姓名
邱龙臻☆


职称
研究员

所属系
光电技术研究院

邮箱
lzhqiu@hfut.edu.cn

电话


个人简历
邱龙臻，合肥工业大学研究员，博士生导师，2006年毕业于中国科学技术大学。06-09年分别在韩国浦项工科大学和美国加州大学洛杉矶分校从事博士后研究。兼任安徽省现代显示省级协同创新中心主任、安徽省特种显示与光电成像技术创新中心专家委员会委员。先后承担科技部973项目、国家自然科学基金、教育部新世纪优秀人才支持计划等项目。在Adv. Mater.、Nano Letters, Chem. Mater.、Macromolecules、Biosens.Bioelectron.等国内外主要学术期刊发表论文120多篇，授权专利十多项。


研究领域
课题组从事光电材料及器件研究，主要包括1）柔性/弹性电子技术；2）人工突触电子器件；3）印刷电子技术；4）有机传感器等。

开设课程

科研项目
1、有机场效应晶体管高性能化与功能化研究（**J03），安徽省****科学基金，2018.7-2021.6
2、高性能显示视窗玻璃的研制，临泉县-合工大政产学研产业创新引导项目，2020.1-2021.12
3、基于分子印迹半导体复合材料的有机晶体管及其化学传感性能研究（**），自然科学基金，2016.1-2019.12
4、高弹性半导体聚合物的制备及其在可延展电子中的应用（**），自然科学基金，2012.1-2015.12
5、喷墨打印聚合物共混物薄膜相分离行为及其在晶体管中的应用（**），自然科学基金，2012.1-2014.12
6、基于多相体系的新型显示材料及器件性能研究（2012CB723406），科技部973计划，2012.1-2014.12
7、喷墨打印制作有机半导体/绝缘聚合物共混物薄膜相形态的调控及其在有机薄膜晶体管中的应用，教育部留学回国人员科研启动经费，2012.1-2013.12
8、基于聚合物共混体系的一步法制备有机薄膜晶体管的研究（**），自然科学基金，2011.1-2011.12
9、应用聚合物共混物相分离喷墨印制有机薄膜晶体管的研究（006），高等学校博士点基金，2011.1-2013.12
10、紫外光刻微图案化OTFT半导体材料的制备与性能（**M146），安徽省自然科学基金，2011.1-2012.12


发表论文
主要著作论文
2020年
[82]Y. F. Ding, F. S. Zhao, S. Y. Kim, X. H. Wang, H. B. Lu, G. B. Zhang, K. Cho; L. Z. Qiu. Azaisoindigo-Based Polymers with a Linear Hybrid Siloxane-Based Side Chain for High-Performance Semiconductors Processable with Nonchlorinated Solvents. ACS Appl. Mat. Interfaces2020 12, 41832-41841.
[81]Y. F. Ding, L. L. Jiang, Y. C. Du, S. Kim, X. H. Wang, H. B. Lu, G. B. Zhang, K. Cho; L. Z. Qiu. Linear hybrid siloxane-based side chains for highly soluble isoindigo-based conjugated polymers. Chem. Commun. 2020 56, 11867-11870.
[80]L. Z. Qiu, S. Y. Wei, H. S. Xu, Z. X. Zhang, Z. Y. Guo, X. G. Chen, S. Y. Liu, D. Wu; L. B. Luo. Ultrathin Polymer Nanofibrils for Solar-Blind Deep Ultraviolet Light Photodetectors Application.Nano Lett.202020, 644-651.
[79]L. Zhang, Q. Li, Z. Li, Z. Du, X. Hong; L. Qiu. An enzyme Biosensor Based on Organic Transistors for Recognizing alpha-Amino Acid Enantiomers.J. Electrochem. Soc.2020167.
[78]G. B. Zhang, R. K. Chen, M. X. Sun, M. Y. Kim, W. W. Wang, L. Z. Qiu, K. Cho; Y. S. Ding. One-step synthesis of an acceptor-donor-acceptor small molecule based on indacenodithieno 3,2-b thiophene and benzothiadiazole units for high-performance solution-processed organic field-effect transistors. J. Mater. Chem. C2020 8, 14180-14185.
