期刊论文/Publications https://orcid.org/0000-0002-4545-1126; Scopus Author ID: 24764689800

2024

[229]  Pengyu Dong, Yue Jiang, Zhengchi Yang, Licheng Liu, Gu Li, Xinyang Wen, Zhen Wang, Xinbo Shi, Guofu Zhou, Jun-Ming Liu, Jinwei Gao. NbSe2 Nanosheets Improved the Buried Interface for Perovskite Solar Cells[J]. 物理化学学报 2024, (), 2407025. doi: 10.3866/PKU.WHXB202407025

[228] Yuqi Wang , Chao Yang, Zhen Wang, Gu Li, Zhengchi Yang, Xinyang Wen, Xiaowen Hu, Yue Jiang*, Shien-Ping Feng, Yiwang Chen, Guofu Zhou, Jun-Ming Liu, Jinwei Gao,* A Self-Assembled 3D/0D Quasi-Core–Shell Structure as Internal Encapsulation Layer for Stable and Efficient FAPbI3 Perovskite Solar Cells and Modules, Small (2024) 20, 14 , DOI: 10.1002/smll.202306954
[227 ]Shengcheng Wu, Tong Yun, Chunqiu Zheng, Xinyi Luo, Peng Qiu, Hongyang Yu, Qiwei Wang, Jinwei Gao*, Xubing Lu, Xingsen Gao, Lingling Shui, Sujuan Wu*, Jun-Ming Liu, Ionic Liquid Bridge Assisting Bifacial Defect Passivation for Efficient All-Inorganic Perovskite Cells with High Open-Circuit Voltage, ACS Applied Materials & Interfaces (2024), 16, 6, 7297-7309.
[226] Xinyang Wen, Yaotang Zhong*, Shuai Chen, Zhengchi Yang, Pengyu Dong, Yuqi Wang, Linghai Zhang, Zhen Wang*, Yue Jiang*, Guofu Zhou, Junming Liu, Jinwei Gao*, 3D Hierarchical Sunflower‐Shaped MoS2/SnO2 Photocathodes for Photo‐Rechargeable Zinc Ion Batteries, Advances Science (2024), 2309555.
[225] Zhengchi Yang, Yue Jiang, Yuqi Wang, Gu Li, Quanwen You, Zhen Wang, Xingsen Gao, Xubing Lu, Xinbo Shi, Guofu Zhou, Jun‐Ming Liu, Jinwei Gao, Supramolecular Polyurethane “Ligaments” Enabling Room‐Temperature Self‐Healing Flexible Perovskite Solar Cells and Mini‐Modules, Small (2024), 2307186.

2023

[224] Yuqi Wang, Chao Yang, Zhen Wang, Gu Li, Zhengchi Yang, Xinyang Wen, Xiaowen Hu, Yue Jiang, Shien‐Ping Feng, Yiwang Chen, Guofu Zhou, Jun‐Ming Liu, Jinwei Gao, A Self‐Assembled 3D/0D Quasi‐Core–Shell Structure as Internal Encapsulation Layer for Stable and Efficient FAPbI3 Perovskite Solar Cells and Modules, Small (2023) 2306954, https://doi.org/10.1002/smll.202306954

[223] Caitao Li, Tengfei Qiu*, Cong Li, Baoyuan Cheng, Mingliang Jin, Guofu Zhou, Michael Giersig, Xin Wang, Jinwei Gao*, Eser Metin Akinoglu*, Highly Flexible and Acid–Alkali Resistant TiN Nanomesh Transparent Electrodes for Next-Generation Optoelectronic Devices, ACS nano (2023), https://doi.org/10.1021/acsnano.3c05211

[222] Chunqiu Zheng, Peng Qiu, Shoudeng Zhong, Xinyi Luo, Shengcheng Wu, Qiwei Wang, Jinwei Gao*, Xubing Lu, Xingsen Gao, Lingling Shui, Sujuan Wu*, Jun‐Ming Liu，Dual Effects of Slow Recrystallization and Defects Passivation Achieve Efficient Tin‐Based Perovskite Solar Cells with Good Stability Up to One Year, Advanced Functional Materials (2023), 2212106.

[221] Zhengchi Yang, Yue Jiang*, Yuqi Wang, Gu Li, Quanwen You, Zhen Wang, Xingsen Gao, Xubing Lu, Xinbo Shi, Guofu Zhou, Jun‐Ming Liu, Jinwei Gao*, Supramolecular Polyurethane “Ligaments” Enabling Room‐Temperature Self‐Healing Flexible Perovskite Solar Cells and Mini‐Modules, Small (2023), 2307186.

[220] Z Wen, Y Jiang, Z Yang, L Lin, C Li, J Liu, X Wen, Z Wang, JM Liu, J Gao*, Electrochemical reduced ITO for high-stability asymmetric supercapacitors, Surfaces and Interfaces (2023), 42, 103370.

[219] Q Wang, P Qiu, X Luo, C Zheng, S Wang, X Ren, J Gao*, X Lu, X Gao, L. Shui, S Wu*, J. Liu. Mutually Tuned Dual Additive Engineering Synergistically Enhances the Photovoltaic Performance of Tin-Based Perovskite Solar Cells. ACS Applied Materials & Interfaces (2023) 15, 38, 45064–45075.

[218] Y Cao, H Liu, F Gao, D Li, L Xiang, J Gao, P Gao, Y Zhang, S Li*. Interface optimization and growth control for high efficiency wide bandgap perovskite solar cells.  Surfaces and Interfaces 37, 102680.

[217] Jiayan Liu, Nana Liu, Gu Li, Yuqi Wang, Zhen Wang*, Zhen Zhang*, Dongdong Xu, Yue Jiang, Xingsen Gao, Xubing Lu, Shien-Ping Feng, Guofu Zhou, Jun-Ming Liu, Jinwei Gao*, Cinnamate-Functionalized Cellulose Nanocrystals as Interfacial Layers for Efficient and Stable Perovskite Solar Cells, ACS Applied Materials & Interfaces (2023), 15, 1, 1348–1357.

[216] X Zhao, J Yang, S Wu, T Yun, S Li, J Gao*, S Wu*, J. Liu. Efficient all-inorganic CsPbIBr2 perovskite solar cells with an open voltage over 1.33 V by dual-additive strategy. Surfaces and Interfaces (2023), 40, 103145

[215] X Zhang, H Chen, G Tian, W Yang, Z Fan, Z Hou, D Chen, M Zeng, M Qin. J. Gao. Creation and erasure of polar bubble domains in PbTiO3 films by mechanical stress and light illuminations. Journal of Materiomics, (2023), 9, 626.

[214] L Chen, TH Liu, X Wang, Y Wang, X Cui, Q Yan, L Lv, J Ying, J Gao, Z. Lin*. Near‐Theoretical Thermal Conductivity Silver Nanoflakes as Reinforcements in Gap‐Filling Adhesives. Advanced Materials, (2023) 2211100.

[213] G Li, Z Wang*, Y Wang, Z Yang, P Dong, Y Feng, Y Jiang, SP Feng, J. Gao*. Co‐Solvent Engineering Contributing to Achieve High‐Performance Perovskite Solar Cells and Modules Based on Anti‐Solvent Free Technology. Small, (2023) 2301323.

[212] C Chen, J Gao*, SP Feng*.The strategies for widening processing windows for perovskite solar cells: a mini review on the role of solvent/antisolvent. International Materials Reviews (2003) 68 (3), 301-322.

[211] X Luo, D Xu, C Zheng, P Qiu, Q Wang, J Gao*, X Lu, X Gao, L Shui, J. Wu*. JM Liu. Significantly Improved Efficiency and Stability of Pure Tin-Based Perovskite Solar Cells with Bifunctional Molecules. ACS Applied Materials & Interfaces (2023) 15 (28), 33643-33653.

 

2022

[210] Jiayan Liu, Nana Liu, Gu Li, Yuqi Wang, Zhen Wang*, Zhen Zhang,* Dongdong Xu, Yue Jiang, Xingsen Gao, Xubing Lu, Shien-Ping Feng, Guofu Zhou*, Jun-Ming Liu, Jinwei Gao*, Cinnamate-Functionalized Cellulose Nanocrystals as Interfacial Layers for Efficient and Stable Perovskite Solar Cells, ACS Applied Materials & Interfaces  1(15), 2023, 13481-357 https: //doi.org/ 10.1021/ acsami. 2c19193

[209] D Xu, Z Gong, Y Jiang*, Y Feng*, Z Wang, X Gao, X Lu, G F Zhou, J M Liu & Jinwei Gao*, Constructing molecular bridge for highefficiency and stable perovskite solar cells based on P3HT, Nature Communications (2022) 13:7020. 

[208] Wang, R.; Gong, Z.; Jiang, Y*.; Huang, S.; Liu, B.; Zhou, G.; Liu, J.-M.; Gao, J*. Low-Cost Planar Organic Small Molecules as Hole Transport Materials for High Efficient Perovskite Solar Cells. Surfaces and Interfaces 2022, 34 (August), 102307. https://doi.org/10.1016/ j. surfin. 2022.102307.

