Electromagnetic WaveAttenuation Analysis, Journal of PhysicalChemistry C, 2017,121, 4989-4998. (IF=4.509)
3. ShuangWei, Xiaoxia Wang*, Baoqin Zhang, Mingxun Yu, Yiwei Zheng, Yao Wang, JingquanLiu*, Preparation of Hierarchical Core-ShellC@NiCo2O4@Fe3O4 Composites for Enhanced Microwave AbsorptionPerformance, Chemical EngineeringJournal, 2017, 314, 477-487. (IF=5.310)
4. GengfangXu, Yuanhong Xu,* Aihua Li, Tao Chen, Jingquan Liu*, Enzymatic bioactivity investigation ofglucose oxidase modified with hydrophilic or hydrophobic polymers via in situRAFT polymerization,Journal of PolymerScience, Part A: Polymer Chemistry, 2017, 55, 1289–1293. (IF=3.114)
5. YiweiZheng, Xiaoxia Wang, Shuang Wei, Baoqin Zhang, Mingxun Yu, Wei Zhao, JingquanLiu*, Fabrication of porousgraphene-Fe3O4 hybrid composites with outstanding microwave absorptionperformance. Composites Part A: Applied Science andManufacturing, 2017, 95, 237-247.(IF=3.719)
6. Yao Wang,Xiaoxia Wang, Yuanhong Xu*, Chen Tao, Mengli Liu, Fushuang Niu, Shang Wei,JingquanLiu*, Simultaneous Synthesis ofWO3-x Quantum Dots and Bundle-Like Nanowires Using One-Pot Template-FreeSolvothermal Strategy and their Versatile Applications, Small,2017,DOI: 10.1002/smll.201603689.(IF=8.314)
7. HuihuiZhu, Ao Liu, Fukai Shan*, Wenrong Yang, Colin Barrow, and JingquanLiu*, Direct Transfer of Graphene and Applicationin Low-Voltage Hybrid Transistors, RSCAdvances, 2017, 7, 2172-2179.(IF=3.289)
8. HuihuiZhu, Ao Liu, Da Li, Yongcheng Zhang, Xiaoxia Wang, Wenrong Yang, J. JustinGooding and Jingquan Liu*, Wafer-scale fabrication of a Cu/graphenedouble-nanocap array for surface-enhanced Raman scattering substrates, Chemical Communication, 2017, DOI:10.1039/C6CC09642E. (IF=6.567)
9. L. Cui, D.Liu, S. Hao, Y. Ma, G. Du, J. Liu,* A. M. Asirie, X. Sun, In situ electrochemicalsurface derivation of cobalt phosphate from Co(CO3)0.5(OH)0.11H2O nanoarray forefficient water oxidation in neutral aqueous solution. Nanoscale. 2017, DOI: 10.1039/C6NR09585B. (IF=7.76)
10. L.Cui, J.Liu,* Y. Ma, G. Du, A. M. Asiri, X. Sun*,Interconnected network of shell-core Co-Bi-Pi@CoP for efficient water oxidationelectrocatalysis under near neutral conditions. ChemSusChem. 2017, DOI:10.1002/cssc.201700113.(IF=7.116)
11. F. Niu,Y. Xu*, Z. Song, M. Liu, J. Liu*, Controllableelectrochemical/electroanalytical approach to generate nitrogen-doped carbonquantum dots from varied amino acids: pinpointing the utmost quantum yield andthe versatile photoluminescent and electrochemiluminescent applications, Electrochimica Acta. (Acceptted, IF=4.803)
12. T. Chen,Y. Xu, Z. Peng, A. Li, J. Liu*, Simultaneous Enhancement of Bioactivity andStability of Laccase by Cu2+/PAA/PPEGA Matrix for Efficient Biosensing andRecyclable Decontamination of Pyrocatechol, Analytical Chemistry, DOI:10.1021/acs.analchem.6b04691. (IF=5.886)
13. J. Wang,X. Ma, W. Yang, X. Sun, J. Liu,* Self-supported Cu(OH)2@Co2CO3(OH)2 core-shellnanowire array as a robust catalyst for ammonia-borane hydrolysis, Nanotechnology. doi:10.1088/1361-6528/28/4/045606 (IF=3.573)
2016
14. M. Liu,Y. Xu, Y. Wang, X. Chen, X. Ji, F Niu, J. Liu*, Boron Nitride Quantum Dots withSolvent-Regulated Blue/Green Photoluminescence and ElectrochemiluminescentBehavior for Versatile Applications, AdvancedOptical Materials,2016, DOI: 10.1002/adom.201600661 (IF=5.188)
15. FukaiShan, Ao Liu, Huihui Zhu, Weijin Kong, Jingquan Liu, Byoungchul Shin, Elvira Fortunato, RodrigoMartins and Guoxia Liu, High-mobility p-type NiOx thin-film transistorsprocessed at low temperatures with Al2O3 high-k dielectric,Journal of Materials Chemistry A, 2016,4, 9438-9444. (IF=8.262)
16. YuanchaoZhang, JingquanLiu, Da Li, Xing Dai, Fuhua Yan, Xavier A.Conlan, Ruhong Zhou, Colin J. Barrow, Jin He, Xin Wang, and WenrongYang, Self-Assembled Core–Satellite Gold Nanoparticle Networks forUltrasensitive Detection of Chiral Molecules by Recognition TunnelingCurrent, ACS Nano, 2016, 10, 5096–5103. (IF=13.334)
17. HongliangLi, Hui Liu, Aiping Fu, Guanglei Wu, Man Xu, Guangsheng Pang, Peizhi Guo, JingquanLiu and Xiu Song Zhao, Synthesis andCharacterization of N-Doped Porous TiO2 Hollow Spheres and Their Photocatalyticand Optical Properties, Materials 2016, 9, 849. (IF=2.728)
18. MotilalMathesh, Jingquan Liu, Colin J. Barrow, WenrongYang, Graphene-Oxide-Based Enzyme Nanoarchitectonics for SubstrateChanneling, Chemistry-AEuropean Journal,DOI:10.1002/chem.201604348 (IF=5.771)