[77]G. Zhang, W. Zhou, M. Kim, M. Sun, H. Lu, L. Qiu, K. Cho; Y. Ding. Acceptor-donor-acceptor molecule processed using polar non-halogenated solvents for organic field-effect transistors.J. Mater. Chem. C20208, 6496-6502.
[76]G. Zhang, R. Chen, Y. Sun, B. Kang, M. Sun, H. Lu, L. Qiu, K. Cho; Y. Ding. Improved charge transport in fused-ring bridged hemi-isoindigo-based small molecules by incorporating a thiophene unit for solution-processed organic field-effect transistors.J. Mater. Chem. C20208, 1398-1404.
[75]K. Huang, G. Huang, X. Wang, H. Lu, G. Zhang; L. Qiu. Air-Stable and High-Performance Unipolar n-Type Conjugated Semiconducting Polymers Prepared by a Strong Acceptor-Weak Donor Strategy.ACS Appl. Mat. Interfaces202012, 17802-17810.
[74]J. J. Cheng, F. Ge, C. Zhang, Y. Kuai, P. H. Hou, Y. F. Xiang, D. G. Zhang, L. Z. Qiu, Q. J. Zhang; G. Zou. Enabling discrimination capability in an achiral F6BT-based organic semiconductor transistorviacircularly polarized light induction.J. Mater. Chem. C20208, 9271-9275.
[73]J. Cheng, F. Ge, Y. Xiang, H. Zhang, Y. Kuai, P. Hou, D. Zhang, L. Qiu, Q. Zhang; G. Zou. Induction of circularly polarized electroluminescence from achiral poly(fluorene-alt-benzothiadiazole) by circularly polarized light.J. Mater. Chem. C20208, 6521-6527.
[71]X. H. Wang, Y. M. Zhu, G. H. Wang; L. Z. Qiu. Flexible and low-voltage phototransistor based on novel self-assembled phosphonic acids monolayers. Synth. Met.2020 269.
[70]J. Y. Wang, Y. P. Wei, Y. Y. Xu, Q. Wang, H. B. Lu, L. Z. Qiu; J. Zhu. Photoluminescence and electroluminescence properties of aligned CsPbBr3 nanowire films prepared by off-center spin-coating. Synth. Met. 2020 267.
2019年
[69]G. B. Zhang, Y. Zhao, B. Kang, S. Park, J. F. Ruan, H. B. Lu, L. Z. Qiu, Y. S. Ding; K. Cho. Fused Heptacyclic-Based Acceptor-Donor-Acceptor Small Molecules: N-Substitution toward High-Performance Solution-Processable Field-Effect Transistors.Chem. Mater.201931, 2027-2035.
[68]G. B. Zhang, M. X. Sun, W. W. Wang; L. Z. Qiu. Acceptor-donor-acceptor small molecules based on fuse ring and 2-(2-oxindolin-3-ylidene)malononitrile derivatives for solution-processed n-type organic field-effect transistors.Synth. Met.2019256.
[67]G. B. Zhang, S. X. Ma, W. W. Wang, Y. Zhao, J. F. Ruan, L. X. Tang, H. B. Lu, L. Z. Qiu; Y. S. Ding. Aza-Based Donor-Acceptor Conjugated Polymer Nanoparticles for Near-Infrared Modulated Photothermal Conversion.Frontiers in Chemistry20197.
[66]X. H. Wang, F. S. Zhao, Z. Xue, Y. Yuan, M. Huang, G. B. Zhang, Y. S. Ding; L. Z. Qiu. Highly Sensitive Polymer Phototransistor Based on the Synergistic Effect of Chemical and Physical Blending in D (Donor)-A (Acceptor) Copolymers.Advanced Electronic Materials20195.
[65]F. S. Tian, H. Chen, Y. C. Du, J. H. Chen, X. H. Wang, H. B. Lu, K. Cho, G. B. Zhang; L. Z. Qiu. Rational molecular design for isoindigo-based polymer semiconductors with high ductility and high electrical performance.J. Mater. Chem. C20197, 11639-11649.
[64]K. Q. Huang, X. Zhao, Y. C. Du, S. Kim, X. H. Wang, H. B. Lu, K. Cho, G. B. Zhang; L. Z. Qiu. Modulating charge transport characteristics of bis-azaisoindigo-based D-A conjugated polymers through energy level regulation and side chain optimization.J. Mater. Chem. C20197, 7618-7626.
