Research ID: A-5867-2015

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 2022 年 SCI论文

 

  (205) Chen, J.; Yang, Y.; Dong, H.*; Li, J.*; Zhu, X.; Xu, J.; Pan, F.; Yuan, F.; Dai, J.; Jiao, B.; Hou, X.; Alex K.-Y. Jen and Wu, Z.*. Highly effici-

ent and stable perovskite solar cells enabled by low-dimensional perovskitoids. Science Advances, 2022 (DOI: 10.1126/sciadv.abk2722)

 

（204）Li, L.; He, X.; Xu, D.; Zhao, C.; Jiao, B.; Zuo, X.; Yu, Y. * and Wu, Z.*. Ultra-thick inverted green organic light-emitting diodes for high power efficiency over 300 lm/W. Organic Electronics, 101 (2022) 106414 【PDF】

 

（203）Liu, X.; Yuan, F.*; Zhu, C.; Li, J.*; Lv, X.; Xing, G.; Wei, Q.; Wang, G.; Dai, J.; Dong, H.; Xu, J.; Jiao, B. and Wu, Z.*. Near-unity blue luminance from lead-free copper halides for light-emitting diodes. Nano Energy, 91 (2022) 106664 【PDF】

 

2021 年 SCI论文

 

（202）Zhu, C.; Yuan, F.*; Liu, X.; Li, J.*; Dong, H.; Zhao, C.; Yan, L.; Xu, Y.; Dai, J.; Si, J.; Jiao, B. and Wu, Z.*. High Triplet Energy Level Molecule Enables Highly Efficient Sky-Blue Perovskite Light-Emitting Diodes. J. Phys. Chem. Lett. 2021, 12, 11723-11729 【PDF】

 

（201）Xu, J.; Dai, J.; Dong, H.*; Li, P.; Chen, J.; Zhu, X.; Wang, Z.; Jiao, B.; Hou, X.; Li, J.* and Wu, Z.*. Surface-tension release in PTAA-based inverted perovskite solar cells. Organic Electronics, 100 (2022) 106378 【PDF】

 

（200）Huang, S.; Liu, Z.; Xu, J.; Zhang, D.*; Dong, H.*; Wu, Z. and Duan L.*. Self-assembly monomolecular engineering towards efficient and stable inverted perovskite solar cells. Chemical Engineering Journal, 430 (2022) 132986 【PDF】

 

（199）Cao, X.; Li, J.*; Dong, H.*; Li, P.; Fan, Q.; Xu, R.; Li, H.; Zhou, G. and Wu, Z *. Stability Improvement of Tin-Based Halide Perovskite by Precursor-Solution Regulation with Dual-Functional Reagents. Adv. Funct. Mater. 2021, 31, 2104344 【PDF】

 

（198）Wang, Z.; Jiao, B.*; Huang, L.*; Zuo, X.; Zhang, W.; Li, Y.; Wang, J.; Dong, H.; Hou, X. and Wu, Z.*. Cohesively Enhancing the Conductance, Mechanical Robustness, and Environmental Stability of Random Metallic Mesh Electrodes via Hot-Pressing-Induced In-Plane Configuration. ACS Appl. Mater. Interfaces 2021, 13, 41836-41845 【PDF】

 

（197）Xu R.; Dong H.*; Li P.; Cao X.; Li H.; Li J. and Wu, Z.*. Formamidine Acetate Induces Regulation of Crystallization and Stabilization in Sn-Based Perovskite Solar Cells. ACS Appl. Mater. Interfaces, 2021, 13, 33218-33225 【PDF】

 

（196）Chen, X.; Sun, Y.; Zhao, X.; Deng, X.; Yang, X.*; Sun, Y.; Zhou, G.* and Wu, Z.*. Mono-, di- and tri-nuclear PtII(C^N) (N-donor ligand) Cl complexes showing aggregationinduced phosphorescent emission (AIPE) behavior for efficient solution-processed organic light-emitting devices. Mater. Chem. Front., 2021, 5, 4160-4173 【PDF】

 

（195）Xu, J.; Xi, J.*; Dong, H.*; Ahn, N.; Zhu, Z.; Chen, J.; Li, P.; Zhu, X.; Dai, J.; Hu, Z.; Jiao, B.; Hou, X.; Li J.* and Wu, Z.*. Impermeable inorganic “walls” sandwiching perovskite layer toward inverted and indoor photovoltaic devices. Nano Energy. 88 (2021) 106286【PDF】

 

（194）Wu, Y.; Yuan, F.*; Fu, F.; Liu, C.; Jiao, B.; Zhang, F.* and Wu, Z.*.  Enhanced performance of spectra stable blue perovskite light-emitting diodes through Poly(9-vinylcarbazole) interlayer incorporation. Organic Electronics, 96 (2021) 106259 【PDF】

 

（193）Dong, H.; Li, P.; Dai, J.*; Yuan, F.*; Xu, R.; Cao, X.; Li, H.; Hou, X.; Li J. and Wu, Z.*. High efficient and stable Tin-based perovskite solar cells via short-chain ligand modification. Organic Electronics, 96 (2021) 106198 【PDF】

 

（192）Feng, Z.; Yu, Y.; Yang, X.; Sun, Y.; Zhong, D.; Deng, X.; Zhou, G.* and Wu, Z.*. Manipulating MLCT transition character with ppy-type four-coordinate organoboron skeleton for highly efficient long-wavelength Ir-based phosphors in organic light-emitting diodes. J. Mater. Chem. C, 2021, 9, 12650 【PDF】

 

（191）Zhang, L.; Yuan, F.; Jiao, B.; Dong, H.; Li, J. and Wu, Z.*. Exploiting a Multiphase Pure Formamidinium Lead Perovskite for Efficient Green-Light-Emitting Diodes. ACS Appl. Mater. Interfaces, 2021, 13, 23067-23073. 【PDF】

 

（190）Yu, Y.; Xu, D.; Huang, C.; He, X,; Li, J.; Zhao,C.; Jiao, B.*; Fung, M.*;  Liao, L. and Wu, Z.*. Inverted with power efficiency over 220 lm W^-1, Nano Energy, 82 (2021) 105660. 【PDF】

 

2020 年 SCI论文

 

（189）Liu, X.; Yu, Y.; Yuan, F.; Zhao, C.; Dong, H.; Jiao, B.and Wu, Z.*. Vacuum Dual-Source Thermal-Deposited Lead-Free Cs₃Cu₂I₅ Films with High Photoluminescence Quantum Yield for Deep-Blue Light-Emitting Diodes. ACS Appl. Mater. Interfaces, 2020, 12, 52967-52975. 【PDF】

 

（188）Lei, T.; Xu, J.; Chen, J.; Zhu, X.; Jiao, B. and Wu, Z.*. An ultra-thin inorganic interlayer strategy for achieving efficient inverted planar perovskite solar cells and modules with high fill factor. Organic Electronics, 87 (2020) 105937. 【PDF】

 

（187）Xi, J.; Spanopoulos, I.; Bang, K.; Xu, J.; Dong, H.; Yang, Y.; Malliakas, C.;  Hoffman, J.; Kanatzidis, M.* and Wu, Z.*, Alternative Organic Spacers for More Efficient Perovskite Solar Cells Containing Ruddlesden-Popper Phases. J. Am. Chem. Soc., 2020, 142, 19705-19714. 【PDF】