19. JizhenZhang, Wenrong Yang, Jingquan Liu*,Facilefabrication of supercapacitors with high rate capability using graphene/nickelfoam electrode, Electrochimica Acta, 2016, 209, 85-94. (IF=4.803)
20. Na Kong,Mahesh Vaka, Nguyen Dang Nam, Colin J. Barrow, Jingquan Liu, Xavier A. Conlan, WenrongYang, Controllable graphene oxide mediated efficient electron transferpathways across self-assembly monolayers: A new class of graphene basedelectrodes,Electrochimica Acta, 2016, 210, 539-547. (IF=4.803)
21. Tao Chen,Xiaohua Han, Zhi Peng, Aihua Li, Jingquan Liu*, Improvement of the hydrophilicity of7, 8-dihydroxyflavone by in situ grafting of PEG-A via RAFT polymerization andthe drug efficacy tests, European PolymerJournal, 2016, 81, 327-336. (IF=3.485)
22. BingpingLiu, JingquanLiu*, One-Step Synthesis of Boron NitrideQuantum Dots: Simple Chemistry Meets Delicate Nanotechnology, Chemistry - A European Journal, 2016, 22, 18899–18907. (IF=5.771)
23. Tao Chen, Yuanhong Xu,* Zhi Peng, Aihua Li, JingquanLiu*, Simultaneous utilization of a bifunctionalruthenium complex as an efficient catalyst for RAFT controlledphotopolymerization and a sensing probe for the facile fabrication of an ECLplatform, Polymer Chemistry, 2016, 7, 5880–5887. (IF=5.687)
24. Liang Cui,Yuanhong Xu, Li Niu, Wenrong Yang, Jingquan Liu*,Monolithically integrated CoP nanowire array:An on/off switch for effective on-demand hydrogen generation via hydrolysis ofNaBH4 and NH3BH3, Nano Research, 2017; 10:595-604.. (IF=8.893)
25. Liang Cui,Xuping Sun, Yuanhong Xu, Wenrong Yang, JingquanLiu*, Cobalt Carbonate Hydroxide Nanowire Arrayon Ti Mesh :An Efficient and Robust 3D Catalyst for On-Demand HydrogenGeneration from Alkaline NaBH4 Solution, Chemistry–A European Journal, 2016,22,14831 –14835. (IF=5.771)
26. DaLi, JingquanLiu,* Hongbin Wang, Colin J. Barrow, WenrongYang*, Electrochemical synthesis of fractal bimetallic Cu/Ag nanodendrites forefficient surface enhanced Raman spectroscopy, ChemicalCommunication, 2016, 52, 10968–10971. (IF=6.567)
27. Jingquan Liu,* Hongjing Ma, Huihui Zhu, Zhen Liu, DegangJiang, Jizhen Zhang, Wenrong Yang*, Quantifying the Tunable Conjugated Area ofGraphene Oxide Using Pyrene as a Fluorescent Probe, Chemistry –A European Journal, DOI: 10.1002/chem.201604201. (IF=5.771)
28. XiaoxiaWang, Wenling Zhang,* Xuqiang Ji, Baoqin Zhang, Mingxun Yu, Wei Zhang, JingquanLiu*, 2D MoS2/graphene composites with excellent full Ku band microwaveabsorption, RSC Advances, 2016,6,106187–106193. (IF=3.289)
29. Motilal Mathesh,Binquan Luan, Taiwo O. Akanbi, Jeffrey K. Weber, Jingquan Liu, Colin J. Barrow, Ruhong Zhou,* WenrongYang*, Opening Lids: Modulation of Lipase Immobilization by GrapheneOxides, ACS catalysis, 2016, 6, 4760-4768. (IF=9.307)
30. YuanchaoZhang, JingquanLiu, Da Li, Fuhua Yan,* Xin Wang* Wenrong Yang*,Self-assembly of ultrathin gold nanowires and single walled carbon nanotubes asa highly sensitive substrate for surface enhanced Raman spectroscopy, New Journal of Chemistry, 2016,40, 7286–7289. (IF=3.277)
31. AitangZhang, Aihua Li, Yao Wang, Mengli Liu, Hongjing Ma, Zhongqian Song, JingquanLiu*, Controllable synthesis of mesoporous carbonnanoparticles based on PAN-b-PMMA diblock copolymer micelles generatedviaRAFTpolymerization as electrode materials for supercapacitors, RSC Advances,2016,6,103843–103850. (IF=3.289)
32. WenLingZhang, Yanlin Cao, Pengyi Tian, Fei Guo, Yu Tian, Wen Zheng, Xuqiang Ji, Jingquan Liu*, Soluble, Exfoliated Two-dimensional Nanosheets asExcellent Aqueous Lubricants, ACSApplied Materials & Interfaces, DOI: 10.1021/acsami.6b09752. (IF=7.145)
33. X. Zhang,Y.Zhang, D.Ding,J.Zhao,J.Liu,W.Yang,K.Qu, On-site determination of Pb2+ andCd2+ in seawater by double stripping voltammetry with bismuth-modifiedworking electrodes, MicrochemicalJournal 126 (2016) 280–286. (IF=2.893)
34. D. Jiang,H. Zhu, W. Zhang, L. Cui, J. Liu*, One-side non-covalent modification of CVD graphenesheet using pyrene-terminated PNIPAAm generated via RAFT polymerization for thefabrication of thermo-responsive actuators, Sensorsand Actuators B: Chemical, 2017, 239, 193-202. (IF=4.758)
35. A.Li, H.Ma, S.Feng,* J.Liu*, A copolymer capsule with magnetic core forhydrophilic or hydrophobic drug delivery via thermo-responsive stimuli orcarrier biodegradation, RSC Advances 2016, 6, 33138-33147. (IF=3.84,0)
36. Aihua Li,Hongjing Ma, Jingquan Liu*, Graphene oxide coated Fe3O4@mSiO2 NPsfor magnetic controlled bioimaging, RSCAdvances,2016, 6, 63704-63710.