[63]F. Ge, C. Zhang, H. B. Yao, G. B. Zhang, X. H. Wang; L. Z. Qiu. Precisely Controlling the Structure of Ultrathin Semiconducting Films by a Laminating Method for High-Performance Organic Field-Effect Transistors.ACS Appl. Mat. Interfaces201911, 48147-48154.
[62]Y. C. Du, H. B. Yao, L. Galuska, F. Ge, X. H. Wang, H. B. Lu, G. B. Zhang, X. D. Gu; L. Z. Qiu. Side-Chain Engineering To Optimize the Charge Transport Properties of Isoindigo-Based Random Terpolymers for High-Performance Organic Field-Effect Transistors.Macromolecules201952, 4765-4775.
[61]Y. C. Du, Y. F. Ding, F. Ge, X. H. Wang, S. X. Ma, H. B. Lu, G. B. Zhang; L. Z. Qiu. A regular ternary conjugated polymer bearing pi-extended diketopyrrole and isoindigo acceptor units for field-effect transistors and photothermal conversion.Dyes Pigm.2019164, 27-34.
2018年
[60]L. J. Zhang, Z. Liu, C. Xiong, L. Zheng, Y. S. Ding, H. B. Lu, G. B. Zhang; L. Z. Qiu. Selective recognition of Histidine enantiomers using novel molecularly imprinted organic transistor sensor.Org. Electron.201861, 254-260.
[59]L. Zhang, G. Wang, C. Xiong, L. Zheng, J. He, Y. Ding, H. Lu, G. Zhang, K. Cho; L. Qiu. Chirality detection of amino acid enantiomers by organic electrochemical transistor.Biosens. Bioelectron.2018105, 121-128.
[58]L. Zhang, G. Wang, D. Wu, C. Xiong, L. Zheng, Y. Ding, H. Lu, G. Zhang; L. Qiu. Highly selective and sensitive sensor based on an organic electrochemical transistor for the detection of ascorbic acid.Biosens. Bioelectron.2018100, 235-241.
[57]S. Y. Wei, F. S. Tian, F. Ge, X. H. Wang, G. B. Zhang, H. B. Lu, J. Yin, Z. Q. Wu; L. Z. Qiu. Helical Nanofibrils of Block Copolymer for High-Performance Ammonia Sensors.ACS Appl. Mat. Interfaces201810, 22504-22512.
[56]X. H. Wang, Z. Liu, S. Y. Wei, F. Ge, L. Y. Liu, G. B. Zhang, Y. S. Ding; L. Z. Qiu. Ultrathin semiconductor films for NH3 gas sensors prepared by vertical phase separation.Synth. Met.2018244, 20-26.
[55]G. H. Wang, K. Q. Huang, Z. Liu, Y. C. Du, X. H. Wang, H. B. Lu, G. B. Zhang; L. Z. Qiu. Flexible, Low-Voltage, and n-Type Infrared Organic Phototransistors with Enhanced Photosensitivity via Interface Trapping Effect.ACS Appl. Mat. Interfaces201810, 36177-36186.
[54]F. F. Wang, W. W. Wang, Y. Liu, Y. R. Dai, H. B. Lu, Y. S. Ding, L. Z. Qiu; G. B. Zhang. Bis(7-aza-2-oxoindolin-3-ylidene)dihydropyrroloindole-dione based D - A conjugated polymers for electron and ambipolar organic thin film transistors.Dyes Pigm.2018159, 238-244.
[53]F. F. Wang, Y. R. Dai, W. W. Wang, H. B. Lu, L. Z. Qiu, Y. S. Ding; G. B. Zhang. Incorporation of Heteroatoms in Conjugated Polymers Backbone toward Air-Stable, High-Performance n-Channel Unencapsulated Polymer Transistors.Chem. Mater.201830, 5451-5459.
[52]Y. Liu, F. Wang, J. Chen, X. Wang, H. Lu, L. Qiu; G. Zhang. Improved Transistor Performance of Isoindigo-Based Conjugated Polymers by Chemically Blending Strongly Electron-Deficient Units with Low Content To Optimize Crystal Structure.Macromolecules201851, 370-378.
[51]L. Y. Liu, Y. C. Du, F. Ge, X. H. Wang, G. B. Zhang, H. B. Lu; L. Z. Qiu. FePc induced highly oriented PIID-BT conjugated polymer semiconductor with high bias-stress stability.Appl. Phys. Lett.2018113.