[207] Xu, D.; Mai, R.; Jiang, Y*.; Chen, C.; Wang, R.; Xu, Z.; Kempa, K.; Zhou, G.; Liu, J.; Gao, J*. An Internal Encapsulating Layer for Efficient, Stable, Repairable and Low-Lead-Leakage Perovskite Solar Cells. Energy Environ. Sci. 2022.15, 3891-3900

[206] Yang, Z.; Jiang, Y*.; Xu, D.; Wang, Z.; Gao, X.; Lu, X.; Zhou, G.; Liu, J.-M.; Gao, J*. Self-Healing and Efficient Flexible Perovskite Solar Cells Enabled by Host–Guest Interaction and a 2D/3D Heterostructure. J. Mater. Chem. A 2022, 10 (42), 22445–22452. https://doi.org/10.1039/D2TA05968A.

[205] Xu, Z.; Huang, L.; Jiang, Y.*; Li, Z.; Chen, C.; He, Z.; Liu, J.; Fang, Y.; Wang, K.; Zhou, G.; Liu, J.-M.; Gao, J*. Thermal Annealing-Free SnO2 for Fully Room-Temperature-Processed Perovskite Solar Cells. ACS Appl. Mater. Interfaces 2022, 14 (36), 41037–41044. https://doi.org/10.1021/acsami.2c11488. 

[204] Fang, Y.; Jiang, Y.*; Yang, Z.; Xu, Z.; Wang, Z.; Lu, X.; Gao, X.; Zhou, G.; Liu, J.-M.; Gao, J*. A Nontoxic NFM Solvent for High-Efficiency Perovskite Solar Cells with a Widened Processing Window. ACS Appl. Mater. Interfaces 2022, 14 (42), 47758–47764. https://doi.org/10.1021/acsami.2c13507.

[203]   D. Xu, R. Mai, Y. Jiang*, C. Chen, R. Wang, Z. Xu, K. Kempa, G. Zhou, J. Liu, J. Gao*, An Internal Encapsulating Layer for Efficient, Stable, Repairable and Low-lead-leakage Perovskite Solar Cells. Energy Environ. Sci. 2022, DOI 10.1039/D2EE01016J.

[202] C Chen, J Gao*, and SP Feng*, The strategies for widening processing windows for perovskite solar cells: a mini review on the role of solvent antisolvent, International Materials Reviews, 2022, 1-22.

[201] S Zhong, Z Li, C Zheng, X Luo, J Gao*, X Lu, X Gao, L Shui, S Wu*, and JM Liu, J‐VGuanidine Thiocyanate‐Induced High‐Quality Perovskite Film for Efficient Tin‐based Perovskite Solar Cells, Solar RRL, 6(7), 2022, 2200088.

[200] C Chen, Z Zhou, Y Jiang*, Y Feng*, Y Fang, J Liu, M Chen, J Liu, J Gao* and SP Feng*. Additive engineering in antisolvent for widening the processing window and promoting perovskite seed formation in perovskite solar cells, ACS Applied Materials & Interfaces 14 (15), 2022, 17348-17357.

[199] J Yang, H Yu, S Wu, C Cai, J Gao*, X Lu, X Gao, L Shui, S Wu*, JM Liu, A Mixed Antisolvent-Assisted Crystallization Strategy for Efficient All-Inorganic CsPbIBr₂ Perovskite Solar Cells by a Low-Temperature Process, ACS Applied Energy Materials 5 (3), 2022, 2881-2889.

[198] Y Wu, Z Gong, Y Jiang*, R Wang, D Xu, Z Xu, G Zhou, JM Liu, J Gao*, Low-cost and efficient hole transport materials based on 9-phenyl-9H-carbazole branch for perovskite solar cells, Surfaces and Interfaces 28, 2022, 101598.

[197] X Liu, J Gao, Q Wang*, Structural-property correlations of all-inorganic CsPbBr₃ perovskites via synergetic controls by PbBr₂, 2-mercapto-3-methyl-4-thiazoleacetic acid and water, Chemical Engineering Journal 428, 2022, 131117.

[196] W Yang, G Tian, H Fan, Y Zhao, H Chen, L Zhang, Y Wang, Z Fan, Z Hou,* Nonvolatile ferroelectric domain wall memory embedded in complex topological domain structure, Advanced Materials, 2107711

[195] Z Kadi, R Wang, N Berton, M Kobeissi, Y Jiang,* J Gao,* B Schmaltz*, Interface compatibility: how to outperform classical spiro-OMeTAD in perovskite solar cells with carbazole derivatives, Journal of Materials Chemistry C, 10, 2022, 7680.

 

2021

[194] W Yang, Q Qin, S Wu, J Gao, G Tian, Z Hou, Z Fan, X Lu, D Chen, X Gao*, Probing the microscopic mechanisms in photovoltaic degradation behaviors of CH₃NH₃PbI₃ perovskite films via photoconductive atomic force microscopy, Surfaces and Interfaces 27, 101540

[193] Q Zhu, M Li, Y Jin, Z Mei, J Gao, J Huo, Q Wang*, Equivalent cation substitution-triggered highly efficient Mn⁴⁺ red emission in double-perovskite type (Ba, Sr)₂ (Gd, La, Y, Lu)(Nb, Sb) O₆: Mn⁴⁺ solid solution phosphors, Chemical Engineering Journal 424, 130571

[192] C Chen, Y Jiang, Y Feng, Z Li, N Cao, G Zhou, JM Liu, K Kempa, SP Feng* and JW Gao*, Understanding the effect of antisolvent on processing window and efficiency for large-area flexible perovskite solar cells, Materials Today Physics 21, 100565

[191] Q Zhu, J Huo, L Zhang, J Gao, Q Wang*, Artificial mimics of light-harvesting organic pigment via a double-perovskite structure (LiLa₂SbO₆: Bi³⁺, Mg²⁺, Mn⁴⁺) with single- composition and structure-activity relationship, Journal of Luminescence 239, 118351

[190] X Kong, Z Li, Y Jiang*, Z Xu, SP Feng, G Zhou, JM Liu, J Gao*, Improving stability and efficiency of perovskite solar cells via a cerotic acid interfacial layer, Surfaces and Interfaces 25, 101163

[189] JG Zhuoxi Li , Xiangyu Kong , Yue Jiang *, Xubing Lu , Xinseng Gao and JW Gao*, Simultaneously enhancing moisture and mechanical stability of flexible perovskite solar cells via a polyimide interfacial layer, Soft Science 1 (4), 2-10

[188] J Guo, W He, Y Jiang*, C Chen, X Kong, Z Xu, X Lu, G Zhou, Y Chen and JW Gao*, High-κ La2O3 as an anode modifier to reduce leakage current for efficient perovskite solar cells, Surfaces and Interfaces 24, 101102

[187] J Zhao, Z Xu, Z Zhou, S Xi, Y Xia, Q Zhang, L Huang, L Mei, Y Jiang, JW Gao*, CL Tan,* A Safe Flexible Self-Powered Wristband System by Integrating Defective MnO_2–x Nanosheet-Based Zinc-Ion Batteries with Perovskite Solar Cells, ACS nano 15 (6), 10597-10608

[186] Y Li, J Yang, L Xie, Y Li, X Liang, X Lu, X Gao, J Gao, L Shui, S Wu, 4-Bromoaniline Passivation for Efficient and Stable All-Inorganic CsPbI₂Br Planar Perovskite Solar Cells, ACS Applied Energy Materials 4 (6), 5415-5423

[185] Z Gong, R Wang, Y Jiang*, X Kong, Y Lin, Z Xu, G Zhou, JM Liu, K Kempa, and JW Gao* Novel DAD type small-molecular hole transport materials for stable inverted perovskite solar cells, Organic Electronics 92, 106102

[184] S Chen, P Gao, D Zhang, L Lin, L Huang, Z Li, Z Lan, Y Jiang, Q Ru, JW Gao*. Flexible asymmetric supercapacitors based on NiCo2O4 in a neutral electrolyte achieving 2.4 V voltage window, Journal of Alloys and Compounds 860, 158346

[183] D Zhang, S Liu, Y Jiang*, Y Yin, Z Xu, X Kong, G Zhou, JM Liu, K Kempa and JW Gao*, A flexible adhesive with a conductivity of 5240 S/cm, Science Bulletin 66 (7), 657-660

[182] L Yu, J Gao, Z Zeng, Y Zheng, Surface modification via 2-thenoyltrifluoroacetone and the photophysical studies, Chemical Papers 75 (3), 873-881

[181] W Yang, G Tian, Y Zhang, F Xue, D Zheng, L Zhang, Y Wang, C Chen, J Gao. Quasi-one-dimensional metallic conduction channels in exotic ferroelectric topological defects, Nature communications 12 (1), 1-11

[180] Z Xu, Y Jiang, Z Li, C Chen, X Kong, Y Chen, G Zhou, JM Liu, K Kempa and JW Gao*, Rapid Microwave-Assisted Synthesis of SnO₂ Quantum Dots for Efficient Planar Perovskite Solar Cells, ACS Applied Energy Materials 4 (2), 1887-1893

[179] S Liu, D Zhang, H Peng, Y Jiang, X Gao, G Zhou, JM Liu, K Kempa, J Gao*, High-efficient smart windows enabled by self-forming fractal networks and electrophoresis of core-shell TiO2@ SiO2 particles, Energy and Buildings 232, 110657