 

（186）Lei, T.; Li, F.; Zhu, X.; Dong, H.*; Niu, Z.; Ye, S.; Zhao, W.; Xi, J.; Jiao, B.; Ding, L.* and Wu, Z.*. Flexible Perovskite Solar Modules with Functional Layers Fully Vacuum Deposited. Sol. RRL., 2020, 2000292 【PDF】

 

（185）Zhang, L.; Yuan, F.* ; Xi, J.; Jiao, B.; Dong, H.; Li, J.* and Wu, Z.*. Suppressing Ion Migration Enables Stable Perovskite Light-Emitting Diodes with All-Inorganic Strategy. Adv. Funct. Mater., 2020, 2001834 【PDF】

 

（184）Li, P.; Dong, H.*; Xu, J.; Chen, J.; Jiao, B.; Hou, X.; Li, J.* and Wu, Z.*. Ligand Orientation-Induced Lattice Robustness for Highly Efficient and Stable Tin-Based Perovskite Solar Cells. ACS Energy Lett., 2020, 5, 2327-2334 【PDF】

（183）Xu, J.; Dong, H.*; Xi, J.; Yang, Y.; Yu, Y.; Ma, L.; Chen, J.; Jiao, B.; Hou, X.; Li, J.*; Wu, Z.*. Local nearly non-strained perovskite lattice approaching a broad environmental stability window of efficient solar cells. Nano Energy, 75 (2020) 104940 【PDF】

（182）Chen, X.; Yang, H.; Yao, C.; Zhong, D.; Guo, H.; Yang, X.; Sun, Y.; Zhou, G.* Wu, Z.*. Optimized trade-off between electroluminescent stability and efficiency in solution-processed WOLEDs adopting functional iridium(III) complexes with 9-phenyl-9-phosphafluorene oxide (PhFlPO) moiety. Organic Electronics (2020), doi: https://doi.org/10.1016/j.orgel.2020.105797 【PDF】

（181）Niu, Z.; Lei, T.*; Dong, H.; Deng, Z.*; Zhao, W.; Li, F.; Ye, S.; Wu, Z.*. A cation-regulation strategy for achieving high-performance perovskite solar cells via a fully-evaporation process. Organic Electronics, 82 (2020) 105710 【PDF】

（180）Yang, X.; Yue, L.; Yu, Y.; Liu, B.; Dang, J.; Sun, Y.; Zhou, G.*; Wu, Z.* and Wong, W.*. Strategically Formulating Aggregation-Induced EmissionActive Phosphorescent Emitters by Restricting the Coordination Skeletal Deformation of Pt(II) Complexes Containing Two Independent Monodentate Ligands. Advanced Optical Materals, 2020, 2000079 【PDF】

（179）Yuan, F.; Ran, C.; Zhang, L.; Dong, H.; Jiao, B.; Hou, X.; Li, J. and Wu, Z.*. A Cocktail of Multiple Cations in Inorganic Halide Perovskite toward Efficient and Highly Stable Blue Light-Emitting Diodes. ACS Energy Lett., 2020, 5, 1062-1069 【PDF】

（178）Song, D.; Yu, Y.; Yue, L.; Zhong, D.; Zhang, Y.; Yang, X.; Sun, Y.; Zhou, G.*, Wu, Z.*. Asymmetric thermally activated delayed fluorescence (TADF) emitters with 5,9-dioxa-13b-boranaphtho[3,2,1-de]anthracene (OBA) as acceptor and highly efficient blue-emitting OLEDs. Journal of Materials Chemistry C, 2020, 8, 5349-5354 【PDF】

（177）Dai, J.; Xi, J.; Zu, Y.; Li, K.; Xu, J.; Shi, Y.; Liu, X.; Fan, Q.; Zhang, J.; Wang, S.; Yuan, F.; Dong, H.; Jiao, B.; Hou, X.;Wu, Z.*. Surface mediated ligands addressing bottleneck of room-temperature synthesized inorganic perovskite nanocrystals toward efficient light-emitting diodes. Nano Energy ,  70 (2020) 104467 【PDF】

（176） Zu, Y.; Xi, J.;  Li, L.; Dai, J.; Wang, S.; Yun, F.; Jiao, B.; Dong, H.; Hou, X. and Wu, Z.*. High-Brightness and Color-Tunable FAPbBr₃ Perovskite Nanocrystals 2.0 Enable Ultrapure Green Luminescence for Achieving Recommendation 2020 Displays. ACS Applied. Materals. Interfaces, 2020, 12, 2835-2841 【PDF】

（175）Wang, Z.; Jiao, B.; Qing, Y.; Nan, H.; Huang, L.; Wei, W.; Peng, Y.; Yuan, F.; Dong, H.; Hou, X. and Wu, Z.*. Flexible and Transparent Ferroferric Oxide-Modified Silver Nanowire Film for Efficient Electromagnetic Interference Shielding. ACS Applied. Materals. Interfaces, 2020, 12, 2826-2834 【PDF】

（174）Zhang, Y.; Chen, X.; Song, D.; Zhong, D.; Yang, X.; Sun, Y,; Liu, B.; Zhou, G.* and Wu, Z.*. Unsymmetric 2-phenylpyridine (ppy)-type cyclometalated Ir(III) complexes bearing both 5,9-dioxa-13b-boranaphtho[3,2,1-de]anthracene and phenylsulfonyl groups for tuning optoelectronic properties and electroluminescence abilities.Inorg. Chem. Front., 2020, 7, 1651-1666 【PDF】

（173）Chen, J.; Dong, H.*; Zhang, L.; Li, J.; Jia, F.; Jiao, B.; Xu, J.; Hou, X.; Liu, J.* and Wu, Z.*. Graphitic carbon nitride doped SnO2 enabling efficient perovskite solar cells with PCEs exceeding 22%. Journal of Materials Chemistry A, 2020, 8, 2644-2653 【PDF】

 

2019 年 SCI论文

 

（172）Ran, C.; Gao, W.; Li, J.; Xi, J.; Li, L.; Dai, J.; Yang, Y.; Gao, X.; Dong, H.; Jiao, B.; Spanopoulos, I.; Malliakas, C.; Hou, X.; Kanatzidis, M.* and Wu, Z.*, Conjugated Organic Cations Enable Efficient Self-Healing FASnI₃ Solar Cells, Joule, 2019, 3, 3072-3087 【PDF】

（171）Zu, Y.; Dai, J.; Li, L.; Yuan, F.; Chen, X.; Feng, Z.;Li, K.; Song, X.; Yun, F.; Yu, Y.; Jiao, B.; Dong, H.; Hou, X.; Ju, M. *and Wu, Z.*, Ultra-stable CsPbBr3 nanocrystals with near-unity photoluminescence quantum yield via postsynthetic surface engineering, Journal of Materials Chemistry A, 2019, 7, 26116-26122 【PDF】

（170）Gao, W.; Li, P.; Chen, J.; Ran, C.and Wu, Z.*, Interface Engineering in Tin Perovskite Solar Cells, Advanced Materials Interfaces, 2019, 6, 1901322 【PDF】