[50]F. Ge, S. Wei, Z. Liu, G. Wang, X. Wang, G. Zhang, H. Lu, K. Cho; L. Qiu. Tailoring Structure and Field-Effect Characteristics of Ultrathin Conjugated Polymer Films via Phase Separation.ACS Appl. Mat. Interfaces201810, 9602-9611.
[49]F. Ge, Z. Liu, F. S. Tian, Y. C. Du, L. Y. Liu, X. H. Wang, H. B. Lu, Z. Q. Wu, G. B. Zhang; L. Z. Qiu. One-pot synthesized ABA tri-block copolymers for high-performance organic field-effect transistors.Polymer Chemistry20189, 4517.
[48]F. Ge, Z. Liu, S. B. Lee, X. H. Wang, G. B. Zhangpc, H. B. Lu, K. Cho; L. Z. Qiu. Bar-Coated Ultrathin Semiconductors from Polymer Blend for One-Step Organic Field-Effect Transistors.ACS Appl. Mat. Interfaces201810, 21510-21517.
[47]G. B. Zhang*, Y. R. Dai, Y. Liu, J. Q. Liu, H. B. Lu, L. Z. Qiu*; K. Cho. Facile green synthesis of isoindigo-based conjugated polymers using aldol polycondensation.Polymer Chemistry20178, 3448-3456.
2017年
[46]G. Zhang*, J. Chen, Y. Dai, S. Song, Z. Ye, H. Lu, L. Qiu*; K. Cho. Synthesis and optimization solid-state order using side-chain position of thieno-isoindigo derivative-based D–A polymers for high-performance ambipolar organic thin films transistors.Dyes Pigm.2017137, 221-228.
[45]G. Zhang, Y. Dai, D. Wang, Y. Liu, H. Lu, L. Qiu; K. Cho. Synthesis and characterization of thieno-isoindigo derivative-based near-infrared conjugated polymer for ambipolar field-effect transistors and photothermal conversion.Dyes Pigm.2017147, 175-182.
[44]F. F. Yu, S. H. Wu, X. H. Wang, G. B. Zhang, H. B. Lu; L. Z. Qiu*. Flexible and low-voltage organic phototransistors.Rsc Advances20177, 11572-11577.
[43]S. Wu, G. Wang, Z. Xue, F. Ge, G. Zhang, H. Lu; L. Qiu*. Organic Field-Effect Transistors with Macroporous Semiconductor Films as High-Performance Humidity Sensors.ACS Appl. Mat. Interfaces20179, 14974-14982.
[42]B. Kang, F. Ge, L. Qiu*; K. Cho*. Effective Use of Electrically Insulating Units in Organic Semiconductor Thin Films for High-Performance Organic Transistors.Advanced Electronic Materials20173, **.
[41]F. Ge, X. Wang, Y. Zhang, E. Song, G. Zhang, H. Lu, K. Cho; L. Qiu*. Modulating the Surface via Polymer Brush for High-Performance Inkjet-Printed Organic Thin-Film Transistors.Advanced Electronic Materials20173, **.
2016年
[40]M. Zhu, S. Lv, Q. Wang, G. Zhang*, H. Lu; L. Qiu*. Enhanced near-infrared photoresponse of organic phototransistors based on single-component donor-acceptor conjugated polymer nanowires.Nanoscale20168, 7738-7748.
[39]G. Zhang*, J. Zhang, G. Ding, J. Guo, H. Lu, L. Qiu*; W. Ma*. Synthesis and photovoltaic application of low-bandgap conjugated polymers by incorporating highly electron-deficient pyrrolo[3,4-d]pyridazine-5,7-dione units.Polymer201693, 213-220.
[38]G. Zhang*, J. Guo, J. Zhang, W. Li, X. Wang, H. Lu; L. Qiu*. Benzodithiophenedione and diketopyrrolopyrrole based conjugated copolymers for organic thin-film transistors by structure modulation.Dyes Pigm.2016126, 20-28.
[37]X. Wang, H. H. Choi, G. Zhang*, Y. Ding*, H.-B. Lu, K. Cho; L. Qiu*. Bis(2-oxoindolin-3-ylidene)-benzodifuran-dione and bithiophene-based conjugated polymers for high performance ambipolar organic thin-film transistors: impact of substitution positions on bithiophene units.J. Mater. Chem. C20164, 6391.