[178] X Zhang, J Yang, L Xie, X Lu, X Gao, J Gao,* L Shui, S Wu*, JM Liu, Boosting the performance of low-temperature processed CsPbI2Br planar perovskite solar cells by interface engineering, Dyes and pigments 186, 109024

[177] C Luo, T Huang, C Li, Y Zhang, Z Zou, Y Li, R Tao, J Gao, G Zhou, X Lu, Enhancement of electrical properties of solution-processed oxide thin film transistors using ZrO₂ gate dielectrics deposited by an oxygen-doped solution, Journal of Physics D: Applied Physics 54 (12), 125101

[176] Z Li, X Kong, Y Jiang, X Lu, X Gao, C Tan, Y Chen, G Zhou, JM Liu, J Gao*,Simultaneously enhancing moisture and mechanical stability of flexible perovskite solar cells via a polyimide interfacial layer, Soft Sci 2021;1:4, DOI: 10.20517/ss.2021.06

[175] C She, Q Huang, C Chen, Y Jiang, Z Fan*, J Gao*, Machine learning-guided search for high-efficiency perovskite solar cells with doped electron transport layers, Journal of Materials Chemistry A 9 (44), 25168-25177

[174] JT Fourkas*, J Gao, Z Han, H Liu, B Marmiroli, MJ Naughton, JS Petersen, Grand challenges in nanofabrication: There remains plenty of room at the bottom, Frontiers in Nanotechnology 3 (700849), 1

[173] X Kong, Y Jiang*, Z Li, Y Zhou, Z Xu, C Cong, X Gao, X Lu, G Zhou, JM Liu and JW Gao*, Highly Reproducible Fabrication of Perovskite Films with an Ultrawide Antisolvent Dripping Window for Large‐Scale Flexible Solar Cells, Solar RRL 5 (1), 2000646

 

2020

[172] X Li, Q Wen, J Gu, W Liu, Q Wang, G Zhou, J Gao, Y Zheng, Diverse reactivity to hypochlorite and copper ions based on a novel Schiff base derived from vitamin B6 cofactor, Journal of Molecular Liquids 319, 114124

[171] G Qiao, G Chen, Q Wen, W Liu, J Gao, Z Yu, Q Wang, Rapid conversion from common precursors to carbon dots in large scale: Spectral controls, optical sensing, cellular imaging and LEDs application, Journal of Colloid and Interface Science 580, 88-98

[170] Q Wen, C Jiang, W Liu, Z Zeng, J Gao, Y Zheng, Fluorescence determination of Ni²⁺ ions based on a novel nano-platform derived from silicon quantum dots, Silicon, 1-8

[169] J Huo, A Yu, Q Ni, D Guo, M Zeng, J Gao, Y Zhang, Q Wang, Efficient Energy Transfer from Trap Levels to Eu³⁺ Leads to Antithermal Quenching Effect in High-Power White Light-Emitting Diodes, Inorganic Chemistry 59 (20), 15514-15525

[168] X Li, J Gu, H Huang, Z Zhou, J Gao, Q Wang, Carbazole based new organic dye recognizes hydrazine and hydrogen sulfide via signal difference protocols, Dyes and Pigments 181, 108545

[167] G Qiao, Z Lai, J Gao, W Liu, Y Zheng, Lanthanide molecular model triggers sequential sensing performance, Journal of Molecular Liquids 311, 113344

[166] X Zhang, N Gao, Y Li, L Xie, X Yu, X Lu, X Gao, J Gao, L Shui, S Wu, A Solution-Processed Dopant-Free Tin Phthalocyanine (SnPc) Hole Transport Layer for Efficient and Stable Carbon-Based CsPbI₂Br Planar Perovskite Solar Cells, ACS Applied Energy Materials 3 (8), 7832-7843

[165] A Yu, Y Zhang, W Liu, J Gao, L Zhang, Z Zeng, Y Zheng, Hetero-metal encapsulation induced ratiometric recognition of fluoride, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 233, 118218

[164] X Liu, X Li, P Dong, Z Wu, J Gao, Q Wang, Near-infrared emission tracks inter-individual variability of carboxylesterase-2 via a novel molecular substrate, Microchimica Acta 187 (6), 1-10

[163] Y Li, Z Zhang, Y Zhou, L Xie, N Gao, X Lu, X Gao, J Gao, L Shui, S Wu, Enhanced performance and stability of ambient-processed CH3NH3PbI3-x (SCN) x planar perovskite solar cells by introducing ammonium salts, Applied Surface Science 513, 145790

[162] N Wu, A Yu, J Gao, W Liu, Q Wang, Sodium sulfite leads to the formation of fluorescent organic nanoparticles: Regulation from aqueous solution, cellular pathway to security design patterns, Dyes and Pigments 176, 108252

[161] X Li, Z Lai, J Gu, W Liu, J Gao, Q Wang, Sequential determination of cerium (IV) ion and ascorbic acid via a novel organic framework: A subtle interplay between intramolecular charge transfer (ICT) and aggregated, Journal of Molecular Liquids 304, 112705

[160] W He, W Xu, H He, X Jing, C Liu, J Feng, C Luo, Z Fan, S Wu, J Gao, From Unipolar, WORM‐Type to Ambipolar, Bistable Organic Electret Memory Device by Controlling Minority Lateral Transport, Advanced Electronic Materials 6 (4), 1901320

[159] J Gu, X Li, G Zhou, W Liu, J Gao, Q Wang, A novel self-calibrating strategy for real time monitoring of formaldehyde both in solution and solid phase, Journal of hazardous materials 386, 121883

[158] X Liu, J Gao, W Liu, Q Wang, Reinforcing Effects of waterproof Substrate on the Photo-, thermal and pH Stabilities of Perovskite Nanocrystals, Journal of Alloys and Compounds 817, 152693

[157] J Sun, Y Li, N Tang, Y Zhou, X Zhang, X Lu, X Gao, J Gao, L Shui, S Wu, Room-Temperature-Processed ZrO₂ Interlayer toward Efficient Planar Perovskite Solar Cells, ACS Applied Energy Materials 3 (4), 3328-3336

[156] L Hayes, L Luo, C Chen, K Kempa, J Gao, F Tsung, M Naughton, PMEG and PMPG (plasmonic multi-electron and multi-photon generation) for PV, Bulletin of the American Physical Society 65

[155] G Qiao, L Liu, X Hao, J Zheng, W Liu, J Gao, CC Zhang, Q Wang, Signal transduction from small particles: Sulfur nanodots featuring mercury sensing, cell entry mechanism and in vitro tracking performance, Chemical Engineering Journal 382, 122907

[154] Z Zeng, C Wang, J Gao, Numerical simulation and optimization of metallic network for highly efficient transparent conductive films, Journal of Applied Physics 127 (6), 065104

[153] X Wu, Y Jiang, C Chen, J Guo, X Kong, Y Feng, S Wu, X Gao, X Lu, J Gao*. Stable triple cation perovskite precursor for highly efficient perovskite solar cells enabled by interaction with 18C6 stabilizer, Advanced Functional Materials 30 (6), 1908613

[152] X Liu, J Gao, G Zhou, W Liu, Q Wang, Y Zheng, Low molecular weight molecule induces the effective stabilization of CsPbBr3 in water, Journal of Molecular Liquids 299, 112199

[151] R Wang, R Nakar, Y Jiang, N Berton, S Wu, Q Wang, JM Liu, G Zhou, J Gao*. Fluorinated interfacial layers in perovskite solar cells: efficient enhancement of the fill factor, Journal of Materials Chemistry A 8 (32), 16527-16533

[150] C Chen, Y Jiang, Y Wu, J Guo, X Kong, X Wu, Y Li, D Zheng, S Wu, X Gao, J Gao*. Low‐Temperature Processed WOx as Electron Transfer Layer for Planar Perovskite Solar Cells Exceeding 20% Efficiency, Solar RRL,2020

[149] X Kong, Y Jiang, X Wu, C Chen, J Guo, S Liu, X Gao, G Zhou, JM Liu, Dopant-free F-substituted benzodithiophene copolymer hole-transporting materials for efficient and stable perovskite solar cells, Journal of Materials Chemistry A 8 (4), 1858-1864

[148] X Li, J Gu, Z Zhou, W Liu, J Gao, Q Wang, Precise control for the aggregation and deaggregation with the aid of a tetraphenylethylene derivative: luminescence modulation and sensing performance, Dyes and Pigments 172, 107844

 

2019

[147] Q Zhu, J Huo, Y Lin, M Li, W Liu, J Gao, Q Wang, A new co-substitution strategy as a model to study a rare-earth-free spinel-type phosphor with red emissions and its application in light-emitting diodes, Inorganic Chemistry 59 (1), 433-442

[146] N Wu, X Liu, M Zeng, J Gao, X Lu, Z Zeng, Y Zheng, Controllable synthesis of novel luminescent CuFeS2 quantum dots with magnetic properties and cation sensing features, Journal of Nanoparticle Research 21 (12), 1-11

[145] J Guo, Y Jiang, C Chen, X Wu, X Kong, Z Li, X Gao, Q Wang, X Lu, Nondestructive transfer strategy for high-efficiency flexible perovskite solar cells, ACS Applied Materials & Interfaces 11 (50), 47003-47007