（169）Li, P.; Gao, W.;* Ran, C.; Dong, H.; Hou, X. and Wu, Z.*, Post-Treatment Engineering of Vacuum-Deposited Cs₂NaBiI₆ Double Perovskite Film for Enhanced Photovoltaic Performance, Phys. Status Solidi A 2019, 216, 1900567 【PDF】

（168）Zheng, Y.; Su, R.; Xu, Z.; Luo, D.; Dong, H.; Jiao, B.; Wu, Z.; Gong, Q.; Zhu, R.*, Perovskite solar cell towards lower toxicity: a theoretical study of physical lead reduction strategy, Science Bulletin, 64 (2019) 1255-1261 【PDF】

（167）Wang, G.; Li, J.; Li, Y.; Wang, D.; Zhang, J.; Wu, Y.; Zhen, Y.*, Tang, Q.; Ma, H.*, Hu, W.; Wu, Z. and Alex K.-Y. Jen, A new type of solid-state luminescent 2-phenylbenzo[g]furo[2,3-b]quinoxaline derivative: synthesis, photophysical characterization and transporting properties, Journal of Materials Chemistry C, 2019, 7, 9690-9697 【PDF】

 

（166）Sun, Y.; Yang, X.; Liu, B.; Dang, J.; Li, Y.; Zhou, G.*; Wu, Z.*and Wai-Yeung Wong *, Towards high performance solution-processed orange organic light-emitting devices: preciselyadjusting properties of Ir(III) complexes by reasonably engineering the asymmetric configuration with second functionalized cyclometalating ligands, Journal of Materials Chemistry C, 2019, 7, 8836-8846 【PDF】

（165）Zhong, D.; Yu, Y.; Song, D.; Yang, X.; Zhang, Y.; Chen, X.; Zhou, G.*, and Wu, Z.*, Organic Emitters with a Rigid 9-Phenyl-9-phosphafluorene Oxide Moiety as the Acceptor and Their Thermally Activated Delayed Fluorescence Behavior, ACS Applied. Materals. Interfaces, 2019, 11, 27112-27124 【PDF】

 

（164）Sun, Y.; Yang, X.; Feng, Z.; Liu, B.;Zhong, D.; Zhang, J.; Zhou, G.* and Wu, Z.*, Highly Efficient Deep-Red Organic Light-Emitting Devices Based on Asymmetric Iridium(III) Complexes with the Thianthrene 5,5,10,10-Tetraoxide Moiety, ACS Applied. Materals. Interfaces, 2019, 11, 26152-26164 【PDF】

（163）Wei, F.; Jiao, B.; Dong, H.*, Xu, J.; Lei, T.; Zhang, J.; Yu, Y.; Ma, L.; Wang, D.; Chen, J.; Hou X. and Wu, Z.*, Bifunctional p-conjugated ligand assisted stable and efficient perovskite solar cell fabrication via interfacial stitching, Journal of Materials Chemistry A, 2019, 7, 16533-16540 【PDF】

 

（162）Xi, J.; Piao, C.; Byeon, J.; Yoon, J.; Wu, Z.* and Mansoo Choi*, Rational Core-Shell Design of Open Air Low Temperature In Situ Processable CsPbI3 Quasi-Nanocrystals for Stabilized p-i-n Solar Cells, Advanced Energy Materals, 2019, 9, 1901787 【PDF】

（161）Feng, Z.; Yu, Y.; Yang, X.; Zhong, D.; Song, D.; Yang, H.; Chen, X.; Zhou, G.* and Zhaoxin Wu, Z.*, Isomers of Coumarin-Based Cyclometalated Ir(III) Complexes with Easily Tuned Phosphorescent Color and Features for Highly Efficient Organic Light-Emitting Diodes, Inorganic chemistry, 2019, 58, 7393-7408 【PDF】

 

（160）Yu, Y.; Ma, L.*; Feng, Z.; Liu, B.; Zhou, H.; Qin, H.; Li, H.; Song, J.; Zhou,G.* and Wu, Z.*, Strategy for achieving effiffifficient electroluminescence with reduced effiffifficiency roll-offff: enhancement of hot excitons spin mixing and restriction of internal conversion by twisted structure regulation using an anthracene derivative, Journal of Materials Chemistry C, 2019, 7, 5604-5614 【PDF】

 

（159）Dong, H.; Xi, J.; Zuo, L.; Li, J.; Yang, Y.; Wang, D.; Yu, Y.; Ma, L.; Ran, C.; Gao, W.; Jiao, B.; Xu, J.; Lei, T.;Wei, F.; Yuan, F.; Zhang, L.; Shi, Y.; Hou, X. and Wu, Z.*, Conjugated Molecules “Bridge”: Functional Ligand toward Highly Efficient and Long-Term Stable Perovskite Solar Cell, Advanced Functional Materals, 2019, 29, 1808119 【PDF】

 

（158）Zhang, W.; Lei, X.; Liu, J.; Dong, J.; Yan, X.; Gao, W.; Dong, H.; Ran, C.; Wu, Z., Efficient Charge Collection Promoted by Interface Passivation Using Amino Acid Toward High Performance Perovskite Solar Cells. Physica Status Solidi-Rapid Research Letters 2019, 13 (2).【PDF】

 

（157）Yang, X.; Guo, H.; Xu, X.; Sun, Y.; Zhou, G.; Ma, W.; Wu, Z., Enhancing Molecular Aggregations by Intermolecular Hydrogen Bonds to Develop Phosphorescent Emitters for High-Performance Near-Infrared OLEDs. Advanced Science 2019, 6 (7).【PDF】

 

（156）Xu, C.; Zhuang, B.; Geng, Y.; Chen, H.; Ren, L.; Wu, Z., A scanning-free wide-field single-fiber endoscopic image retrieval method based on optical transmission matrix. Laser Physics 2019, 29 (4).【PDF】

 

（155）Xi, J.; Xi, K.; Sadhanala, A.; Zhang, K. H. L.; Li, G.; Dong, H.; Lei, T.; Yuan, F.; Ran, C.; Jiao, B.; Coxon, P. R.; Harris, C. J.; Hou, X.; Kumar, R. V.; Wu, Z., Chemical sintering reduced grain boundary defects for stable planar perovskite solar cells. Nano Energy 2019, 56, 741-750.【PDF】

 

（154）Ran, C.; Gao, W.; Li, N.; Xia, Y.; Li, Q.; Wu, Z.; Zhou, H.; Chen, Y.; Wang, M.; Huang, W., Facet-Dependent Control of PbI2 Colloids for over 20% Efficient Perovskite Solar Cells. Acs Energy Letters 2019, 4 (1), 358-367.【PDF】

 

（153）Guo, C.; Sun, Y.; Jia, Q.; Jiang, Z.; Jiang, D.; Wang, G.; Xu, Y.; Wang, T.; Tian, J.; Wu, Z.; Niu, Z., Wide spectrum responsivity detectors from visible to mid-infrared based on antimonide. Infrared Physics & Technology 2019, 96, 1-【PDF】

 