[36]Q. Wang, S. Wu, F. Ge, G. Zhang, H. Lu; L. Qiu*. Solution-Processed Microporous Semiconductor Films for High-Performance Chemical Sensors.Advanced Materials Interfaces20163, **.
[35]H. B. Lu*, X. Y. Xie, J. Xing, C. Xu, Z. Q. Wu, G. B. Zhang, G. Q. Lv; L. Z. Qiu*. Wavelength-tuning and band-broadening of a cholesteric liquid crystal induced by a cyclic chiral azobenzene compound.Opt. Mater. Express20166, 3145-3158.
[34]H. Lu*, C. Zhang, G. Xia, S. Wu, G. Zhang, J. Yang; L. Qiu*. Continuously tunable emission color based on the molecular aggregation of (2Z,2[prime or minute]Z)-2,2[prime or minute]-(1,4-phenylenae)bis(3-(4-(dodecyloxy)phenyl)acrylonitrile).RSC Advances20166, 96196-96201.
[33]D.-D. Li, J.-X. Wang, Y. Ma, H. Qian, D. Wang, L. Wang, G. Zhang*, L. Qiu*, Y. Wang; X.-Z. Yang*. A Donor-Acceptor Conjugated Polymer with Alternating Isoindigo Derivative and Bithiophene Units for Near-Infrared Modulated Cancer Thermo–Chemotherapy.ACS Appl. Mat. Interfaces20168, 19312-19320.
[32]D. Hu, Q. Wang, J. Yu, W. Hao, H. Lu, G. Zhang, X. Wang; L. Qiu*. Highly Stretchable Strain Sensors Using an Electrospun Polyurethane Nanofiber/Graphene Composite.J. Nanosci. Nanotech.201616, 5839-5842.
2015年
[31]G. B. Zhang*, J. H. Guo, M. Zhu, P. Li, H. B. Lu, K. Cho; L. Z. Qiu*. Bis(2-oxoindolin-3-ylidene)-benzodifuran-dione-based D-A polymers for high-performance n-channel transistors.Polymer Chemistry20156, 2531-2540.
[30]G. Zhang*, Z. Ye, P. Li, J. Guo, Q. Wang, L. Tang, H. Lu; L. Qiu*. A new thieno-isoindigo derivative-based D-A polymer with very low bandgap for high-performance ambipolar organic thin-film transistors.Polymer Chemistry20156, 3970-3978.
[29]G. Zhang*, J. Guo, J. Zhang, P. Li, J. Ma, X. Wang, H. Lu; L. Qiu*. A phthalimide- and diketopyrrolopyrrole-based A(1)-pi-A(2) conjugated polymer for high-performance organic thin-film transistors.Polymer Chemistry20156, 418-425.
[28]X. Wang*, M. Yuan, S. Lv, M. Qin, M. Chen, L. Qiu*, G. Zhang; H. Lu. Interfacial nucleation behavior of inkjet-printed 6,13 bis(tri-isopropylsilylethynyl) pentacene on dielectric surfaces.J. Appl. Phys.2015117, 024902.
[27]X. Wang, G. Lin, P. Li, G. Lv, L. Qiu*; Y. Ding*. High Stability Pentacene Transistors Using Polymeric Dielectric Surface Modifier.J. Nanosci. Nanotech.201515, 5867-5873.
[26]Q. Wang, M. Zhu, D. Wu, G. Zhang, X. Wang, H. Lu, X. Wang; L. Qiu. Phototransistors based on a donor-acceptor conjugated polymer with a high response speed.J. Mater. Chem. C2015, 10734-10741.
[25]R. Peng, B. Pang, D. Hu, M. Chen, G. Zhang, X.-h. Wang, H.-B. Lu, K. Cho; L. Qiu*. An ABA Triblock Copolymer Strategy for Intrinsically Stretchable Semiconductor.J. Mater. Chem. C20153, 3599-3606.
[24]G. Lin, Q. Wang, P. Li, M. Wang, H. Lu, G. Zhang, G. Lv; L. Qiu*. Impact of the lateral length scales of dielectric roughness on pentacene organic field-effect transistors.J. Phys. D: Appl. Phys.201548, 105103.