[144] A Yu, Y Tang, K Li, J Gao, Y Zheng, Z Zeng, Tunable photoluminescence studies based on blue-emissive carbon dots and sequential determination of Fe (III) and pyrophosphate ions, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 222, 117231

[143] Q Wen, W Liu, Y Zheng, J Gao, Realization of optical network structures for robust films through immobilization of europium complexes, Journal of Fluorescence 29 (6), 1285-1290

[142] Q Wen, Z Zeng, W Liu, J Gao, HM Zhang, CC Zhang, Y Zheng, In vitro monitoring of glutathione via a switched-on effect based on a lanthanide incorporated carbon nanostructure with biocompatibility, Synthetic Metals 257, 116183

[141] C Yang, M Guo, D Gao, W He, J Feng, A Zhang, Z Fan, D Chen, M Zeng, A Flexible Strain Sensor of Ba(Ti, Nb)O₃/Mica with a Broad Working Temperature Range, Advanced Materials Technologies 4 (11), 1900578

[140] K Zhao, Y Gong, L Yan, W He, D Wang, J Wang, Z Zou, C Luo, A Zhang, Room‐Temperature Fabrication of High‐Quality Lanthanum Oxide High‐κ Dielectric Films by a Solution Process for Low‐Power Soft Electronics, Advanced Electronic Materials 5 (10), 1900427

[139] X Yang, Y Zhang, W Liu, J Gao, Y Zheng, Confined synthesis of phosphorus, nitrogen co-doped carbon dots with green luminescence and anion recognition performance, Polyhedron 171, 389-395

[138] S Chen, B Shi, W He, X Wu, X Zhang, Y Zhu, S He, H Peng, Y Jiang, J Gao*. Quasifractal Networks as Current Collectors for Transparent Flexible Supercapacitors, Advanced Functional Materials, 1906618

[137] N Wu, A Yu, L Zhang, W Liu, J Gao, C Zhang, Y Zheng, Biocompatible nanoplatform based on mussel adhesive chemistry: effective assembly, dual mode sensing, and cellular imaging performance, Advanced Materials Interfaces 6 (17), 1900732

[136] G Dong, S Liu, M Pan, G Zhou, JM Liu, K Kempa, J Gao*, High‐Adhesion Metallic Networks: Bioinspired High‐Adhesion Metallic Networks as Flexible Transparent Conductors, Advanced Materials Technologies 4 (8), 1970043

[135] G Dong, S Liu, M Pan, G Zhou, JM Liu, K Kempa, J Gao*, Bioinspired High‐Adhesion Metallic Networks as Flexible Transparent Conductors, Advanced Materials Technologies 4 (8), 1900056

[134] B Shi, B Saravanakumar, W Wei, G Dong, S Wu, X Lu, M Zeng, X Gao, J Gao*. 3D honeycomb NiCo₂S₄@ Ni(OH)₂ nanosheets for flexible all-solid-state asymmetric supercapacitors with enhanced specific capacitance, Journal of Alloys and Compounds 790, 693-702

[133] C Chen, Y Jiang, J Guo, X Wu, W Zhang, S Wu, X Gao, X Hu, Q Wang, J Gao*. Solvent‐Assisted Low‐Temperature Crystallization of SnO₂ Electron‐Transfer Layer for High‐Efficiency Planar Perovskite Solar Cells, Advanced Functional Materials, 1900557

[132] D Lu, Y Tang, J Gao, Y Chen, Q Wang, Green anhydrous assembly of carbon dots via solar light irradiation and its multi-modal sensing performance, Dyes and Pigments 165, 287-293

[131] Z Zhou, X Li, Y Zhang, CC Zhang, Y Tang, J Gao, L Ma, Q Wang, Aggregation-induced-emission (AIE) directed assembly of a novel responsive nanoprobe for dual targets sensing, Materials Science and Engineering: C 99, 1092-1098

[130] J Huo, Q Zhu, S Li, J Gao, Q Wang, Effective assembly of a novel aluminum-oxynitride BaAl11O16N activated by Eu²⁺ and Mn²⁺ via salt-flux assistance and its photophysical investigation, Journal of Alloys and Compounds 787, 96-103

[129] Y Jiang, H Peng, R Mai, Y Meng, Q Rong, C Cabanetos, L Nian, J Roncali, Alcohol-soluble anode modifier for highly efficient inverted solar cells with oligo-oxyethylene chains, Organic Electronics 68, 200-204

[128] Z Tan, L Hong, Z Fan, J Tian, L Zhang, Y Jiang, Z Hou, D Chen, M Qin, Thinning ferroelectric films for high-efficiency photovoltaics based on the Schottky barrier effect, NPG Asia Materials 11 (1), 1-13

[127] J Gu, X Li, Z Zhou, R Liao, J Gao, Y Tang, Q Wang, Synergistic regulation of effective detection for hypochlorite based on a dual-mode probe by employing aggregation induced emission (AIE) and intramolecular charge transfer, Chemical Engineering Journal 368, 157-164

[126] G Qiao, D Lu, Y Tang, J Gao, Q Wang, Smart choice of carbon dots as a dual-mode onsite nanoplatform for the trace level detection of Cr₂O₇, Dyes and Pigments 163, 102-110

[125] S Liu, C Chen, D Zhang, G Dong, D Zheng, Y Jiang, G Zhou, JM Liu, J Gao*. Recyclable and Flexible Starch-Ag Networks and Its Application in Joint Sensor, Nanoscale research letters 14 (1), 127

[124] Z Zhou, X Li, J Gao, Y Tang, Q Wang, Tetracycline generated red luminescence based on a novel lanthanide functionalized layered double hydroxide nanoplatform, Journal of agricultural and food chemistry 67 (14), 3871-3878

[123] N Wu, Y Li, M Zeng, J Gao, Y Tang, Z Zeng, Y Zheng, Design of chalcopyrite-type CuFeSe2 nanocrystals: Microstructure, magnetism, photoluminescence and sensing performances, Journal of Solid State Chemistry 271, 292-297

[122] Y Jiang, Z Xian, Y Meng, G Zhou, C Cabanetos, J Roncali, J Liu, J Gao, Recycling by-products in new small molecular electrochromic materials with ultra bistability, Dyes and Pigments 162, 697-703

[121] X Li, J Gu, Z Zhou, L Ma, Y Tang, J Gao, Q Wang, New lanthanide ternary complex system in electrospun nanofibers: Assembly, physico-chemical property and sensor application, Chemical Engineering Journal 358, 67-73

[120] J Mai, N Tang, W He, Z Zou, C Luo, A Zhang, Z Fan, S Wu, M Zeng, J Gao, Effects of Ambient Gases on the Electrical Performance of Solution-Processed C8-BTBT Thin-Film Transistors, Nanoscale research letters 14 (1), 169

[119] R Niu, M Jin, J Cao, Z Yan, J Gao, H Wu, G Zhou, L Shui, Self-healing flexible conductive film by repairing defects via flowable liquid metal droplets, Micromachines 10 (2), 113

[118] Y Zhou, X Zhang, X Lu, X Gao, J Gao, L Shui, S Wu, JM Liu, Promoting the Hole Extraction with Co3O4 Nanomaterials for Efficient Carbon‐Based CsPbI2Br Perovskite Solar Cells, Solar RRL, 1800315

[117] G Qiao, Z Zeng, J Gao, Y Tang, Q Wang, An efficient route to assemble novel organometal halide perovskites and emission evolution performance, Journal of Alloys and Compounds 771, 418-423

[116] Y Cai, L Xie, Z Zhang, Y Zhou, H Liu, X Lu, X Gao, J Gao, S Wu, J Liu, Tuning the A-site cation and X-site anion composition of CH3NH3PbI3 perovskite material for efficient planar perovskite solar cells, Electrochimica Acta 293, 371-379

[115] X Li, Y Zheng, Y Tang, Q Chen, J Gao, Q Luo, Q Wang, Efficient and visual monitoring of cerium (III) ions by green-fluorescent carbon dots and paper-based sensing, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 206, 240-245

[114] S Cheng, Z Fan, L Zhao, H Guo, D Zheng, Z Chen, M Guo, Y Jiang, S Wu, Enhanced photovoltaic efficiency and persisted photoresponse switchability in LaVO₃/Pb(Zr_0.2Ti_0.8)O₃ perovskite heterostructures, Journal of Materials Chemistry C 7 (40), 12482-12490

[113] W He, W Wei, B Wen, D Chen, J Zhang, Y Jiang, G Dong, Y Meng, G Zhou, J Gao*. Lamellar NiMoCo@ CuS enabling electrocatalytic activity and stability for hydrogen evolution, Chemical Communications 55 (71), 10555-10558

[112] J Gu, X Li, Z Zhou, W Liu, K Li, J Gao, Y Zhao, Q Wang, 2D MnO₂ nanosheets generated signal transduction with 0D carbon quantum dots: synthesis strategy, dual-mode behavior and glucose detection, Nanoscale 11 (27), 13058-13068

[111] X Zhang, Y Zhou, Y Li, J Sun, X Lu, X Gao, J Gao, L Shui, S Wu, JM Liu, Efficient and carbon-based hole transport layer-free CsPbI₂ Br planar perovskite solar cells using PMMA modification, Journal of materials chemistry C 7 (13), 3852-3861