 2018 年 SCI论文

（152）Gao, W.; Ran, C.; Li, J.; Dong, H.; Jiao, B.; Zhang, L.; Lan, X.; Hou, X.; Wu, Z., Robust Stability of Efficient Lead-Free Formamidinium Tin Iodide Perovskite Solar Cells Realized by Structural Regulation. Journal of Physical Chemistry Letters 2018, 9 (24), 6999-7006.【PDF】

 

（151）Zhang, L.; Yuan, F.; Dong, H.; Jiao, B.; Zhang, W.; Hou, X.; Wang, S.; Gong, Q.; Wu, Z., One-Step Co-Evaporation of All -Inorganic Perovskite Thin Films with Room-Temperature Ultralow Amplified Spontaneous Emission Threshold and Air Stability. Acs Applied Materials & Interfaces 2018, 10 (47), 40661-40671.【PDF】

 

（150）Shi, Y.; Wu, W.; Dong, H.; Li, G.; Xi, K.; Divitini, G.; Ran, C.; Yuan, F.; Zhang, M.; Jiao, B.; Hou, X.; Wu, Z., A Strategy for Architecture Design of Crystalline Perovskite Light-Emitting Diodes with High Performance. Advanced Materials 2018, 30 (25).【PDF】

 

（149）Yu, Y.; Ma, L.; Yang, X.; Zhou, H.; Qin, H.; Song, J.; Zhou, G.; Wang, D.; Wu, Z., High Efficiency Fluorescent Electroluminescence with Extremely Low Efficiency Roll-Off Generated by a Donor-Bianthracene-Acceptor Structure: Utilizing Perpendicular Twisted Intramolecular Charge Transfer Excited State. Advanced Optical Materials 2018, 6 (15).【PDF】

 

 

（148）Feng, Z.; Wang, D.; Yang, X.; Jin, D.; Zhong, D.; Liu, B.; Zhou, G.; Ma, M.; Wu, Z., Asymmetric Heteroleptic Ir(III) Phosphorescent Complexes with Aromatic Selenide and Selenophene Groups: Synthesis and Photophysical, Electrochemical, and Electrophosphorescent Behaviors. Inorganic Chemistry 2018, 57 (17), 11027-11043.【PDF】

 

（147）Ning, S. et al. Enhanced lasing from organic gain medium by Au nanocube@SiO2 core-shell nanoparticles with optimal size. Optical Materials Express 8, 3014-3022, doi:10.1364/ome.8.003014 (2018).【PDF】

 

（146）Dang, W. et al. Asymmetric tris-heteroleptic iridium(iii) complexes containing three different 2-phenylpyridine-type ligands: a new strategy for improving the electroluminescence ability of phosphorescent emitters. Journal of Materials Chemistry C 6, 9453-9464, doi:10.1039/c8tc02940g (2018).【PDF】

 

（145）Yang, X. et al. Diarylboron-Based Asymmetric Red-Emitting Ir(III) Complex for Solution-Processed Phosphorescent Organic Light-Emitting Diode with External Quantum Efficiency above 28%. Advanced Science 5, doi:10.1002/advs.201701067 (2018).【PDF】

 

（144） Lei, T. et al. Highly-efficient and low-temperature perovskite solar cells by employing a Bi-hole transport layer consisting of vanadium oxide and copper phthalocyanine. Chemical Communications 54, 6177-6180, doi:10.1039/c8cc03672a (2018).【PDF】

 

 （143） Dong, H. et al. Plasmonic enhancement for high efficient and stable perovskite solar cells by employing "hot spots" Au nanobipyramids. Organic Electronics 60, 1-8, doi:10.1016/j.orgel.2018.05.030 (2018).【PDF】

 

 （142）Yuan, F. et al. All-Inorganic Hetero-Structured Cesium Tin Halide Perovskite Light-Emitting Diodes With Current Density Over 900Acm(-2) and Its Amplified Spontaneous Emission Behaviors. Physica Status Solidi-Rapid Research Letters 12, doi:10.1002/pssr.201800090 (2018).【PDF】

 （141） Zhang, M. et al. High performance organo-lead halide perovskite light-emitting diodes via surface passivation of phenethylamine. Organic Electronics 60, 57-63, doi:10.1016/j.orgel.2018.05.026 (2018).d-trip imaging through scattering media based on optical transmission matrix. Chinese Optics Letters 16, doi:10.3788/col201816.041102 (2018).【PDF】

 

 （140）Dai, J. et al. Charge Transport between Coupling Colloidal Perovskite Quantum Dots Assisted by Functional Conjugated Ligands. Angewandte Chemie (International ed. in English), doi:10.1002/anie.201801780 (2018).【PDF】

 

（139）Gao, W. et al. High Quality Cs2AgBiBr6 Double Perovskite Film for Lead-Free Inverted Planar Heterojunction Solar Cells with 2.2% Efficiency. Chemphyschem : a European journal of chemical physics and physical chemistry, doi:10.1002/cphc.201800346 (2018).【PDF】

 

（138）Zhuang, B. et al. Round-trip imaging through scattering media based on optical transmission matrix. Chinese Optics Letters 16, doi:10.3788/col201816.041102 (2018).【PDF】

（137）Zhao, J. et al. Cyclometalated Platinum Complexes with Aggregation-Induced Phosphorescence Emission Behavior and Highly Efficient Electroluminescent Ability. Chemistry of Materials 30, 929-946, doi:10.1021/acs.chemmater.7b04708 (2018).【PDF】

 

（136）Xi, J. et al. Deciphering perovskite crystal growth in interdiffusion protocol for planar heterojunction photovoltaic devices. Organic Electronics 53, 88-95, doi:10.1016/j.orgel.2017.11.011 (2018).【PDF】

 

（135）Ran, C. et al. Bilateral Interface Engineering toward Efficient 2D-3D Bulk Heterojunction Tin Halide Lead-Free Perovskite Solar Cells. Acs Energy Letters 3, 713-721, doi:10.1021/acsenergylett.8b00085 (2018).【PDF】

 

（134）Ma, L. et al. Efficient amplified spontaneous emission based on pi-conjugated fluorophore-cored molecules studied by density functional theory. Organic Electronics 57, 123-132, doi:10.1016/j.orgel.2018.02.042 (2018).【PDF】

 

（133）Guo, C. et al. Visible-extended mid-infrared wide spectrum detector based on InAs/GaSb type-II superlattices (T2SL). Infrared Physics & Technology 89, 147-153, doi:10.1016/j.infrared.2017.12.020 (2018).【PDF】

（132）Dong, H. et al. Pseudohalide-Induced Recrystallization Engineering for CH3NH3PbI3 Film and Its Application in Highly Efficient Inverted Planar Heterojunction Perovskite Solar Cells. Advanced Functional Materials 28, doi:10.1002/adfm.201704836 (2018).【PDF】

（131）Shi, Y. et al. Rubidium Doping for Enhanced Performance of Highly Efficient Formamidinium-Based Perovskite Light-Emitting Diodes. ACS Applied Materials & Interfaces, doi:10.1021/acsami.8b00079 (2018)【PDF】