37. X. Wang,B. Zhang, M. Yu, J. Liu*, Enhanced Microwave Absorption Capacity of HierarchicalStructural MnO2@NiMoO4 composites, RSCAdvances, accepted, 2016 (IF=3.84)
38. ZhongqianSong, Fengyu Quan, Yuanhong Xu, Mengli Liu, Liang Cui, Jingquan Liu*,Multifunctional N,S co-doped carbon quantumdots with pH- and thermo-dependent switchable fluorescent properties and highlyselective detection of glutathione,Carbon,2016,DOI:10.1016/j.carbon.2016.04.003.(IF=6.160)
39. L. Cui, Y.Xu, B. Liu, W. Yang, Z. Song, J. Liu*, Well-controlled preparation of evenly distributednanoporous HOPG surface via diazonium salt assisted electrochemical etchingprocess, Carbon, 102 (2016) 419-425.(IF=6.196)
40. J. Wang,P. Yang, M. Cao, N. Kong, W. Yang, S. Sun, Y. Meng, J.Liu*, A novel graphene nanodots inlaid porous gold electrodefor electrochemically controlled drugrelease, Talanta, 2016, 147, 184-192. (IF=3.545,0)
41. Y. Cao, H.J. Choi, W. L. Zhang*, B. Wang, C. Hao, J. Liu*, Eco-friendly mass production ofpoly(p-phenylenediamine)/graphene oxide nanoplatelet composites and theirelectrorheological characteristics, Compositesscience and technology, 2016,122, 36-41. (IF=3.569,0)
42. Y.Xu*, J.Liu*, Graphene as Transparent Electrodes:Fabrication and New Emerging Applications, Small, 2016,12(11) 1400-1419. (IF=8.368,0)
43. M. Liu1,Y. Xu1, F. Niu, J. Gooding* and J. Liu*,Carbon quantum dots directly generated fromelectrochemical oxidation of graphite electrodes in alkaline alcohols and theapplications for specific ferric ion detection and cell imaging,Analyst,DOI: 10.1039/C5AN02231B (2016) (IF=4.107,0)
44. F. Niu1, Y. Xu1*, M. Liu,J. Sun, P.Guo, J.Liu* Bottom-up electrochemical preparationof solid-state carbon nanodots directly from nitriles/ionic liquids usingcarbon-free electrodes and the applications in specific ferric ion detectionand cell imaging. Nanoscale, 8 (2016) 5470-5477. (IF=7.394,0)
45. J. Wang,W. Yang, J.Liu*, CoP2 nanoparticles on reduced grapheneoxide sheets as a super-efficient bifunctionalelectrocatalyst for full watersplitting, Journal of MaterialsChemistry A,2016, 4, 4686-4690. (IF=7.443,0)
46. H. Zhu, Y.Cao, J. Zhang, W. Zhang, Y. Xu, J. Guo, W. Yang, and J.Liu*, One-step preparation of graphene nanosheetsvia ball milling of graphite and the application in lithium-ionbatteries. Journal of MaterialsScience, 2016. 51(8): p. 3675-3683.(IF=2.371)
47. H. Zhu, A.Liu, F. Shan, W. Yang, W. Zhang, D. Li, and J. Liu*, One-step synthesis of graphene quantum dotsfrom defective CVD graphene and their application in IGZO UV thin filmphototransistor. Carbon, 2016. 100: p. 201-207.(IF=6.196,0)
48. X. Wang,L. Dong,* B. Zhang, M. Yu, J. Liu,* Controlled growth of Cu–Ni nanowires andnanospheres for enhanced microwave absorption properties. Nanotechnology, 27 (2016) 125602, 1-10. (IF=3.821,0)
49. Y. Xu1*,M. Liu1, N. Kong, J. Liu*, Lab-on-paper micro- and nano-analytical devices: Fabrication, modification,detection and emerging applications, MicrochimicaActa, 2016 183: 1521.(IF=3.741, )
50. Wenling Zhang,* Yu Tian, Ying Dan Liu, Zhong Qian Song, Jing Quan Liu*and Hyoung Jin Choi*, Large scaleand facile sonochemical synthesis of magnetic graphene oxide nanocompositesandtheir dual electro/magneto-stimuli responses, RSCAdvances2016,6,77925. (IF=3.289 )
51. XuqiangJi, Yuanhong Xu, Wenling Zhang, Liang Cui, Jingquan Liu, Review of functionalization, structure andproperties of graphene/polymer composite fibers, CompositesPart A: Applied Science and Manufacturing, 2016, 87, 29-45.
2015
52. L. Cui, F.Lou, Y. Li, J. Hou, J. He,*, Z. Jia, J. Liu*, Graphene oxide mode-locked Yb:GAGG bulklaser operating in the femtosecond regime, Opticalmaterials, 2015 42, 309-312. (IF=1.981, 引用次數0)
53. J. Li, D.Wang, J.Liu, D. Yu., P. Zhang, Y. Li, Removal ofReactive Black W-2N from synthetic wastewater by an integrated membranecoagulation reactor. Separation andPurification Technology, 2015,141, 48-52. (IF=3.091,0)
54. Z.Liu, J.Liu, C. Barrow, N. Barnett, W. Yang*, Probingthe tunable surface chemistry of graphene oxide, ChemicalCommunications, 2015, 51:10969-10972. (IF=6.834,1)
55. J. Zhang,Y. Xu, Z. Liu, W. Yang, J. Liu* Highly conductive porous graphene electrodeprepared via in-situ reduction of graphene oxide using Cu nanoparticles for thefabrication of high performance supercapacitor, RSCAdvance, 2015, 54275-54282. (IF=3.840,1)
56. J. Wang,H. Zhu,Y. Xu, W. Yang, C. J. Barrow, J. Liu,* Graphene nanodots encaged 3-D goldsubstrate as enzyme loading platform for the fabrication of high performancebiosensors, Sensors and Actuators B:Chemical., 2015, 220 1186–1195. (IF=4.097,1)
57. W.Zhang, J.Liu*, Hyoung Jin Choi*, Graphene oxide compositesand their electrorheological applications, Journalof Nanomaterials, 2015, 2015:1-8. (IF=1.644,0).
58. Z. Song,Y. Xu, W. Yang, L. Cui, J. Zhang, J. Liu*, Graphene/tri-block copolymer compositesprepared via RAFT polymerizations for dual controlled drug delivery via pHstimulation and biodegradation, EuropeanPolymer Journal, 2015, 69:559-572. (IF:3.005, 4)
59. Y. Xu*, J.Liu, J. Zhang, X. Zong, X. Jia, D. Li, E. Wang*,Chip-based generation of carbon nanodots via electrochemical oxidation ofscreen printed carbon electrode and the applications for efficient cell imagingand electrochemiluminescence enhancement, Nanoscale, 2015, 7, 9421-9426. (IF=7.394,1)
60. Y. Xu*, M.Cao, H. Liu, X. Zong, N. Kong, J. Zhang, J. Liu*, Electron Transfer Study on GrapheneModified Glassy Carbon Substrate via Electrochemical Reduction and theApplication for Tris(2,2'-bipyridyl)ruthenium(II) Sensor Fabrication, Talanta, 2015, 139, 6-12. (IF=3.545, 5)
61. J.Z.Zhang, Y.H. Xu, L. Cui, A.P. Fu, W.R. Yang, C. Barrow, J.Q. Liu*, Mechanical Properties Of Graphene FilmsEnhanced by Homo-Telechelic Functionalized Polymer Fillers via π–π StackingInteractions,Composite Part A: Applied Science andManufacturing, 2015, 71, 1-8. (IF=3.071, 4)
62. Y. Cao, Y.Xu, J. Zhang, D. Yang, J. Liu*, Well-controlled atom transfer radical polymerizationsof acrylates using recyclable niobium complex nanoparticle as photocatalyst undervisible light irradiation, Polymer, 2015, 61, 198-203. (IF=3.562 , 6 )
63. H. Zhu, A.Liu, Y. Xu, F. Shan, A. Li, J. Wang, W. Yang, C. Barrow, J.Liu* Graphene Quantum Dots Directly Generated fromGraphite via Magnetron Sputtering and the Application in Thin-FilmTransistors, Carbon, 2015, 88, 225-232. (IF=6.196, 2)
64. H. Zhu, Y.Xu, A. Liu, N. Kong, F. Shan, W. Yang, C.J. Barrow, J.Liu,* Graphene Nanodots-Encaged Porous Gold ElectrodeFabricated via Ion Beam Sputtering Deposition for Electrochemical Analysis ofHeavy Metal Ions, Sensors and ActuatorsB: Chemical,2015, 206, 592-600. (IF=4.097, 7)
65. X. Ji, L.Cui, Y. Xu, J. Liu*, Non-covalent interactions for synthesis of new graphenebased composites, Composites Scienceand Technology,2015, 106, 25-31. (IF=3.569 , 4)
66. H. Ma, A.Li, Y. Xu, W. Zhang, J. Liu*, Preparation of pH-responsive AgNPs/polymernanohybrids with controllable metal-enhanced fluorescence behavior, European Polymer Journal, 2015, 72, 212-221. (IF=3.005,0)
67. X. Zong,Y. Xu, J.Liu*, Preparation and Application ofThermo-responsive Graphene/Polymer Composites, NanoReports, 2015, 2, 55-65.