[110] C Yang, JM Merlo, LA D'Imperio, AH Rose, YM Calm, B Han, J Gao, All‐Solution‐Processed Micro/Nanowires with Electroplate Welding as Transparent Conducting Electrodes, physica status solidi (RRL)–Rapid Research Letters, 1900010

[109] H He, W He, J Mai, J Wang, Z Zou, D Wang, J Feng, A Zhang, Z Fan, S Wu, A flexible memory with low-voltage and high-operation speed using an Al₂O₃/poly (α-methylstyrene) gate stack on a muscovite substrate, Journal of Materials Chemistry C 7 (7), 1913-1918

[108] R Mai, X Wu, Y Jiang, Y Meng, B Liu, X Hu, J Roncali, G Zhou, JM Liu, J Gao*. An efficient multi-functional material based on polyether-substituted indolocarbazole for perovskite solar cells and solution-processed non-doped OLEDs, Journal of Materials Chemistry A 7 (4), 1539-1547

[107] W Wei, W He, B Shi, G Dong, X Lu, M Zeng, X Gao, Q Wang, G Zhou, J Gao*. A bio-inspired 3D quasi-fractal nanostructure for an improved oxygen evolution reaction, Chemical Communications 55 (3), 357-360

[106] C Jiang, Y Tang, Z Zeng, J Gao, M Li, Y Zheng, Structural determination of europium-incorporated Mo2C microrods and photoluminescence studies, Polyhedron 157, 416-419

[105] X Liu, Y Tang, J Gao, Q Luo, Z Zeng, Q Wang, Room-temperature synthesis of novel polymeric nanoclusterwith emissions and its Cu²⁺ recognition performance, Journal of Luminescence 205, 142-147

 

2018

[104] A Yu, Z Zeng, Q Luo, J Gao, Q Wang, Establishment of a new analytical platform for glucose detection based on a terbium containing silica hybrid nanosensor, Applied Surface Science 462, 883-889

[103] X Li, Z Zhou, Y Tang, CC Zhang, Y Zheng, J Gao, Q Wang, Modulation of assembly and disassembly of a new tetraphenylethene based nanosensor for highly selective detection of hyaluronidase, Sensors and Actuators B: Chemical 276, 95-100

[102] X Gao, H Lan, S Li, X Lu, M Zeng, X Gao, Q Wang, G Zhou, JM Liu, J Gao*. Artificial Mushroom Sponge Structure for Highly Efficient and Inexpensive Cold‐Water Steam Generation, Global Challenges 2 (12), 1800035

[101] Z Zhou, Z Wang, Y Tang, J Gao, CC Zhang, Q Wang, Multi-modal tracking dopamine using a hybrid inorganic-organic silver nanoparticle and its cellular imaging performance, Journal of Luminescence 204, 394-400

[100] Z Zhou, X Li, Y Tang, CC Zhang, H Fu, N Wu, L Ma, J Gao, Q Wang, Oxidative deoximation reaction induced recognition of hypochlorite based on a new fluorescent lanthanide-organic framework, Chemical Engineering Journal 351, 364-370

[99] EM Akinoglu, LT de Haan, S Li, Z Xian, L Shui, J Gao, G Zhou, M Giersig, Nanoid canyons on-demand: electrically switchable surface topography in liquid crystal networks, ACS applied materials & interfaces 10 (43), 37743-37748

[98] Z Zhou, Y Zheng, CC Zhang, J Gao, Y Tang, Q Wang, In vitro and in vivo studies of a chlorin-based carbon nanocarrier with photodynamic therapy features, Photochemical & Photobiological Sciences 17 (10), 1329-1336

[97] N Wu, Y Tang, M Zeng, J Gao, X Lu, Y Zheng, Design of hybrid inorganic-organic nanosensor based on Fe3O4 as the core and recovery features, Journal of Luminescence 202, 502-507

[96] X Li, Z Zhou, CC Zhang, Y Zheng, J Gao, Q Wang, Ratiometric fluorescence platform based on modified silicon quantum dots and its logic gate performance, Inorganic Chemistry 57 (15), 8866-8873

[95] J Kong, T Sun, F Cao, Y Li, J Bao, J Gao, X Wang, G Zhou, C Guo, Z Ren, A Metamaterial‐Plasmonic Scheme Based on a Random Metallic Network for Controlling Thermal Emission, Physica Status Solidi (a) 215 (14), 1800206

[94] Z Wang, J Gao, K Zhang, Z Mai, Q Wang, Effective and efficient detection of pH fluctuations based on ratiometric metallic-ciprofloxacin architectures, Optical Materials 81, 1-6

[93] M Chen, Q Wen, F Gu, J Gao, CC Zhang, Q Wang, Mussel chemistry assembly of a novel biosensing nanoplatform based on polydopamine fluorescent dot and its photophysical features, Chemical Engineering Journal 342, 331-338

[92] J Gao*, Z Xian, G Zhou, JM Liu, K Kempa. Nature‐inspired metallic networks for transparent electrodes, Advanced Functional Materials 28 (24), 1705023

[91] Y Gong, K Zhao, H He, W Cai, N Tang, H Ning, S Wu, J Gao, G Zhou, X Lu, Solution processable high quality ZrO2 dielectric films for low operation voltage and flexible organic thin film transistor applications, Journal of Physics D: Applied Physics 51 (11), 115105

[90] D Lu, Y Tang, J Gao, Q Wang, Concentrated solar irradiation protocols for the efficient synthesis of tri-color emissive carbon dots and photophysical studies, Journal of Materials Chemistry C 6 (47), 13013-13022

[89] C Yang, JM Merlo, J Kong, Z Xian, B Han, G Zhou, J Gao, MJ Burns, All‐Solution‐Processed, Scalable, Self‐Cracking Ag Network Transparent Conductor, Physica Status Solidi (a) 215 (1), 1700504

 

2017

[88] H Fan, C Chen, Z Fan, L Zhang, Z Tan, P Li, Z Huang, J Yao, G Tian, Resistive switching and photovoltaic effects in ferroelectric BaTiO₃-based capacitors with Ti and Pt top electrodes, Applied Physics Letters 111 (25), 252901

[87] Y Gong, K Zhao, L Yan, W Wei, C Yang, H Ning, S Wu, J Gao, G Zhou, Room Temperature Fabrication of High Quality ZrO₂ Dielectric Films for High Performance Flexible Organic Transistor Applications, IEEE Electron Device Letters 39 (2), 280-283

[86] Y Zheng, C Jiang, J Huo, J Hu, J Gao, X Lu, S Rao, Z Zeng, Q Wang, Spectroscopic studies of noble metal incorporated lanthanide vanadates and YF3:Tb3+ nanoclusters encapsulated in hybrid hydrogels, Journal of Alloys and Compounds 727, 1142-1147

[85] W Xu, Y Zhang, Z Tang, Z Shao, G Zhou, M Qin, M Zeng, S Wu, Z Zhang, Electronic structure and Charge-Trapping characteristics of the Al₂O₃-TiAlO-SiO₂ gate stack for nonvolatile memory applications, Nanoscale Research Letters 12 (1), 1-7

[84] S Li, Z Xian, G Zhou, JM Liu, K Kempa, J Gao, Solution-processing metallic networks with the ultra-low sheet resistance, Asia Communications and Photonics Conference, Su3L. 1

[83] W Zhang, G Zhou, J Liu, K Kempa, J Gao, Solution-processing interface layers for high performance perovskite solar cells, Asia Communications and Photonics Conference, Su1H. 5

[82] H Wu, Y Jiang, Y Ding, Y Meng, Z Zeng, C Cabanetos, G Zhou, J Gao*, Mechanofluorochromic and thermochromic properties of simple tetraphenylethylene derivatives with fused fluorine containing 1, 4-dioxocane rings, Dyes and Pigments 146, 323-330

[81] C Wang, L Yang, Z Li, M Zeng, A Zhang, M Qin, X Lu, X Gao, J Gao, Giant room temperature multiferroicity and domain structures in hot-press sintered Bi_0.85Sm_0.15Fe_0.97Sc_0.03O₃ ceramics, Ceramics International 43 (15), 12764-12769

[80] Z Wang, CC Zhang, J Gao, Q Wang, Copper clusters-based luminescence assay for tetracycline and cellular imaging studies, Journal of Luminescence 190, 115-122

[79] C Yu, Z Zhang, M Fu, J Gao, Y Zheng, Sol–gel electrolytes incorporated by lanthanide luminescent materials and their photophysical properties, Journal of Electronic Materials 46 (10), 5895-5900

[78] X Li, J Gao, S Rao, Y Zheng, Development of a selective “on-off-on” nano-sensor based on lanthanide encapsulated carbon dots, Synthetic Metals 231, 107-111

[77] Y Ding, Y Jiang, W Zhang, L Zhang, X Lu, Q Wang, G Zhou, J Liu, J Gao*. Influence of heterocyclic spacer and end substitution on hole transporting properties based on triphenylamine derivatives: theoretical investigation, The Journal of Physical Chemistry C 121 (31), 16731-16738