2017 年 SCI论文

（130）Liu, Boao ; Dang, Feifan; Tian, Zhuanzhuan; Feng, Zhao; Jin, Deyuan; Dang, Wanping ; Yang, Xiaolong; Zhou, Guijiang; Wu, Zhaoxin,High Triplet Energy Level Achieved by Tuning the Arrangement of Building Blocks in Phosphorescent Polymer Backbones for Furnishing High Electroluminescent Performances in Both Blue and White Organic Light-Emitting Devices,ACS APPLIED MATERIALS & INTERFACES, 2017.9.19:16360-16374  【PDF】

（129）Zhao, Jiang; Dang, Feifan; Liu, Boao ; Wu, Yong; Yang, Xiaolong; Zhou, Guijiang; Wu, Zhaoxin; Wong, Wai-Yeung,Bis-Zn-II salphen complexes bearing pyridyl functionalized ligands for efficient organic light-emitting diodes (OLEDs), DALTON TRANSACTIONS, 2017,46,18:6098-6110 【PDF】

(128) Guo Chun-Yan; Xu Jian-Xing) ; Peng Hong-Ling ; Ni Hai-Qiao ; Wang Tao ; Tian Jin-Shou; Niu Zhi-Chuan ; Wu Zhao-Xin ; Zuo Jian ; Zhang Cun-Lin;Transfer process of LT-GaAs epitaxial films for on-chip terahertz antenna integrated device;JOURNAL OF INFRARED AND MILLIMETER WAVES;2017.36.2:220【PDF】

(127) Zhang, Wenfei; Liang, Jian; Ren, Liyong ; Ju, Haijuan; Qu, Enshi; Bai, Zhaofeng; Tang, Yao; Wu, Zhaoxin;Real-time image haze removal using an aperture-division polarimetric camera;APPLIED OPTICS; 2017.56.4:942-947.【PDF】

(126) Ran, Chenxin ; Wu, Zhaoxin ; Xi, Jun ; Yuan, Fang ; Dong, Hua ; Lei, Ting; He, Xin; Hou, Xun;Construction of Compact Methylammonium Bismuth Iodide Film Promoting Lead-Free Inverted Planar Heterojunction Organohalide Solar Cells with Open-Circuit Voltage over 0.8 V;JOURNAL OF PHYSICAL CHEMISTRY LETTERS; 2017.8.2:394-400【PDF】

(125) Guo, Haoran; Zhao, Jiang ; Tian, Zhuanzhuan ; Wu, Yong ; Liu, Boao ; Dang, Feifan); Yang, Xiaolon; Zhou, Guijiang; Wu, Zhaoxin; Wong, Wai-Yeung;Homoleptic thiazole-based Ir-III phosphorescent complexes for achieving both high EL efficiencies and an optimized trade-off among the key parameters of solution-processed WOLEDs;JOURNAL OF MATERIALS CHEMISTRY C;2017.5.1:208-219【PDF】

(124) Chen Nana; Fan Shuwei; Wu Zhaoxin ; JJiao Bo ; SShen Li Jia So, F; Adachi, C; Kim, JJ;Simulation and optimization for the optical performance of Top-emitting OLED;ORGANIC LIGHT EMITTING MATERIALS AND DEVICES XXI.2017.10362

(123)  Zhang, Wenfei ; Liang, Jian ; Ju, Haijuan ; Ren, Liyong; Qu, Enshi; Wu, Zhaoxin;Study of visibility enhancement of hazy images based on dark channel prior in polarimetric imaging;OPTIK;2017.130: 123-130【PDF】

 

(122) Ren, Kaili ; Ren, Liyong ; Liang, Jian ; Kong, Xudong ; Ju, Haijuan; Wu, Zhaoxin,Online and Efficient Fabrication of Helical Long-Period Fiber Gratings,IEEE PHOTONICS TECHNOLOGY LETTERS,2017.29.14: 1175-1178 

 

(121) Zhao, Jiang ; Dang, Feifan ; Feng, Zhao ; Liu, Boao ; Yang, Xiaolong ; Wu, Yong; Zhou, Guijiang ; Wu, Zhaoxin ; Wong, Wai-Yeung,Highly efficient electroluminescent Pt-II ppy-type complexes with monodentate ligands,CHEMICAL COMMUNICATIONS,2017.53.54:7581-7584 【PDF】

(120) Ren, Kaili ; Ren, Liyong Liang, Jian ; (Kong, Xudong ; Ju, Haijuan ; Wu, Zhaoxin,Highly Strain and Bending Sensitive Microtapered Long-Period Fiber Gratings,IEEE PHOTONICS TECHNOLOGY LETTERS, 2017.29.13:1085-1088【PDF】

(119) Liu, Boao; Dang, Feifan;Feng, Zhao; Tian, Zhuanzhuan ;Zhao, Jiang ; Wu, Yong; Yang, Xiaolong ;hou, Guijiang ;Wu, Zhaoxin; Wong, Wai-Yeung;Novel iridium(III) complexes bearing dimesitylboron groups with nearly 100% phosphorescent quantum yields for highly efficient organic light-emitting diodes;JOURNAL OF MATERIALS CHEMISTRY C,2017.5:7871-7883.【PDF】

 

(118) Yang, Xiaolong ; Yan, Xiaogang ; Guo, Haoran Liu, Boao ;Zhao, Jiang ; Zhou, Guijiang ; (Wu, Yong ; Wu, Zhaoxin ; Wong, Wai-Yeung;Charged dinuclear Cu(I) complexes for solution-processed single emitter warm white organic light-emitting devices;DYES AND PIGMENTS;2017.143:151-164.【PDF】

 

(117)Zhang, Wenfei ;Liang, Jian ; Ren, Liyong ; Ju, Haijuan ; Bai, Zhaofeng; Wu, Zhaoxin;Fast polarimetric dehazing method for visibility enhancement in HSI colour space;JOURNAL OF OPTICS;2017.19.9 

(116) Ning,Shuya;Wu,Zhaoxin;Zhang,Naming;Ding, Lei ;Hou, Xun ;Zhang, Fanghui;Plasmonically enhanced lasing by different size silver nanoparticlessilver film hybrid structure;ORGANIC ELECTRONICS;2017,50:403-410【PDF】

 

(115) Zhao, Jiang ; Liu, Boao ; Feng, Zhao ; Jin, Deyuan;Dang, Wanping ; Yang, Xiaolong ; Zhou, Guijiang ; Wu, Zhaoxin ; Wong, Wai-Yeung;Coordination polymers based on bis-Zn-II salphen complexes and functional ditopic ligands for efficient polymer light-emitting diodes (PLEDs);POLYMER CHEMISTRY; 2017,8.41： 6368-6377【PDF】 

 (114) Fang Yuan†, Zhaoxin Wu*† , Hua Dong†, Jun Xi†, Kai Xi§, Giorgio Divitini§, Bo Jiao†, Xun Hou†, Shufeng Wang‡, and Qihuang Gong‡  “High Stability and Ultralow Threshold Amplified Spontaneous Emission from Formamidinium Lead Halide Perovskite Films”J. Phys. Chem. C, 2017, 121 (28), pp 15318–15325【PDF】 

 

 (113) Yu, Yue; Ma, Lin ; Wang, Dongdong] ; Zhou, Huixin ; Yao, Bo; Wu, Zhaoxin;Suppression of efficiency roll-off in TADF-OLEDs using Ag-island nanostructures with localized surface plasmon resonance effect;ORGANICELECTRONICS;2017.51：173-179【PDF】 

 

（112)Jun Xi, Zhaoxin Wu,* Bo Jiao, Hua Dong, Chenxin Ran, Chengcheng Piao, Ting Lei,Tze-Bin Song, Weijun Ke, Takamichi Yokoyama, Xun Hou, and Mercouri G. Kanatzidis*Multichannel Interdiffusion Driven FASnI3 Film FormationUsing Aqueous Hybrid Salt/Polymer Solutions toward Flexible Lead-Free Perovskite Solar Cells, Advanced Materials,2017, 1606964 .