68. JianmeiWang1, Yuanhong Xu1*, Jingquan Liu*, Electroanalysis, 2015, 27, 1-5. (IF=2.138)
69. 許 謙 ,李愛華,聶兆廣,李洪亮,許元紅,劉敬權, PNIPAM 改性纖維素球調控布洛芬釋放, 山東化工 2015, 44, 41-44, 47.
70. X Ji†, W.Zhang†*, J.Liu*, Self-assembly preparation of SiO2@Ni-Allayered double hydroxide composites and theirenhanced electrorheological characteristics, Scientific Reports, 2015, 5, 18367. (IF=5.578, 0)
71. Rui Wang,Xuyan Xue,Wencai Lu,Hongwei Liu,Chao Lai,Kai Xi,Yanke Che,Jingquan Liu,Shaojun GuoandDongjiang Yang,Tuning and understanding the phase interfaceof TiO2nanoparticles for more efficient lithium ion storage, Nanoscale, 2015,7, 12833-12838
2014
72. Y.Xu, J.Liu, C. Gao, E. Wang, Applications of CarbonQuantum Dots in Electrochemiluminescence: A Mini Review,Electrochemistry Communications.2014, 48, 151-154.(IF=4.847, 11)
73. J. Liu,* Z. Liu, C.J. Barrow, W. Yang, MolecularlyEngineered Graphene Surfaces for Sensing Applications: A Review,Analytica Chimica Acta. 2015 859:1–19. (IF=4.513,23)
74. N. Kong,J.J. Gooding, J. Liu,* Protein Sensors Based on Reversible π–π Stacking onBasal Plane HOPG Electrodes,Journal of SolidState Electrochemistry. 2014,18 3379-3386. (IF=2.446, 1)
75. D.Li, J.Liu, C.J. Barrow, W. Yang, Proteinelectrochemistry using graphene-based nano-assembly: an ultrasensitiveelectrochemical detection of protein molecules via nanoparticle-electrodecollisions,Chemical Communications. 2014,50, 8197-8200. (IF=6.834, 10)
76. L. Cui, R.Wang, X. Ji, M. Hu, B. Wang, J. Liu,* Template-assisted synthesis ofbiodegradable and pH-responsive polymer capsules via RAFT polymerization forcontrolled drug release,Materials Chemistryand Physics.2014, 148, 87-95. (IF=2.259, 7)
77. A. Li, J.Zhang, Y. Xu, J. Liu,* S. Feng, Thermoresponsive Copolymer/SiO2Nanoparticles with Dual Functions of Thermally Controlled Drug Release andSimultaneous Carrier Decomposition,Chemistry-AEuropean Journal. 2014.20,12945-12953. (IF=5.731, 1)
78. M. Cao, A.Fu, Z. Wang, J. Liu,* N. Kong, X. Zong, H. Liu, J.J. Gooding,Electrochemical and Theoretical Study of π–π Stacking Interactions betweenGraphitic Surfaces and Pyrene Derivatives, TheJournal of Physical Chemistry C. 2014, 118, 2650-2659. (IF=4.772, 19)
79. J. Zhang,J. Qiu, J.Liu,* Electrical Conductivity ofGraphene/Polymer Nanocomposites,Reviews in AdvancedSciences and Engineering. 2014,3, 48-65. (無IF 19)
80. J. Zhang,A. Li, H. Liu, D. Yang, J. Liu, Well-controlled RAFT polymerization initiatedby recyclable surface-modified Nb(OH)5 nanoparticles under visible lightirradiation,Journal of Polymer Science Part A: PolymerChemistry.2014, 52, 2715-2724. (IF=3.113, 6)
81. R. Wang,Q. Wu, Y. Lu, H. Liu, Y. Xia, J. Liu,* D. Yang, Z. Huo, X. Yao, Preparation ofNitrogen Doped TiO2/Graphene Nanohybrids and Application as Counter Electrodefor Dye-Sensitized Solar Cells, ACSApplied Materials & Interfaces. 2014, 6, 2118-2124. (IF= 6.723, 14)
82. R. Wang,J. Tang, N. Kong, Y. Wang, J. Liu, J. Liu,* A Nano-Silver Enhancement Effect on theLuminescence of a Ligand–Eu3+ Complex via a SiO2 Spacer,Australian Journal of Chemistry.2014. 67, 644-650. (IF=1.558, 0)
83. X. Zong,N. Kong, J.Liu,* W. Yang, M. Cao, J.J. Gooding, The Influenceof Graphene on the Electrical Communication Through Organic Layers on Graphiteand Gold Electrodes,Electroanalysis.2014,26, 84-92. (IF=2.138, 7)
84. A.Li, J.Liu*, S. Feng, Applications of Graphene Based Materialsin Energy and Environmental Science,Scienceof Advanced Materials. 2014,6,209-234(IF=2.598, 11)
85. A.Li, J.Liu*, G. Liu, J. Zhang, S. Feng, Design andsynthesis of fluorescent core–shell nanoparticles with tunable lower criticalsolution temperature behavior and metal‐enhanced fluorescence,Journal of Polymer Science Part A: PolymerChemistry.2014,52, 87-95. (IF=3.113, 5)
86. J. Liu*, L. Cui,N. Kong, C.J. Barrow, W. Yang, RAFT controlled synthesis of graphene/polymerhydrogel with enhanced mechanical property for pH-controlled drug release,European Polymer Journal. 2014,50, 9-17(IF=3.005, 15)
87. L. Huang,Y. Wang, D. Wu, J. Tang, Y. Wang, J. Liu, Z. Huang, J. Jiao, J.Liu, Electrode properties and thedehydrogenation process of amorphous Mg–Ni–La alloys,Journalof Power Sources. 2014,249,35-41. (IF=6.217, 6)
88. R.Li, J.Liu, L. Li, H. Wang, Z. Weng, S.K. Lam, A.Du, Y. Chen, C.J. Barrow, W. Yang, Non-covalent surface modification of boronnitride nanotubes for enhanced catalysis,ChemCommun.2014,50, 225-227. (IF=6.834, 6)
89. Z. Wang,F. Li, J. Xia, L. Xia, F. Zhang, S. Bi, G. Shi, Y. Xia, J.Liu, Y. Li, L. Xia, An ionic liquid-modifiedgraphene based molecular imprinting electrochemical sensor for sensitivedetection of bovine hemoglobin,Biosensors &Bioelectronics.2014,61, 391-396. (IF=6.409, 27)