[76] WC Xu, HX He, XS Jing, SJ Wu, Z Zhang, JW Gao, XS Gao, GF Zhou, High performance organic nonvolatile memory transistors based on HfO₂ and poly(α-methylstyrene) electret hybrid charge-trapping layers, Applied Physics Letters 111 (6), 063302

[75] Z Xian, B Han, S Li, C Yang, S Wu, X Lu, X Gao, M Zeng, Q Wang, P Bai,, J Gao*. A Practical ITO Replacement Strategy: Sputtering‐Free Processing of a Metallic Nanonetwork, Advanced Materials Technologies 2 (8), 1700061

[74] R Mai, H Peng, Y Meng, X Chang, Y Jiang, J Gao, G Zhou, J Liu, J Gao*. Effect of molecular conformation on the mechanofluorochromic properties based on DDIF, Materials Research Express 4 (7), 075101

[73] W Zhang, Y Jiang, Y Ding, M Zheng, S Wu, X Lu, X Gao, Q Wang, G Zhou, J Gao*. Solvent-induced textured structure and improved crystallinity for high performance perovskite solar cells, Optical Materials Express 7 (7), 2150-2160

[72] M Chen, Y Zheng, J Gao, C Li, C Yu, Q Wang, Fluorometric determination of dopamine by using a terbium (III) inorganic-organic network, Microchimica Acta 184 (7), 2275-2280

[71] Z Chen, M Ning, G Ma, Q Meng, Y Zhang, J Gao, M Jin, Z Chen, M Yuan, Effective silicon nanowire arrays/WO₃ core/shell photoelectrode for neutral pH water splitting, Nanotechnology 28 (27), 275401

[70] X Jing, W Xu, C Yang, J Feng, A Zhang, Y Zeng, M Qin, M Zeng, Z Fan, Tuning electrical conductivity, charge transport, and ferroelectricity in epitaxial BaTiO₃ films by Nb-doping, Applied Physics Letters 110 (18), 182903

[69] C Wen, J Yang, Z Zeng, J Gao, Y Zheng, Study of a water‐soluble fluorescent sensor based on the Eu (III) pefloxacin complex, Luminescence 32 (3), 382-386

[68] Y Zheng, J Huo, J Gao, Q Wang, Efficient Chemical Synthesis of Functional Rare Earth Orthoborates Nanosheets and Their Photoluminescence Studies, Journal of Nanoscience and Nanotechnology 17 (4), 2649-2654

[67] Q Wen, J Yang, SR Li, J Gao, X Lu, Q Wang, Micropatterning of lanthanide complex species onto self-cracking flexible transparent films and their photophysical properties, Materials Research Bulletin 88, 98-104

[66] J Yang, J Hu, Y Zheng, J Gao, C Wu, S Yan, L Zhang, Q Wang, Effective fabrication of lanthanide activated phosphors and photoluminescence studies, Journal of Alloys and Compounds 697, 25-30

[65] Z Chen, G Ma, Z Chen, Y Zhang, Z Zhang, J Gao, Q Meng, M Yuan, Fabrication and photoelectrochemical properties of silicon nanowires/g-C3N4 core/shell arrays, Applied Surface Science 396, 609-615

[64] L Huang, X Wang, F Yin, C Zhang, J Gao, J Liu, G Zhou, Y Zhang, Three-dimensional carbon cloth-supported ZnO nanorod arrays as a binder-free anode for lithium-ion batteries, Journal of Nanoparticle Research 19 (2), 1-7

[63] W Wei, C Yang, J Mai, Y Gong, L Yan, K Zhao, H Ning, S Wu, J Gao, High mobility solution-processed C 8-BTBT organic thin-film transistors via UV-ozone interface modification, Journal of Materials Chemistry C 5 (40), 10652-10659

[62] W Zhang, Y Ding, Y Jiang, MZ Zheng, S Wu, X Lu, M Zeng, X Gao, J Gao*. Simultaneously enhanced J sc and FF by employing two solution-processed interfacial layers for inverted planar perovskite solar cells, RSC advances 7 (63), 39523-39529

[61] H Fan, Z Fan, P Li, F Zhang, G Tian, J Yao, Z Li, X Song, D Chen, B Han, Large electroresistance and tunable photovoltaic properties of ferroelectric nanoscale capacitors based on ultrathin super-tetragonal BiFeO₃ films, Journal of Materials Chemistry C 5 (13), 3323-3329

 

2016

[60] J Gao*, K Kempa, M Giersig, EM Akinoglu, B Han, R Li, Physics of transparent conductors, Advances in Physics 65 (6), 553-617

[59] H Pang, F Zhang, M Zeng, X Gao, M Qin, X Lu, J Gao, J Dai, Q Li, Preparation of epitaxial hexagonal YMnO₃ thin films and observation of ferroelectric vortex domains, NPJ Quantum Materials 1 (1), 1-6

[58] M Chen, Y Zheng, J Gao, Q Wang, Novel europium (III)-gatifloxacin complex structure with dual functionality for pH sensing and metal recognition in aqueous environment, Optical Materials 60, 1-5

[57] Q Peng, K Pei, B Han, R Li, G Zhou, JM Liu, K Kempa, J Gao*, Inexpensive transparent nanoelectrode for crystalline silicon solar cells, Nanoscale Research Letters 11 (1), 1-9

[56] B Han, Q Peng, R Li, Q Rong, Y Ding, EM Akinoglu, X Wu, X Wang, X Lu, J Gao*. Optimization of hierarchical structure and nanoscale-enabled plasmonic refraction for window electrodes in photovoltaics, Nature communications 7 (1), 1-8

[55] L Huang, X Wang, F Yin, Y Zhang, J Gao, J Liu, G Zhou, Z Bakenov, ZnO nanorods grown directly on copper foil substrate as a binder-free anode for high performance lithium-ion batteries, International Journal of Electrochemical Science. www. electrochemsci. org

[54] Q Ma, J Gao, H Peng, Q Wang, Self-organized dysprosium-directed alginate hydrogels and its chemical features, Journal of Luminescence 177, 290-294

[53] Q Peng, S Li, B Han, Q Rong, X Lu, Q Wang, M Zeng, G Zhou, JM Liu, J Gao*. Colossal Figure of Merit in Transparent‐Conducting Metallic Ribbon Networks, Advanced Materials Technologies 1 (6)

[52] Y Zheng, J Huo, J Yang, J Hu, J Gao, Q Wang, Extensive studies of host lattices and activators in lanthanide phosphors based on efficient synthesis, Journal of Alloys and Compounds 676, 292-298

[51] Q Ma, Y Lai, J Gao, Q Wang, Assay of fluoride by a novel organic–inorganic mesoporous nano‐sized sensor, Luminescence 31 (5), 1125-1129

[50] Z Wang, J Lin, J Gao, Q Wang, Two optically active molybdenum disulfide quantum dots as tetracycline sensors, Materials Chemistry and Physics 178, 82-87

[49] J Lin, J Yang, J Gao, Q Wang, Template synthesis, structure, optical and catalytic properties derived from novel cadmium tungstates, Polyhedron 113, 102-108

[48] Y Zheng, J Hu, S Deng, J Gao, Q Wang, Variable emission changes in Bi³⁺/ln³⁺ (ln= Eu, Sm, Dy) Co-doped lutetium vanadates (LuVO₄), Journal of Electronic Materials 45 (6), 2974-2980

[47] W He, W Xu, Q Peng, C Liu, G Zhou, S Wu, M Zeng, Z Zhang, J Gao, Surface Modification on Solution Processable ZrO₂ High-k Dielectrics for Low Voltage Operations of Organic Thin Film Transistors, The Journal of Physical Chemistry C 120 (18), 9949-9957

[46] R Li, Q Peng, B Han, Y Ke, X Wang, X Lu, X Wu, J Kong, Z Ren,, J Gao*. Plasmonic refraction‐induced ultrahigh transparency of highly conducting metallic networks, Laser & Photonics Reviews 10 (3), 465-472

[45] J Zhou, X Jing, M Alexe, J Dai, M Qin, S Wu, M Zeng, J Gao, X Lu, JM Liu, Microstructure defects mediated charge transport in Nb-doped epitaxial BaTiO3 thin films, Journal of Physics D: Applied Physics 49 (17), 175302

[44] L Zhang, M Yu, Q Peng, H Zhao, J Gao*, Molecular design and theoretical investigation on the thieno [3, 2-b] thienobis (silolothiophene)-based low band gap donor polymers for efficient polymer solar cell, Molecular Simulation 42 (1), 47-55

[43] Z Zhou, Q Wang, CC Zhang, J Gao, Molecular imaging of biothiols and in vitro diagnostics based on an organic chromophore bearing a terbium hybrid probe, Dalton Transactions 45 (17), 7435-7442

[42] M Li, J Zhou, X Jing, M Zeng, S Wu, J Gao, Z Zhang, X Gao, X Lu, JM Liu, Controlling Resistance Switching Polarities of Epitaxial BaTiO₃ Films by Mediation of Ferroelectricity and Oxygen Vacancies, Advanced Electronic Materials 1 (6), 1500069

[41] M Yu, L Zhang, Q Peng, H Zhao, J Gao*, Narrow-band gap Benzodipyrrolidone (BDPD) based donor conjugated polymer: a theoretical investigation, Computational and Theoretical Chemistry 1055, 88-93

