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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. C20208, 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. 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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. 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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. 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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, 1600240. [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, 1600402. 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, 1600518. [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. 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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. 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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. |