 

（111)Guo, Haoran,Zhao, Jiang,Tian, Zhuanzhuan,Wu, Yong,Liu, Boao,Dang, Feifan,Yang, Xiaolong,Zhou, Guijiang*,Wu, Zhaoxin*,Wong, Wai-Yeung*,Homoleptic thiazole-based Ir-III phosphorescent complexes for achieving both highEL efficiencies and an optimized trade-off among the key parameters of solution-processed WOLEDs, Journal of Materials Chemistry C,2017.01.01,5(1)：208~219 . 【PDF】

 

（110）Chenxin Ran, Zhaoxin Wu,*Jun Xi, Fang Yuan, Hua Dong, Ting Lei, Xin He, and Xun Hou,Construction of Compact Methylammonium Bismuth Iodide Film Promoting Lead-Free Inverted Planar Heterojunction Organohalide Solar Cells with Open-Circuit Voltage over 0.8 V,J. Phys. Chem. Lett. 2017, 8, 394−400  . 【PDF】

 

2016 年 SCI论文

(109)  . Jiao, Bo; Zhu, Xiaobo; Wu, Wen; Dong, Hua; Xia, Bin; Xi, Jun; Lei, Ting; Hou, Xun; Wu, Zhaoxin*, A facile one-step solution deposition via non-solvent/solvent mixture for efficient organometal halide perovskite light-emitting diodes. Nanoscale, 2016, 8: 11084-90.【PDF】

(108)  .  Xia, Bin; Wu, Zhaoxin*;Dong, Hua;Xi, Jun;Wu, Wen;Lei, Ting;Xi, Kai;Yuan, Fang;Jiao, Bo;Xiao, Lixin;Gong, Qihuang;Hou, Xun, Formation of ultrasmooth perovskite films toward highly efficient inverted planar heterojunction solar cells by micro-flowing anti-solvent deposition in air. Journal of Materials Chemistry A, 2016, 4: 6295-6303.【PDF】

 

(107)  .  Li, Lu;Jiao, Bo;Li, Sanfeng;Ma, Lin;Yu, Yue;Wu, Zhaoxin*, High thermal stability fluorene-based hole-injecting material for organic light-emitting devices. Optical Materials, 2016, 53: 19-23.【PDF】

 

(106)  .  Ma, Lin;Wu, Zhaoxin*;Lei, Ting;Yu, Yue;Yuan, Fang;Jiao, Bo;Hou, Xun, Naphthyl-functionalized oligophenyls: Photophysical properties, film morphology, and amplified spontaneous emission. Optical Materials, 2016, 54: 37-44.【PDF】

(105)  .  Hu, Jinbo;Yu, Yue;Jiao, Bo;Ning, Shuya;Dong, Hua;Hou, Xun;Zhang, Zhengjun;Wu, Zhaoxin*, Realizing improved performance of down-conversion white organic light-emitting diodes by localized surface plasmon resonance effect of Ag nanoparticles, Organic Electronics, 2016, 31: 234-239.【PDF】

 

(104)  .    Jun Xi , Zhaoxin Wu* , Kai Xi ,Hua Dong , Bin Xia , Ting Lei , Fang Yuan ,Wen Wu , Bo Jiao , XunHou,Initiating crystal growth kinetics of a-HC(NH2)2PbI3 for flexible solarcells with long-term stability,Nano Energy ,2016,26:438-445.【PDF】

                    

(103)  .   Zhang, Wenfei;Liang, Jian; Ju, Haijuan; Ren, Liyong; Qu, Enshi,Zhaoxin Wu*,A robust haze-removal scheme in polarimetricdehazing imaging based on automatic identification of sky region,Optics and Laser Technology,2016,86: 145-151.
【PDF】

 

(102)  .   Zhao, Yukun; Yun, Feng; Huang, Yi; Zhaoxin Wu*; Li, Yufeng;Jiao, Bo;Feng, Lungang; Li, Sanfeng;Ding, Wen; Zhang, Ye, Efficiency roll-off suppression in organic light-emitting diodes using size-tunable bimetallic bowtie nanoantennas at high current densities,Applied Physics Letters, 2016,109(1). 【PDF】

 

(101)  .    Ning, Shuya; Zhaoxin Wu*; Dong, Hua; Ma, Lin; Jiao, Bo; Ding, Lei; Ding, Liping; Zhang, Fanghui,The enhanced random lasing from dye-doped polymer films with different-sized silver nanoparticles,Organic Electronics,2016,30:165-170.【PDF】

(100) Ning, Shuya; Zhaoxin Wu*; Dong, Hua; Ma, Lin; Hou, Xun; Zhang, Fanghui,Enhancement of lasing in organic gain media assisted by the metallic nanoparticles-metallic film plasmonic hybrid structure,Journal of   MaterialsChemistryC,2016,4(24):5717-5724.【PDF】

 

2015 年 SCI论文

2014 年 SCI论文

 

2013 年 SCI论文

(60). Yue Yu,  Zhaoxin Wu,* Zhanfeng Li, Bo Jiao, Lu Li, Lin Ma, Dongdong Wang,  Guijiang Zhou, and Xun Hou “Highly efficient deep-blue organic electroluminescent devices (CIEy ≈ 0.08) doped with fluorinated 9,9- bianthracene derivatives (fluorophores)” ,J. Mater. Chem. C, 2013, 1 (48), 8117 - 8127【PDF】

(59).    Zhaoxin Wu, Lin Ma, Peng Liu, Caihua Zhou, Shuya Ning, Ahmed El-Shafei; Xiang Zhao, Xun Hou,Structure-Property Relationship of Amplified Spontaneous Emission in Organic Semiconductor Materials: TPD, DPABP and NPB”, Journal of Physical Chemistry A，2013, 117, 10903−10911【PDF】

(58). Zhanfeng Li, Bo Jiao, Zhaoxin Wu,* Peng Liu, Lin Ma, Xiaoli Lei, Dongdong Wang, Guijiang Zhou, Huaiming Hu and Xun Hou，”Fluorinated 9,9-spirobifluorene derivatives as host materials for highly efficient blue organic light-emitting devices†” J. Mater. Chem. C, 2013, 1, 2183–2192【PDF】

(57).   Dongdong Wanga,Yong Wu, Bo Jiao, Hua dong, Guijiang Zhou, Geng Wang, Zhaoxin Wu*,” Wide tuning of emission color of iridium (III) complexes from green to deep red via dicyanovinyl substituent effect on 2-phenylpyridine ligands”, Organic Electronics  14 (2013) 2233–2242 【PDF】