 

2014

[40] B Han, Y Huang, R Li, Q Peng, J Luo, K Pei, J Gao*, A Herczynski, K Kempa, Bio-inspired networks for optoelectronic applications, Nature communications 5 (1), 1-7

[39] B Han, K Pei, Y Huang, X Zhang, Q Rong, Q Lin, Y Guo, T Sun, C Guo, J Gao*. Uniform Self‐Forming Metallic Network as a High‐ Performance Transparent Conductive Electrode, Advanced Materials 26 (6), 980-980

[38] B Han, K Pei, Y Huang, X Zhang, Q Rong, Q Lin, Y Guo, T Sun, C Guo, Transparent Conductive Electrodes: Uniform Self‐Forming Metallic Network as a High‐Performance Transparent Conductive Electrode, Advanced Materials 26 (6), 980-980

[37] XT Li, PF Bai, JW Gao, GF Zhou, Effect of pixel shape on fluid motion in an electrofluidic display, Applied Mechanics and Materials 635, 1159-1164

 

2013

[36] E Metin Akinoglu, T Sun, J Gao, M Giersig, Z Ren, K Kempa, Evidence for critical scaling of plasmonic modes at the percolation threshold in metallic nanostructures, Applied Physics Letters 103 (17), 171106

[35] R Zheng, J Gao, G Chen, Thermal and/or electrical conductivity control in suspensions, US Patent App. 13/894,770

[34] PC Sun, YL Wu, JW Gao, GA Cheng, G Chen, RT Zheng, Room temperature electrical and thermal switching CNT/hexadecane composites, Advanced Materials 25 (35), 4938-4943

[33] J Zhong, X Zhang, Y Zheng, M Zheng, M Wen, S Wu, J Gao, X Gao, High Efficiency Solar Cells As Fabricated by Sb₂S₃-Modified TiO₂ Nanofibrous Networks, ACS applied materials & interfaces 5 (17), 8345-8350

[32] CF Guo, T Sun, Y Wang, J Gao, Q Liu, K Kempa, Z Ren, Conductive black silicon surface made by silver nanonetwork assisted etching, Small 9 (14), 2415-2419

 

2012

[31] L Zhang, M Yu, H Zhao, Y Wang, J Gao*, Theoretical investigations on the electronic and optical characteristics of fused-ring homopolymers: Comparison of oligomer method and PBC− DFT method, Chemical Physics Letters 570, 153-158

[30] J Gao*, K Pei, T Sun, Y Wang, L Zhang, W Peng, Q Lin, M Giersig, Metallic Nanowire Networks: Transparent Nanowire Network Electrode for Textured Semiconductors, Small 9 (5), 732-732

[29] T Sun, E Metin Akinoglu, C Guo, T Paudel, J Gao, Y Wang, M Giersig, Enhanced broad-band extraordinary optical transmission through subwavelength perforated metallic films on strongly polarizable substrates, Applied Physics Letters 102 (10), 101114

[28] J Gao*, K Pei, T Sun, Y Wang, L Zhang, W Peng, Q Lin, M Giersig,Transparent nanowire network electrode for textured semiconductors, Small 9 (5), 733-737

[27] L Zhang, K Pei, H Zhao, S Wu, Y Wang, J Gao*. Rational design of novel AADAA type electron donors for small molecule organic solar cells, Chemical Physics Letters 543, 199-204

[26] R Zheng, J Gao, G Chen, Graphite microfluids, US Patent 8,192,643

[25] JJ Wang, RT Zheng, JW Gao, G Chen, Heat conduction mechanisms in nanofluids and suspensions, Nano Today 7 (2), 124-136

[24] N Wang, XR Zhang, DS Zhu, JW Gao, The investigation of thermal conductivity and energy storage properties of graphite/paraffin composites, Journal of Thermal Analysis and Calorimetry 107 (3), 949-954

[23] R Zheng, J Gao, J Wang, SP Feng, H Ohtani, J Wang, G Chen, Thermal percolation in stable graphite suspensions, Nano letters 12 (1), 188-192

[22] L Zhang, K Pei, M Yu, Y Huang, H Zhao, M Zeng, Y Wang, J Gao*, Theoretical Investigations on Donor-acceptor Conjugated Copolymers Based on Naphtho [1,2-c:5, 6-c] bis [1,2,5] thiadiazole for Organic Solar Cell Applications, The Journal of Physical Chemistry C. 2012, 116, 50, 26154–26161

[21] R Zheng, J Gao, G Chen, Thermal and/or electrical conductivity control in suspensions, US Patent App. 12/720,382

 

2011

[20] R Zheng, J Gao, J Wang, G Chen, Reversible temperature regulation of electrical and thermal conductivity using liquid–solid phase transitions, Nature communications 2 (1), 1-6

[19] MA Kedzierski, D Venerus, J Buongiorno, R Christianson, J Townsend, Viscosity measurements on colloidal dispersions (nanofluids) for heat transfer applications, Applied Rheology Journal.2010.

[18] DC Venerus, J Buongiorno, R Christianson, J Townsend, IC Bang, Viscosity measurements on colloidal dispersions (nanofluids) for heat transfer applications, Applied Rheology 20 (4)

[17] R Zheng, J Gao, T Yang, Y Lan, G Cheng, D Wang, Z Ren, G Chen, Na₂SO₄ Monocrystal NanowiresAspect Ratio Control and Electron Beam Radiolysis, Inorganic chemistry 49 (14), 6748-6754

 

2009

[16] JW Gao, RT Zheng, H Ohtani, DS Zhu, G Chen, Experimental investigation of heat conduction mechanisms in nanofluids. Clue on clustering, Nano letters 9 (12), 4128-4132

[15] J Buongiorno, DC Venerus, N Prabhat, T McKrell, J Townsend, A benchmark study on the thermal conductivity of nanofluids, Journal of Applied Physics 106 (9), 094312

[14] X Li, D Zhu, X Wang, N Wang, J Gao, Thermal conductivity enhancement for aqueous alumina nano-suspensions in the presence of surfactant, Journal of Enhanced Heat Transfer 2009.

[13] D Zhu, X Li, N Wang, X Wang, J Gao, H Li, Dispersion behavior and thermal conductivity characteristics of Al₂O₃–H₂O nanofluids, Current Applied Physics 9 (1), 131-139

 

2008及以前

[12] XF Li, DS Zhu, XJ Wang, N Wang, JW Gao, H Li, Thermal conductivity enhancement dependent pH and chemical surfactant for Cu-H2O nanofluids, Thermochimica Acta 469 (1-2), 98-103

[10] X Li, D Zhu, X Wang, J Gao, H Li, Influence of CATB on stability of copper nano-suspensions, Nanophotonics

[9] X Li, X Wang, J Gao, X Yu, H Wang, Theoretical study on a multifunctional electroluminescent molecule Mes2B [p-4, 4′-biphenyl-Nph (1-naphthyl)], Chemical physics 326 (2-3), 390-394

[8] X Yu, X Wang, J Gao, X Li, H Wang, QSPR studies on vinyl polymers based on quantum chemical descriptors, Acta Chimica Sinica-Chinese Edition- 64 (7), 629

[7] J Gao, X Wang, X Yu, X Li, H Wang, Calculation of polyamides melting point by quantum-chemical method and BP artificial neural networks, Journal of molecular modeling 12 (4), 521-527

[6] J Gao, X Wang, X Li, X Yu, H Wang, Prediction of polyamide properties using quantum-chemical methods and BP artificial neural networks, Journal of Molecular Modeling 12 (4), 513-520

[5] X Yu, X Wang, H Wang, X Li, J Gao, Prediction of solubility parameters for polymers by a QSPR model, QSAR & Combinatorial Science 25 (2), 156-161

[4] X Yu, X Wang, X Li, J Gao, H Wang, Prediction of glass transition temperatures for polystyrenes by a four‐descriptors QSPR model, Macromolecular theory and simulations 15 (1), 94-99

[3] X Yu, X Wang, X Li, J Gao, H Wang, Quantitative structure–property relationship studies of polymeric cohesive energy by density functional theory, Journal of Polymer Science Part B: Polymer Physics 44 (2), 409-415

[2] WX LiXiaobing, Y Xinliang, TD-DFT study on electronic spectrum properties of zinc complex with 8-thiolquinoline anion and its derivatives, Acta Chim. S in.(化学学报) 64 (3), 208-212

[1] X Yu, X Wang, J Gao, X Li, H Wang, QSPR studies of polyvinyls by density functional theory, Polymer 46 (22), 9443-9451

 

   

发明专利（授权42件）

2023

[1] 高进伟,颜经新,白文雅,李聪. 基于微纳米金属网络透明导电电极的电致发光板及其制备方法,申请时间：20221031， 申请号：202211344022.0