[23]P. Li, Q. Wang, X. Wang, H. Lu, G. Zhang, X. Wang; L. Qiu*. Investigation of the semiconductor/electrode interface in organic thin-film transistor using graphene electrodes.Synth. Met.2015202, 103-109.
2014年
[22]G. B. Zhang*, P. Li, L. X. Tang, J. X. Ma, X. H. Wang, H. B. Lu, B. Kang, K. Cho; L. Z. Qiu*. A bis(2-oxoindolin-3-ylidene)-benzodifuran-dione containing copolymer for high-mobility ambipolar transistors.Chem. Commun.201450, 3180-3183.
[21]G. Zhang*, M. Zhu, J. Guo, J. Ma, X. Wang, H. Lu; L. Qiu*. Benzodithiophene and benzotrithiophene-based conjugated polymers for organic thin-film transistors application: Impact of conjugated-and acyl-side chain.Org. Electron.201415, 2608-2615.
[20]Y. Wang, D. Hu, M. Chen, X. Wang, H. Lu, G. Zhang, X. Wang, Z. Wu; L. Qiu*. Modulation of surface solubility and wettability for high-performance inkjet-printed organic transistors.Org. Electron.201415, 3101-3110.
[19]H. B. Lu*, S. N. Zhang, A. X. Ding, M. Yuan, G. Y. Zhang, W. Xu, G. B. Zhang, X. H. Wang, L. Z. Qiu*; J. X. Yang*. A luminescent liquid crystal with multistimuli tunable emission colors based on different molecular packing structures.New J. Chem.201438, 3429-3433.
[18]H. B. Lu*, L. Z. Qiu*, G. Y. Zhang, A. X. Ding, W. B. Xu, G. B. Zhang, X. Wang, L. Kong, Y. P. Tian; J. X. Yang*. Electrically switchable photoluminescence of fluorescent-molecule-dispersed liquid crystals prepared via photoisomerization-induced phase separation.J. Mater. Chem. C20142, 1386-1389.
[17]X. Feng, Y. Wang, G. Q. Lin, X. H. Wang, X. H. Wang, G. B. Zhang, H. B. Lu; L. Z. Qiu*. Improving performance of selective-dewetting patterned organic transistors via semiconductor-dielectric blends.Synth. Met.2014194, 59-64.
[16]M. J. Chen, R. Peng, X. F. Xiong, S. Q. Chen, G. B. Zhang, H. B. Lu, X. H. Wang*; L. Z. Qiu*. Inkjet Printed Poly(3-hexylthiophene) Thin-Film Transistors: Effect of Self-Assembled Monolayer.Mol. Cryst. Liq. Cryst.2014593, 201-213.
2013年
[15]G. B. Zhang*, J. Y. Yuan, P. Li, J. X. Ma, H. B. Lu, L. Z. Qiu*; W. L. Ma*. Benzotrithiophene and benzodithiophene-based polymers for efficient polymer solar cells with high open-circuit voltage.Polymer Chemistry20134, 3390-3397.
[14]G. B. Zhang*, R. Peng, P. Li, X. H. Wang, H. B. Lu, J. S. Yu; L. Z. Qiu*. Organic thin-film transistors based on thieno 3,4-c pyrrole-4,6-dione conjugated polymer via oxidative polymerization.Synth. Met.2013180, 73-78.
[13]X. H. Wang, W. H. Lee, G. B. Zhang, X. H. Wang, B. Kang, H. B. Lu, L. Z. Qiu*; K. Cho*. Self-stratified semiconductor/dielectric polymer blends: vertical phase separation for facile fabrication of organic transistors.J. Mater. Chem. C20131, 3989-3998.
2012年
[12]L. Z. Qiu*, Q. Xu, M. J. Chen, X. H. Wang, X. H. Wang; G. B. Zhang. Low-temperature melt processed polymer blend for organic thin-film transistors.J. Mater. Chem.201222, 18887-18892.
[11]S. B. Jo, W. H. Lee, L. Z. Qiu*; K. Cho*. Polymer blends with semiconducting nanowires for organic electronics.J. Mater. Chem.201222, 4244-4260.
2011年
[10]L. Z. Qiu*, Q. Xu, W. H. Lee, X. H. Wang, B. Kang, G. Q. Lv; K. Cho*. Organic thin-film transistors with a photo-patternable semiconducting polymer blend.J. Mater. Chem.201121, 15637-15642.