90. Q. Wang,A. Fu, H. Li, J.Liu, P. Guo, X.S. Zhao, L.H. Xia, Preparation ofcellulose based microspheres by combining spray coagulating with spray drying,Carbohydrate Polymers. 2014,111, 393-399. (IF=4.074, 3)
91. L. Hao, R.Wang, L. Zhang, K. Fang, Y. Men, Z. Qi, P. Jiao, J. Tian, J.Liu, Utilizing cellulase as a hydrogenperoxide stabilizer to combine the biopolishing and bleaching procedures ofcotton cellulose in one bath,Cellulose.2014,21, 777-789. (IF=3.573, 2)
92. Z. Wang,G. Shi, J. Xia, Y. Xia, F. Zhang, L. Xia, D. Song, J. Liu, Y. Li, L. Xia, M.E. Brito, Facilepreparation of a Pt/Prussian blue/graphene composite and its application as anenhanced catalyst for methanol oxidation,ElectrochimicaActa.2014,121, 245-252. (IF=4.505, 13)
93. Q. Wang,Y. Wang, P. Guo, Q. Li, R. Ding, B. Wang, H. Li, J. Liu, X.S. Zhao, Formic Acid-Assisted Synthesis ofPalladium Nanocrystals and Their Electrocatalytic Properties,Langmuir. 2014,30, 440-446. (IF=4.457, 10)
94. A. Fu, C.Zhao, H. Li, C. Tian, T. Chu, F. Tian, J. Liu, Z. Wang, Y. Duan, Theoretical investigationon the chemo- and stereoselectivities of isoleucine-catalyzed cross-aldolreactions between two enolizable aldehydes involving isobutyraldehyde andcontrasts with proline catalysis,Tetrahedron-Asymmetry.2014,25, 418-428. (IF=2.155, 0)
95. A. Liu, Q.Zhang, G. Liu, F. Shan, J. Liu, W.J. Lee, B.C. Shin, J.S. Bae, Oxygen pressuredependence of Ti-doped In-Zn-O thin film transistors,Journalof Electroceramics. 2014, 1-6.(IF=1.744, 1)
96. C. Wang,H. Li, A. Fu, J. Liu, W. Ye, P. Guo, G. Pang, X.S. Zhao, An RAPETapproach to in situ synthesis of carbon modified Li4Ti5O12 anodenanocrystals with improved conductivity,NewJournal of Chemistry. 2014,38,616-623. (IF=3.086, 3)
2013
97. J. Liu*, L. Cui, D. Losic, Graphene and graphene oxide as newnanocarriers for drug delivery applications,ActaBiomaterialia.2013,9, 9243-9257. (IF=6.025,108)
98. J. Liu*, N. Kong, A. Li, X. Luo, L. Cui, R. Wang, S. Feng,Graphene bridged enzyme electrodes for glucose biosensing application,Analyst. 2013,138, 2567-2575. (IF=4.107, 14)
99. N.Kong, J.Liu*, Q. Kong, R. Wang, C.J. Barrow, W. Yang,Graphene modified gold electrode via π–π stacking interaction for analysis ofCu2+ and Pb2+,Sensors and Actuators B:Chemical. 2013,178, 426-433. (IF=4.097, 20)
100.J.Liu, R.C. Li, G.J. Sand, V. Bulmus, T.P. Davis,H.D. Maynard, Keto-Functionalized Polymer Scaffolds as Versatile Precursors toPolymer Side-Chain Conjugates,Macromolecules.2013,46, 8-14. (IF=5.8, 11)
101.Z. Liu, J. Liu*, L. Cui, R. Wang, X. Luo, C.J. Barrow, W.Yang, Preparation of graphene/polymer composites by direct exfoliation ofgraphite in 18luminium18ized block copolymer matrix,Carbon. 2013,51, 148-155. (IF=6.197, 30)
102.N. Kong, X. Huang, L. Cui, J.Liu*, Surface Modified Graphene for Heavy MetalIons Adsorption, Science of AdvanceMaterials, 2013,5, 1083-1089. (IF=2.598, 11)
103.H. Liu, J. Zhang, X. Luo, N. Kong, L.Cui, J.Liu*, Preparation of Biodegradable andThermoresponsive Enzyme-Polymer Conjugates with Controllable Bioactivity viaRAFT Polymerization,European Polymer Journal.2013, 49, 2949-2960. (IF=3.005, 3)
104.J. Liu, Z. Liu, X. Luo, X. Zong, J.Liu*, RAFT Controlled Synthesis of BiodegradablePolymer Brushes on Graphene for DNA Binding and Release, Macromolecular Chemistry and Physics, 2013 , 214, 2266-2275. (IF=2.616, 5)
105.M. Mathesh, J. Liu, N.D. Nam, S.K.H. Lam, R. Zheng, C.J.Barrow, W. Yang, Facile synthesis of graphene oxide hybrids bridged by copperions for increased conductivity,Journal of MaterialsChemistry C. 2013,1, 3084-3090. (IF=4.696, 9 )
106.B. Wang, P. Guo, H. Bi, Q. Li, G. Zhang, R.Wang, J.Liu, X. Zhao, Int.J. Electrochem. Sci. 2013, 8, 8966.(IF=1.500, 5)
107.F. Lou, L. Cui, Y. Li, J. Hou, J. He, Z.Jia, J.Liu, B.-T. Zhang, K. Yang, Z. Wang,High-efficiency femtosecond Yb: Gd3Al0.5Ga4.5O12 mode-locked laser basedon reduced graphene oxide,Optics Letters.2013,38, 4189-4192. (IF=3.292, 9)
108.L. Hao, R. Wang, K. Fang, J.Liu, Ultrasonic Effect on the DesizingEfficiency of α-amylase on Starch-sized Cotton Fabrics,CarbohydratePolymers.2013,96, 474-480. (IF=4.074, 7)
109.L. Hao, R. Wang, J.Liu, K.J. Fang, The Influence of AuxiliaryChemicals on the Decolorization of Reactive Blue Dye by Laccase,Advanced Materials Research. 2013,709, 53-57. (無IF , 1)
2012
110.J.Liu*, R. Wang, L. Cui, J. Tang, Z. Liu, Q. Kong,W. Yang and J. J. Gooding, Using Molecular Level Modification to Tune theConductivity of Graphene Papers, TheJournal of Physical Chemistry C, 116, 33,17939-17946, 2012.(IF=4.772, 31)