(56). DongDong Wang, Yong Wu, Hua Dong, ZhiXiao Qin, Dan Zhao, Yue Yu, GuiJiang Zhou, Bo Jiao, Zhaoxin Wu*, Min Gao, Geng Wang “Iridium (III) complexes with 5,5-dimethyl-3-(pyridin-2-yl) cyclohex-2-enone ligands as sensitizer for dye-sensitized solar cells” Organic Electronics 14 (2013) 3297–3305【PDF】

(55). Dongdong Wang, Zhaoxin Wu*, Xiaoli Lei, Wenwen Zhang, Bo Jiao, Dawei Wang, and Xun Hou, “Electroluminescence of solutionprocessed organic light-emitting diodes based on fluorescent small molecules and polymer as hole-transporting layer” Phys. Status Solidi ADOI 10.1002/pssa.201329205【PDF】

(54). Bo Jiao, ZhaoxinWu, Hua Dong, Shuya Ning and Xun Hou,” A tris(8-hydroxyquinoline) aluminum-based organic bistable device using ITO surfaces modified by Ag nanoparticles” J. Phys. D: Appl. Phys. 46 (2013) 445107【PDF】

(53).  Bo Jiao, Zhaoxin Wu*, Zhiyuan Yang, and Xun Hou “ Tandem organic light-emitting diodes with an effective nondoped charge-generation unit”, Phys. Status Solidi A /DOI 10.1002/pssa.201330119【PDF】

(52). 马琳, 吴朝新*, 刘鹏,宁舒雅, 赵翔, 侯洵, “分子构型对有机半导体分子TPD, DDB 和NPB 激射性能的影响”, 中国科学: 化学 2013 年 第43 卷 第4 期: 493 ~ 501

(51).WU C F, WU Z X, WEI J, et al. Improving the Efficiency of Quantum Dots Sensitized Solar Cell by Using Pt Counter Electrode [J]. Ecs Electrochemistry Letters, 2013, 2(9): H31（吴朝新）【PDF】

(50).Zhanfeng Li, Zhaoxin Wu, *Wen Fu,Dongdong Wang, Peng Liu, Bo Jiao, Xiaoli Lei, Guijiang Zhou, and Yuying Hao, Stable Amorphous Bis(diarylamino)biphenyl Derivatives as  Hole-Transporting Materials in OLEDs, Electron. Mater. Lett., Vol. 9, No. 5 (2013), pp. 655-661【PDF】

(49). Xinwen Zhang, Zhaoxin Wu, Effect of Contaminated Organic/Organic Interface on The Stability of OrganicLight-emitting Devices, 第34卷 第6期, 2013

(48). Chunliang Yao, Bo Jiao, Xiaolong Yang, Xianbin Xu, Jingshuang Dang, Guijiang Zhou, Zhaoxin Wu, Xingqiang Lv, Yi Zeng, and Wai Yeung Wong, Tris(cyclometalated) Iridium(III) Phosphorescent Complexes with 2-Phenylthiazole-Type Ligands: Synthesis, Photophysical, Redox and Electrophosphorescent Behavior, Eur. J. Inorg. Chem. 2013, 4754–4763.【PDF】

 

 

2012 年 SCI论文

(37). Wenwen Zhang, Zhaoxin Wu*, Shixiong Liang, Bo Jiao, Xinwen zhang,Dawei Wang, Xun Hou, Zhijian Chen, Qihuang Gong. Study on scalable coulombic degradation for estimated lifetime of organic light emitting devices, [J]. Journal of Physics D: Applied Physics, 2011, 44(15),155103; 【PDF】

(36).       ZHANG WenWen, WU ZhaoXin*, ZHANG XinWen, LIANG ShiXiong, JIAO Bo, HOU Xun. Dependence of the stability of organic light-emitting diodes on driving mode. Chinese Science Bulletin, vol 56, 2210-2214, 2011【PDF】

(35).       Xuanke ZHAO, Zhaoxin WU*, Shuya Ning, Shixiong LIANG, Dawei WANG, Xun HOU, “Random lasing from granular surface of waveguide with blends of PS and PMMA ”Optics Express, vol 19 ,16126-16131, 2011【PDF】

(34).       Zhao Xuan-Ke; Wu Zhao-Xin*; Xu Guo-Jin, Liang shixiong and Hou Xun “Silver-nanoparticle-enhanced stimulated emission of organic thin films” JOURNAL OF INFRARED AND MILLIMETER WAVES   30(2011) 217-220【PDF】

(33).       Wang Dawei; Lei Xiaoli; Wu Zhaoxin “Theoretical study of density-dependent intraexcitonic transitions in optically excited quantum wells , JOURNAL OF PHYSICS-CONDENSED MATTER  卷: 23   期: 34     文献号: 345801   【PDF】

 

2010 SCI论文

(33).       Li Zhong-Ling, Wu Zhao-Xin*, Jiao Bo, Mao Gui-Lin, Hou Xun, “Capacitance of Organic Schottky Diodes Based on Copper Phthalocyanine (CuPc)”, Chin. Phys. Lett. 27(6), 067204-1 -067204-4 (2010).【PDF】

(32).       Xinwen Zhang, Zhaoxin Wu*, Dawei Wang, Dongdong Wang, Xun Hou, “Solution-processed p-doped hole-transport layer and its application in organic light-emitting diodes”, Appl. Surf. Sci. 256(14), 4468-4472 (2010). 【PDF】

(31).       Xinwen Zhang, Zhaoxin Wu*, Dongdong Wang, Dawei Wang, Xun Hou, “Effects of dilution and charge trapping on the performance of a light-emitting diode of poly(9-vinylcarbazole) doped with poly[2-methoxy-5-(2′-ethyl hexyloxy)– 1,4-phenylene vinylene]”, J. Appl .Polym. Sci. 117(2), 1213-1217 (2010). 【PDF】

(30).       Dongdong Wang, Zhaoxin Wu*, Xinwen Zhang, Bo Jiao, Shixiong Liang, Dawei Wang, Xun Hou, “Solution-processed organic films of multiple small-molecules and white light-emitting diodes”, Org. Electron. 11(4), 641-648 (2010). 【PDF】

(29).       Bo Jiao, Zhaoxin Wu*, Qiang He, Yuan Tian, Guilin Mao, Xun Hou , “Dependence of the organic nonvolatile memory performance on the location of ultra-thin Ag film”,J. Phys. D: Appl. Phys. 43(3), 035101-1 -035101-7(2010). 【PDF】

 

(28).       Lin He, Junfeng Liu, Zhaoxin Wu*, Dongdong Wang, Shixiong Liang, Xinwen Zhang, Bo Jiao, Dawei Wang, Xun Hou, “Solution-processed small molecule thin films and their light-emitting devices”, Thin Solid Film , 518(14), 3886-3890(2010). 【PDF】

(27).       Dongdong Wang, Zhaoxin Wu*, Xinwen Zhang, Dawei Wang, Xun Hou, “Solution-processed white organic light-emitting devices based on small-molecule material”, J. Lumin. 130(2), 321-325(2010). 【PDF】

(26).       Bo Jiao, Zhaoxin Wu*, Xingwei Yan, Xun Hou, “Dependence of the thickness of N,N′-Bis(naphthalene-1-yl)-N,N′-bis(phenyl) benzidine layer on the hole-injection and current efficiency of organic light-emitting diodes”, Appl. Phys. A: Mater. Sci. process.98 (1), 239-243(2010). 【PDF】

 

(25).       Wang DongDong, Wu ZhaoXin*, Zhang XinWen, Jiao Bo, Wang DaWei, Hou Xun, “White organic light-emitting devices fabricated by spin-coating molecular materials”, chin. Sci. bull. 55(10), 986-991(2010）【PDF】

(24). Xuanke Zhao, Zhaoxin Wu*, Shixiong Liang, Xun Hou, “Optimal design and experimental realization of DBR-metal microcavity organic lasers”, Proc. SPIE, Vol. 7844, 78441B-1-78441B-7 (2010). 