2010年
[9]X. H. Wang, G. Q. Lv; L. Z. Qiu*. HIGH-PERFORMANCE POLYTHIOPHENE ORGANIC THIN-FILM TRANSISTORS PREPARED BY SOLVENT MIXING METHOD.Acta Polym. Sin.2010, 1470-1473.
2009年以前
[8]L. Z. Qiu, X. Wang, W. H. Lee, J. A. Lim, J. S. Kim, D. Kwak; K. Cho*. Organic Thin-Film Transistors Based on Blends of Poly(3-hexylthiophene) and Polystyrene with a Solubility-Induced Low Percolation Threshold.Chem. Mater.200921, 4380-4386.
[7]L. Z. Qiu, W. H. Lee, X. H. Wang, J. S. Kim, J. A. Lim, D. Kwak, S. Lee; K. Cho*. Organic Thin-film Transistors Based on Polythiophene Nanowires Embedded in Insulating Polymer.Adv. Mater.200921, 1349-1353.
[6]L. Qiu, J. A. Lim, X. Wang, W. H. Lee, M. Hwang; K. Cho*. Versatile use of vertical-phase-separation-induced bilayer structures in organic thin-film transistors.Adv. Mater.200820, 1141-1145.
[5]L. Z. Qiu; B. J. Qu*. Preparation and characterization of surfactant-free polystyrene/layered double hydroxide exfoliated nanocomposite via soap-free emulsion polymerization.J. Colloid Interface Sci.2006301, 347-351.
[4]L. Z. Qiu, W. Chen; B. J. Qu*. Morphology and thermal stabilization mechanism of LLDPE/MMT and LLDPE/LDH nanocomposites.Polymer200647, 922-930.
[3]L. Z. Qiu, W. Chen; B. J. Qu*. Structural characterisation and thermal properties of exfoliated polystyrene/ZnAl layered double hydroxide nanocomposites prepared via solution intercalation.Polym. Degrad. Stab.200587, 433-440.
[2]L. Z. Qiu, W. Chen; B. J. Qu*. Exfoliation of layered double hydroxide in polystyrene by in-situ atom transfer radical polymerization using initiator-modified precursor.Colloid. Polym. Sci.2005283, 1241-1245.
[1]L. Z. Qiu, R. C. Xie, P. Ding; B. J. Qu*. Preparation and characterization of Mg(OH)(2) nanoparticles and flame-retardant property of its nanocomposites with EVA.Compos. Struct.200362, 391-395.

专著教材

申请专利
（1）邱龙臻，吴少华，王庆贺，葛丰，薛战，一种溶液法制备多孔有机半导体薄膜的方法及应用，中国，2.7
（2）邱龙臻;张利君;吴迪.一种基于分子印迹膜的有机电化学晶体管传感器.中国，1.2 .
（3）邱龙臻，朱闵，王迎，王庆贺,一种用于喷墨打印有机薄膜晶体管的绝缘层修饰方法,中国, 8.9
（4）邱龙臻，胡大庆，王庆贺，王迎，朱闵，李鹏，庞博,一种基于氧化石墨烯电纺PU聚氨酯的弹性应力传感器，中国, 4.8
（5）邱龙臻、冯翔、林广庆、吕国强，一步法实现图案化和自修饰界面的有机薄膜晶体管制备方法，中国, 8.0
（6）邱龙臻、林广庆、夏亮、吕国强，一种电镀沉积法制备石墨烯膜的方法，中国,0.5，
（7）邱龙臻、徐琼、王晓鸿、吕国强，一种有机半导体材料及该材料制备有机薄膜晶体管的方法,中国,3.1
（8）邱龙臻、王晓鸿、吕国强，可紫外光刻微图案化的有机薄膜晶体管半导体材料及用途，中国,4.8
（9）邱龙臻、潘杰峰、夏亮、彭瑞、吕国强，一种棒-线-棒结构的聚3-己基噻吩类三嵌段共聚，中国, 7.4
(10)Cho, K.W.,Qiu, L.Z.,Lee, W.H.,Method of manufacturing organic semiconductor nanofibrillar network dispersed in insulating polymer using a blend of organic semiconductor/insulating polymer and organic thin film transistor using the same, (US**, EP**, KR, WO), 美国专利商标局,欧洲专利局，


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