111.J. Liu*; Li, A.; Tang, J.; Wang, R.; Kong, N.; DavisT. P. Thermoresponsive Silver/Polymer Nanohybrids with Switchable Metal Enhanced Fluorescence, Chemical Communications, 48, 39,4680-4682, 2012. (IF=6.834, 15)
112.X. Luo, J. Liu*, G. Liu, R. Wang, Z. Liu and A. Li,Manipulation of the bioactivity of glucose oxidase via raft‐controlledsurface modification, Journal of PolymerScience Part A: Polymer Chemistry, 50, 14,2786-2793, 2012. (IF=3.113, 5)
113.L. Cui, J. Liu*, R. Wang, Z. Liu and W. Yang, A facile“graft from” method to prepare molecular‐level dispersed graphene–polymercomposites, Journal of PolymerScience Part A: Polymer Chemistry, 50, 21,4423-4432, 2012. (IF=3.113, 23)
114.J.Liu*, J. Tang and J. J. Gooding, Strategies forchemical modification of graphene and applications of chemically modifiedgraphene, Journal of Materials Chemistry, 25, 12435-12452, 2012.(IF=6.101, 152)
115.J.Liu and T. Davis pH-SensitiveGraphene–Polymer Nanocomposites,Royal Society of Chemistry, Edited by Vikas, 2012(IF=3.800, 0)
116.L. Hao, J. Liu and R. Liu, Ultrasound-assistedadsorption of anionic nanoscale pigment on cationised cotton fabrics, Carbohydrate Polymers, 90, 1420-1427, 2012. (IF=4.074, 11)
117.L. Hao, R. Wang, J.Liu, Y. Cai and R. Liu, Investigating theadsorption performance of nanoscale pigment on cationized cottonsubstrate, Powder Technology, 222, 176-181, 2012. (IF=2.349, 12)
118.L. Hao, R. Wang, J.Liu and R. Liu, The adsorptive andhydrolytic performance of 19luminium on cationised cotton, Carbohydrate Polymers,89, 171-176, 2012. (IF=4.074, 0)
119.L. Huang, Y. Wang, J. Tang, H. Wang, H. Wang,J. Qin, Y. Wang, J. Liu and J. Liu, Synthesis of Graphene/Metal Nanocomposite Film WithGood Dispersibility via Solvothermal Method, InternationalJournal of Electrochemical Science, 7, 11068-11075, 2012. (IF=1.5, 8)
120.L. Huang, Y. Wang, J. Tang, J.Liu, J. Liu and Y. Wang, Effects ofQuenching Rate on Microstructure and Electrochemical Properties of (Mg70.6Ni29. 4) 92La8 Alloys, International Journalof Electrochemical Science, 7,10282-10290, 2012. (IF=1.5, 0)
121.G. Liu, S. Wang, J.Liu and D. Song, An ElectrochemicalImmunosensor Based on Chemical Assembly of Vertically Aligned Carbon Nanotubeson Carbon Substrates for Direct Detection of the Pesticide Endosulfan inEnvironmental Water, Analytical Chemistry, 2012, 84, 9, 3921-3928. (IF=5.636, 27)
122.李愛華, 劉敬權, 唐建國, 劉繼憲, 王瑤, 許青松, 王媛, 通過 RAFT 法製備雙親性嵌段共聚物及誘導自組裝行為,工程塑膠套用. 2012,40, 17-21.
2011
123.J, Liu. * Imparting Polymeric Properties toGraphene Nanosheets by Surface Modification via π-π Stacking,Australian Journal of Chemistry. 64, 1414, 2011. (IF= 1.558, 7)
124.G. Liu, J. Liu, T. P. Davis and J. J. Gooding,Electrochemical impedance immunosensor based on gold nanoparticles and aryldiazonium salt functionalized gold electrodes for the detection ofantibody, Biosensors and Bioelectronics. 26, 8, 3660-3665, 2011. (IF=6.409, 37)
2010
125.J.Liu*, L. Tao,W. Yang, D. Li, C. Boyer, R. Wuhrer, F. Braet, T.P. Davis, Synthesis,characterization, and multilayer assembly of pH sensitive graphene− polymernanocomposites,Langmuir. 2010,26, 10068-10075. (IF=4.457,120)
126.J.Liu*, E.Setijadi, Y. Liu, M. R. Whittaker, C. Boyer, T. P. Davis, PEGylated GoldNanoparticles Functionalized With β-CD-Inclusion Complexes: Towards MetalNanoparticle/Polymer/Carbohydrate Cluster Biohybrid Materials, Australian Journal of Chemistry. 2010, 63, 1245-1250. (IF=1.558, 21)
127.Boyer, C.; Wittaker,M. R.; Bulmus, V.; J. Liu; Davis, T. P. The Design and Utility of Polymer-Stabilized Ionoxide Nanoparticles for Nanomedicine Applications , Nature Asia Materials.2010.2, 23-30. (IF=10.118, 149)
128.Boyer, C.; Wittaker,M. R.; Bulmus, V.; J. Liu; Davis, T. P.Modulation of the Surface Charge on Polymer-Stabilized Gold Nanoparticles bythe Application of an External Stimulus, Langmuir, 2010 26, 2721-2730. (IF=4.457, 30)
129.Y. Guo, J. Liu, P. B. Zetterlund, Nitroxide-MediatedRadical Polymerization in Miniemulsion Based on in situ Surfactant Formationwithout use of Homogenization Device, Macromolecules, 2010, 43, 5914–5916.(IF=5.800, 25)
130.J. Liu; Liu, H.; Bulmus, V.; Tao,;L., Boyer, C.; Davis,T. P. A Simple Methodology for the Synthesis ofHeterotelechelic Protein-Polymer-Biomolecule Conjugates, Journal of Polymer Science Part A: Polymer Chemistry, 2010, 48, 1399-1405. (IF=3.113, 28)
131.J. Liu; Yang, W.; Tao, L.; Li, D.;Boyer C.; Davis, T. P. Thermosensitive Graphene Nanocomposites Formed UsingPyrene-Terminal Polymers Made By RAFT Polymerization, Journal of Polymer Science Part A: Polymer Chemistry, 2010, 48, 425-433. (IF=3.113, 116)