(23). Shixiong Liang, Zhaoxin Wu*, Xuanke Zhao, Dawei Wang, Xun Hou, “The escaped and trapped emission in organic light-emitting devices”, Proc. SPIE, Vol. 7852, 78520O-1-78520O-8 (2010).

(22).WANG D D, WU Z X*, HOU X. Electrochemiluminescence Studies of Phosphorescent Dopant and Host Molecules of Polymer Light-emitting Diodes [J]. Chinese Journal of Chemistry, 2010, 28(8): 1395-1399. 【PDF】

 

2009 SCI 论文

(21). Xinwen Zhang, Zhaoxin Wu*, Dongdong Wang, Dawei Wang and Xun Hou, Improving the stability of organic light-emitting devices by using a solution-processed hole-injecting layer Applied Surface Science, Volume: 255 Issue: 18 Pages: 7970-7973 Published: 30 June 2009  （000267469500021）【PDF】

(20). Zhaoxin Wu, Bo Jiao, Xuanke Zhao, Xun Hou, Liduo Wang, Haifeng Wang, Yudi Gao, Yong Qiu, Single-layer small molecular organic light emitting diodes without hole transport layer Thin Solid Film, Volume: 517 Issue: 11   Pages: 3382-3384 Published: 2 April 2009 【PDF】

(19) .Cunxia Li, Xu Shi, Jinhai Si *, Tao Chen, Feng Chen, Shixiong Liang, Zhaoxin Wu, Xun Hou, Alcohol-assisted photoetching of silicon carbide with a femtosecond laser, Optics Communications 282 (2009) 78–80.【PDF】

 

(18). Bo Jiao, Zhaoxin Wu*,Yang Dai, Dongdong Wang and Xun Hou, Sodium Borohydride as an n-type dopant in Tris(8-hydroxyquinoline) Aluminum Thin Film, Journal of Physics D: Applied Physics, Volume: 42 Issue: 20 Pages: 205108 (5pp)   Published: 21 October 2009 【PDF】

 

 

2008 SCI 论文

(17) Zhaoxin Wu, Shixiong Liang, Bo Jiao, Xuanke Zhao, and Xun Hou，Comment on Surface plasmon coupled electroluminescent emission, Applied Physics Letters, Volume: 93 Issue: 26   Pages: 266101-1~266101-2 Published: 29 December 2008  （000262225700076）【PDF】

 

 

2008年以前SCI 论文

(16)    Zhaoxin Wu, Liduo Wang, and Yong Qiu, “Charge tunneling injection through a thin teflon film between the electrodes and organic semiconductor layer” Physical Review B, 74,165307(2006)【PDF】

(15)    Zhaoxin Wu, Liduo Wang, Gangtie Lei and Yong Qiu, “investigation of the spectra of phosphorescent organic light-emitting devices in relation to emission zone” Journal of Applied Physics, 97,103105(2005)

(14)    Zhaoxin Wu, Liduo Wang, and Yong Qiu, “Contrast-enhancement in organic light-emitting diodes” Optics Express, 13,1406 (2005)

(13)    Zhaoxin Wu, Liduo Wang, Chun Chang and Yong Qiu, “A hybrid encapsulation of organic light-emitting devices” Journal of Physics D: Applied Physics,. 38, 981, (2005)【PDF】

(12)    Zhaoxin Wu, Liduo Wang and Yong Qiu, “Optical interference effects by metal cathode in organic light-emitting diodes” Chinese Physics Letters 21, 1370 (2004)【PDF】

(11)    Liduo Wang, Zhaoxin Wu*, and Yong Qiu “Thin film encapsulation of light-emitting diodes with photopolymerized polyacrylate and silver films ” Chinese Physics Letter 22, 2684 (2005) 【PDF】

(10)    Zhaoxin Wu, Hongbing Jiang, Hengchang Guo, Quan Sun, Hong Yang and Qihuang Gong, “Filamentation and reshaping of Focused Femtosecond Pulse in Fused Silica” Physical Review A 68 (2003),063820【PDF】

(9)    Zhaoxin Wu, Hongbing Jiang, Hong Yang, Qihuang Gong, “The refocusing behaviour of a focused femtosecond laser pulse in fused silica” Journal of Optics A: Pure Appl. Opt. 5(2003) 102–107

(8)   Zhaoxin Wu, Hongbing Jiang, Quan Sun, Hong Yang and Qihuang Gong, “Micro-ablation at the front and rear surfaces of a fused silica window by using a femtosecond laser pulse in air” Journal of Optics A: Pure Appl. Opt. 6, 671(2004)

(7)Zhaoxin Wu, Hongbing Jiang, Le Luo, Hengchang Guo, Hong Yang, Qihuang Gong，”Multiple Foci And Long filament of Focused Femtosecond Pulse Propagation in Fused Silica” Optics Letters 27,448(2002)【PDF】

(6)Zhaoxin Wu, Hongbing Jiang, Zhaohui Zhang, Quan Sun, Hong Yang and Qihuang Gong, “Morphological Investigation at the Front and Rear Surfaces of Fused Silica Processed with Femtosecond Laser Pulse in Air” Optics Express 10, 1244 (2002)【PDF】

(5)H.F. Wang, L.D. Wang, Zhaoxin Wu,and Y.Qiu, ” Efficient single-active-layer organic light-emitting diodes with fluoropolymer buffer layers” Applied Physics Letters, 88, 131113 (2006)

(4)Quan Sun, Hongbing Jiang, Yi Liu, Zhaoxin Wu, Hong Yang and Qihuang Gong，“Measurement on the collision time of dense electronic plasma induced by femtosecond laser in fused silica”，Optics letter 30,320－322(2005)【PDF】

(3)   Yi Liu, Hongbing Jiang, Quan Sun, Zhaoxin Wu, Hong Yang and Qihuang Gong，“Different tendencies of breakdown threshold on pulse duration in the subpicosecond regime in fused silica”，Journal of Optics A: Pure Appl. Opt.，7, 198（2005）【PDF】

(2)Jiang HB, Wu ZX, Sun Q, Liu Y, Gong QH, “Interaction between sub-picosecond laser and fused silica”Nonlinear Optical Phenomena and Applications 5646 , 224-232 ( 2005)

(1)Gong QH, Sun Q, Liu Y, Wu ZX, Yang H, Jiang HB ” Investigation on the parameters of dense electronic plasma induced by femtosecond laser in fused silica” ULTRAFAST PHENOMENA XIV,  79, 354(2005)