132.J.Liu, E. Setijadi, Y. Liu, M.R. Whittaker, C.Boyer, T.P. Davis, PEGylated Gold Nanoparticles Functionalized withβ-Cyclodextrin Inclusion Complexes: Towards MetalNanoparticle–Polymer–Carbohydrate Cluster Biohybrid Materials,Australian Journal of Chemistry. 2010,63, 1245-1250. (IF=1.558, 23)
133.Y. Liu, J. Liu, J. Xu, S. Feng, T.P. Davis,Biodegradable PEG Hydrogels Cross-linked Using Biotin-Avidin Interactions,Australian Journal of Chemistry.2010,63, 1413-1417. (IF=1.558,4)
2009
134.Boyer C., Bulmus, V.,Davis T. P., Ladmiral V., J. Liu, Perrier S. Bio-application ofRAFT Polymerization” Chemical Review 2009, 109, 5402-5436.(IF=46.568 , 433)
135.J. Liu;*, Tao, L.; Xu, J.; Jia, Z.;Boyer, C.; Davis, T. P. RAFT Controlled Synthesis of Six-Armed BiodegradableStar Polymeric Architectures via a ‘Core First’ Methodology, Polymer,2009, 50, 4455–4463.(IF=3.562, 33)
136.J. Liu*; Yang, W.; Zareie, H. M.;Gooding J. J.; Davis, T. P. pH-Controlled Cleavage of Polymer Brushes FormedUsing Titanium-diol Coordination Chemistry and Living Radical Polymerization(RAFT), Macromolecules, 2009, 42 (8), pp 2931–2939.(IF=5.800 , 27)
137.Setijadi, E.; Tao,L.; J. Liu*; Boyer, C.; Jia Z.; Davis, T.P. Synthesis of Biodegradable Trifunctional Star Polymers via RAFTMechanism, Biomacromolecules, 2009, 10 (9), pp2699–2707. (IF=5.750, 21)
138.J. Liu; Liu, H.; Boyer, C.; Bulmus,V.; Davis, T. P. Approach to Peptide Decorated Micelles via RAFTPolymerization, Journal of Polymer SciencePart A: Polymer Chemistry, 2009, 47, 899-912.(IF=3.113, 43)
139.Tao, L.; J. Liu; Xu, J.; Davis, T. P.Bio-Reversible PolyPEGylation, ChemicalCommunications,2009,6560-6562.(IF=6.834, 15)
140.Jia, Z.; J.Liu; Boyer, C.; Davis, T. P.;Bulmus, V.; Functional Disulfide-Stabilized Polymer-Protein Particles, Biomacromolecules 2009 10, 3253-3258.(IF= 5.750, 43)
141.Tao, L.; J. Liu; Tan, B. H.; Davis, T. P. RAFTSynthesis and DNA Binding of Biodegradable, HyperbranchedPoly2-(dimethylamino)ethyl Methacrylate, Macromolecules, 2009, 42 (14), pp 4960–4962.(IF=5.800, 62)
142.Xu, J.; Tao,L.; J. Liu; Bulmus, V.; Davis, T. P.Synthesis of Functionalized and Biodegradable Hyperbranched Polymers from NovelAB2 Macromonomers Prepared by RAFT Polymerization, Macromolecules, 2009, 42 (18), pp6893–6901.(IF=5.800, 33)
143.Tao, L. J. Liu; Davis, T. P.; BranchedPolymer-Protein Conjugates Made From Mid-Chain-Functional P(HPMA), Biomacromolecules, 2009, 10 (10), 2847–2851. (IF=5.750, 49)
144.Jia, Z.; J. Liu; Davis, T. P.; Bulmus, V.RAFT polymerization of 2-VinyloxyEthyl Methacrylate and Its PostpolymerizationModification towards Functional Polymers, Polymer,2009,50, 5928-5932.(IF=3.562, 45)
145.Tao, L.; J. Liu; Xu, J.; Davis, T. P.Synthesis and bioactivity of poly(HPMA)-lysozyme conjugates: the use of novelthiazolidine-2-thine coupling chemistry, Organicand Biomolecular Chemistry, 2009, 7, 3481 – 3485. (IF=3.562, 49)
146.Boyer, C.; J. Liu; Bulmus, V.; Davis, T. P. RAFTPolymer End-Group Modification And Chain Coupling.Conjugation Via DisulfideBonds, Australian Journal of Chemistry, 2009, 62, 1-18.(IF=1.558 , 71)
2008
147.J. Liu*; Liu, H.; Jia, Z.; Bulmus V.;Davis, T. P. An Approach to Biodegradable Star Polymeric Architectures UsingDisulfide Coupling, Chemical Communications,2008, 6582-6584. (IF=6.834, 45)
148.Boyer, C.; J.Liu; Bulmus, V.; Davis, T. P.Direct Synthesis of Well-Defined Heterotelechelic Polymers forBioconjugations, Macromolecules, 2008, 41, 5641-5650.(IF=5.800, 120)
149.Boyer, C.; J.Liu; Bulmus, V.; Davis, T. P. Onthe Stability and Utility of Pyridyl Disulfide Functionality in RAFT andConventional Radical Polymerizations, Journalof Polymer Science Part A: Polymer Chemistry, 2008, 46, (21), 7207-7224.(IF=3.113, 72)
150.Yang, W.; J.Liu; Zheng, R.; Liu, Z.; Dai, Y.;Chen, G.; Ringer, S.; Braet, F. Ionic Liquid-Assisted Synthesis of GoldNanoparticle–Conductive Polyaniline Nanocomposite and Its BioelectrocatalyticApplication, Nanoscale Research Letters,2008, 3, 468-472. (IF=2.779, 33)
2007
151.J. Liu; Bulmus, V.; Barner-Kowollik,C.; Stenzel, M. H.; Davis, T. P. In-Situ Formation of Protein-PolymerConjugates via Reversible Addition Fragmentation Chain TransferPolymerization, Angewandte ChemieInternational Edition 2007, 46, 3099-3103.(IF=13.734 150)
152.J. Liu; Bulmus, V.; Barner-Kowollik,C.; Stenzel, M. H.; Davis, T. P. Synthesis of Pyridyl Disulfide TerminatedAmphiphilic Copolymer Using RAFT Polymerisation, MacromolecularRapid Communications 2007, 28, 305-314. (IF=4.941, 72)
153.J. Liu; McBean, K.; Harris N.;Cortie, M. Optical Absorption of Hollow Half-shells of Gold, Materials Science and Engineering B 2007, 140,195–198.(IF=2.169)
154.Boyer, C.; Bulmus, V.; J.Liu; Davis, T. P.;Stenzel, M. H.; Barner-Kowollik, C. Well-defined Protein-polymer Conjugates viaIn-situ Polymerization, Journal of The AmericanChemical Society, 2007, 129, 7145-7154.(IF= 12.113, 268)
155.Gooding, J. J.;Chou,A.; J. Liu; Hibbert, D. B. The effectsof the lengths and orientations of single-walled carbon nanotubes on theelectrochemistry of nanotube-modified electrodes, ElectrochemistryCommunications 2007, 9, 7, 1677-1683.(IF=4.847, 99)
156.Yuan, L.; Liu, H.K.;Maaroof,A.; Konstantinov,K.; J.Liu; Cortie, M. Mesoporous Gold as Anode Material for Lithium-ion Batteries,Journal of New Materials for ElectrochemicalSystems, 2007, 10, 95-99.(IF=0.511, 20)
2006
157.J. Liu; Paddon-Row, M. N;Gooding J.J. Surface Reconstitution of Glucose Oxidase onto a Norbornylogous BridgeSelf-Assembled Monolayer, Chemical Physics 2006, 324, 226–235.(IF=1.652 20)
158.J. Liu; Maaroof A.I; Wieczorek, L. ; M. Cortie Anisotropic Optical Propertiesof Semi-Transparent Coatings of Gold Nano-Caps AdvancedFunctional Materials, 2006, 16 (11): 1457-1461. (IF= 11.805 , 35)
2005
159.J. Liu, A.I. Maaroof, L. Wieczorek, M. Cortie, Fabrication of Hollow Metal‘Nano-caps’ and Their Red-Shifted Optical Absorption Spectra. Advanced Materials, 2005,17.1276-1281. (IF=17.493, 104)
160.J. Liu, J.J. Gooding, M.N.Paddon-Row, Unusually rapid heterogeneous electron transfer through a saturatedbridge 18 bonds in length. Chemical Communications,2005, 5,631-633. (IF=6.834, 4)
161.J. Liu; B. Cankurtaran, G. McCredie,M. Ford, L. Wieczorek, M. Cortie, Investigation of the Optical Properties ofHollow 24Luminium ‘Nano-Caps’ Nanotechnology 2005, 16,3023-3028. (IF=3.821, 23)
162.J. Liu and Cortie M. Nanoscale metal ‘caps’ and their unusual opticalproperties MaterialsAustralia 2005, 38, 4, 14-15.(IF=)
163.J. Liu; Chou, A.; Rahmat, W.; Paddon-Row, M.N.; Gooding, J.J. Achievingdirect Electrical Connection to Glucose Oxidase using Aligned Single WalledCarbon Nanotube Arrays. Electroanalysis. 2005, 1,38-46. (IF=2.138,222)
164.Liu, G.,; J.Liu; Böcking, T.; Eggers,P.K.; Gooding, J.J. The Modification of Glassy Carbon and Gold Electrodes withAryl Diazonium Salt: The Impact of the Electrode Materials on the Rate ofHeterogeneous Electron Transfer. Chemical Physics.2005, 319,136–146. (IF=1.652, 121)
165.Beebe, J.M.;Engelkes, V.B.; J. Liu; Gooding,J.; Eggers,P.K.; Paddon-Row, M.N.; Frisbie, C.D. Length dependence of charge transport innanoscopic molecular junctions incorporating a series of rigid thiol-terminatednorbornylogs. Journalof Physical Chemistry B. 2005. 109, 11,5207-5215. (IF=3.302, 27)
2004
166.J. Liu; Paddon-Row,, M.N.; Gooding,J.J. Heterogeneous electron-transfer kinetics for flavin adenine dinucleotideand ferrocene through alkanethiol mixed monolayers on gold electrodes. Journal of PhysicalChemistry B. 2004. 108, 24,8460-8466. (IF=3.302, 72)
2003
167.J.J. Gooding, R.Wibowo, J. Liu, W.R. Yang, D. Losic, S. Orbons, F.J. Mearns, J.G. Shapter, and D.B.Hibbert, Protein electrochemistry using aligned carbon nanotube arrays. Journal of the AmericanChemical Society. 2003. 125, 30,9006-9007. (IF=12.113, 640)
168.JJ Gooding, J. Liu, R Wibowo, E Wong, JG Shapter, MN Paddon-Row, DB Hibbert,Electrochemical biosensors exploiting long range electron transfer: Applicationto enzyme and DNA , Sensors. 2003, 189-195. (IF=2.245, 0)
169.Gooding, J.J.;Mearns, F.; Yang, W.R.; J. Liu,Self-assembledmonolayers into the 21(st) century: Recent advances and applications. Electroanalysis. 15, 2, 81-96, 2003. (IF=2.138,489)
2001
170.J.J. Gooding, P.Erokhin, D. Losic, W.R. Yang, V. Policarpio, J.Liu,Parameters importantin fabricating enzyme electrodes using self-assembled monolayers ofalkanethiols. AnalyticalSciences17, 1, 3-9, 2001.(IF=1.394, 91)
出版專著
· J. Liu and T. Davis, Polymer–GrapheneNanocomposites, Chapter 7:pH-SensitiveGraphene–Polymer Nanocomposites,162-178, Royal Society of Chemistry, Edited by Vikas, 2012
· J. Liu, A. Li, N. Kong, S. Feng,Application of Graphene in Sensing Technology: Graphene: Mechanical Properties,Potential Applications and Electrochemical Performance, Nova Science Publishers, 2013
· J. Liu, Z. Liu, Thomas P. Davis*,Non-covalent modification of graphene via π-π stacking interactions, Wiley-VCH, 2013
· L. Cui, D. Yang, J. Liu*, ChemicalModifications of Graphene via Covalent Bonding, Wiley-VCH, 2013
· Y. Xu, J. Zhang, J. Liu*,Chip-based Capillary Electrophoresis, Wiley-VCH, 2014