2022

[1] 姜月，王茹，龚志明,一种以咔唑为核心、以噻吩嗪或吩恶嗪为端基的空穴传输材料及其合成方法和应用[P]. 广东省,发明专利,申请日：20211027,专利号：202111255169.8,公告号：CN114133385A,公告日：2022-03-04
[2] 高进伟，尹钰鑫，李聪,一种二次润湿调控龟裂的方法[P]. 广东省,发明专利,申请日：20210916,专利号：202111085952.4,公告号：CN114038622A,公告日：2022-02-11
2021
[3] 姜月,徐冬冬,麦润昇,王茹,高进伟,一种新型聚氨酯及其应用[P]. 广东省,发明专利,申请日：20210730,专利号：202110877818.1,公告号：CN113817123A,公告日：2021-12-21
[4] 高进伟,尹钰鑫,李聪,一种提高可调控性的金属网络电极龟裂模板制备方法[P]. 广东省,发明专利,申请日：20210519,专利号：202110549355.6,公告号：CN113470868A,公告日：2021-10-01
[5] 姜月,伍业辉,龚志明,王茹,高进伟,一种空穴传输材料及其合成方法与应用[P]. 广东省,发明专利,申请日：20210421,专利号：202110429279.5,公告号：CN113336772A,公告日：2021-09-03
[6] 高进伟,伍业辉,项浩晟,黄兰钦,李聪,尹钰鑫,一种基于纤维素纳米纤维的金属网格柔性透明导电电极及其制备方法[P]. 广东省,发明专利,申请日：20210129,专利号：202110127548.2,公告号：CN113012856A,公告日：2021-06-22
[7] 高进伟,陈聪,一种拓宽钙钛矿吸光层加工窗口的方法及平面型钙钛矿太阳能电池[P]. 广东省,发明专利,申请日：20210112,专利号：202110038271.6,公告号：CN112909183A,公告日：2021-06-04
[8] 高进伟,尹钰鑫,一种低表面粗糙度的柔性透明导电电极制备方法[P]. 广东省,发明专利,申请日：20201209,专利号：202011425496.9,公告号：CN112768116A,公告日：2021-05-07
2020
[9] 姜月，王茹，龚志明,一种D-A-D型空穴传输材料及其合成方法和应用[P]. 广东省,发明专利,申请日：20201019,专利号：ZL202011117829.1,公告号：CN112300057B,公告日：2022-04-19
2019
[10] 高进伟,朱燕波,尹钰鑫,一种复合金属网络透明导电电极制备方法[P]. 广东省,发明专利,申请日：20191227,专利号：201911377451.6,公告号：CN111180110B,公告日：2021-11-30
[11] 高进伟,朱燕波,刘赛,张东伟,一种用于导电胶填料微米级超薄金属片的制备方法,江苏省,发明专利,申请日：20190911,专利号：201910859678.8,公告号：CN110747439A,公告日：2020-02-02
[15] 高进伟,郭佳莉,陈聪,吴夏艳,孔祥宇,一种柔性钙钛矿太阳能电池的转移方法[P]. 广东省,发明专利,申请日：20190719,专利号：ZL201910653762.4,公告号：CN110518121B,公告日：2021-02-05
[16] 高进伟,陈聪,伍业辉,一种平面型钙钛矿太阳能电池的制备方法[P]. 广东省,发明专利,申请日：20190625,专利号：ZL201910553363.0,公告号：CN110444668B,公告日：2021-06-08
[17] 高进伟,陈世铅,史碧波,何炜东,彭海晖,何珊,一种柔性透明超级电容器的制备方法[P]. 广东省,发明专利,申请日：20190621,专利号：201910540504.5,公告号：CN110400703A,公告日：2019-11-01
[18] 高进伟,陈聪,刘赛,一种平面型钙钛矿太阳能电池的制备方法[P]. 广东省,发明专利,申请日：20190122,专利号：ZL201910056377.1,公告号：CN109904328B,公告日：2021-06-08

[19] 高进伟,董关平,潘敏强,冼志科,一种高结合力透明导电电极的制备方法[P]. 广东省,发明专利,申请日：20180731,专利号：ZL201810858124.1,公告号：CN109215848B,公告日：2020-03-10
[20] 高进伟,魏巍,何炜东,史碧波,刘赛,一种多级纳米镍基微柱的制备方法[P]. 广东省,发明专利,申请日：20180606,专利号：ZL201810574123.4,公告号：CN108716010B,公告日：2020-11-03
[21] 高进伟,刘赛,李松茹,史碧波,冼志科,魏巍,董关平,袁天乐,一种悬浮颗粒式智能窗户的制备方法及智能窗户[P]. 广东省,发明专利,申请日：20180604,专利号：ZL201810563469.4,公告号：CN108873549B,公告日：2021-12-24
[22] 高进伟,魏巍,何炜东,史碧波,刘赛,一种高效析氧催化剂的制备方法[P]. 广东省,发明专利,申请日：20180524,专利号：ZL201810508738.7,公告号：CN108855096B,公告日：2021-04-09
[23] 高进伟,陈聪,刘赛,一种低成本柔性绿色可降解金属网络透明导电电极的方法[P]. 广东省,发明专利,申请日：20180330,专利号：ZL201810278921.2,公告号：CN108630351B,公告日：2019-07-09
[24] 高进伟,蓝海航,高修俊,李松茹,史碧波,冼志科,魏巍,一种光-热-蒸汽转化材料及其制备方法[P]. 广东省,发明专利,申请日：20180208,专利号：ZL201810127921.2,公告号：CN108408813B,公告日：2021-09-24
[25] 高进伟,何炜东,魏巍,吴夏艳,一种酸性环境下高活性的Ni-Mo-Co析氢催化剂的合成方法[P]. 广东省,发明专利,申请日：20180208,专利号：ZL201810128410.2,公告号：CN108315762B,公告日：2020-06-09
2017
[26] 高进伟,史碧波,李松茹,冼志科,魏巍,高修俊,一种具有分形结构的多孔金属薄膜透明导电电极的制备方法[P]. 广东省,发明专利,申请日：20170811,专利号：ZL201710683057.X,公告号：CN107424682B,公告日：2019-07-26
[27] 高进伟,张文辉,丁阳,姜月,一种阴极修饰型平面钙钛矿太阳能电池及其制备方法[P]. 广东省,发明专利,申请日：20170323,专利号：ZL201710176355.X,公告号：CN106960908B,公告日：2020-04-28
[28] 高进伟,张文辉,丁阳,凌桂林,一种具有双层钙钛矿薄膜结构的太阳能电池及其制备方法[P]. 广东省,发明专利,申请日：20170112,专利号：ZL201710022036.3,公告号：CN106910828B,公告日：2019-10-11
[29] 姜月,麦润昇,彭火军,常忻月,高进伟,含有吲哚并[3,2-b]咔唑结构单元的压致变色材料及其应用[P]. 广东省,发明专利,申请日：20170111,专利号：ZL201710018285.5,公告号：CN106916171B,公告日：2019-02-26
2016
[30] 高进伟,魏巍,韩兵,史碧波,高修俊,李松茹,冼志科,一种等离子体轰击制备金属网络透明导电电极的方法[P]. 广东省,发明专利,申请日：20161130,专利号：ZL201611079802.1,公告号：CN106782879B,公告日：2019-03-22
[31] 高进伟,高修俊,李松茹,郑明智,韩兵,一种半透明太阳能电池的制备方法[P]. 广东省,发明专利,申请日：20161114,专利号：ZL201611023935.7,公告号：CN106711240A,公告日：2017-05-24
[32] 高进伟,李松茹,冼志科,采用原位生长石墨烯包覆金属膜的复合透明电极制备方法[P]. 广东省,发明专利,申请日：20161020,专利号：ZL201610912434.8,公告号：CN106448923B,公告日：2019-06-11
[33] 高进伟,韩兵,冼志科,李松茹,史碧波,一种金属网络透明导电电极的全液相制备方法[P]. 广东省,发明专利,申请日：20160824,专利号：ZL201610716740.4,公告号：CN106328260B,公告日：2019-03-22
[34] 高进伟,冼志科,李松茹,韩兵,白鹏飞,一种全湿法制备柔性金属网络透明电极的方法[P]. 广东省,发明专利,申请日：20160824,专利号：ZL201610720424.4,公告号：CN106159040A,公告日：2016-11-23
[35] 高进伟,容齐坤,韩兵,金名亮,连续生产柔性微纳米金属网络透明导电薄膜的方法及设备[P]. 广东省,发明专利,申请日：20160726,专利号：ZL201610600252.7,公告号：CN106244989B,公告日：2019-02-05
[36] 高进伟,容齐坤,金名亮,一种龟裂薄膜材料连续自动涂膜设备[P]. 广东省,实用新型,申请日：20160726,专利号：ZL201620799812.1,公告号：CN205851218U,公告日：2017-01-04
[37] 高进伟,容齐坤,金名亮,一种多功能单双面连续式卷绕磁控溅射镀膜设备[P]. 广东省,实用新型,申请日：20160726,专利号：ZL201620801957.0,公告号：CN205803586U,公告日：2016-12-14
2015
[38] 高进伟,彭强,李松茹,丁阳,一种金属电镀法制备高性能金属网络透明导电电极的方法[P]. 广东省,发明专利,申请日：20151113,专利号：ZL201510777346.7,公告号：CN105350043A,公告日：2016-02-24
[39] 高进伟,李若朋,张文辉,一种高雾度复合透明导电电极的制备方法[P]. 广东省,发明专利,申请日：20151113,专利号：201510779814.4,公告号：CN105355675A,公告日：2016-02-24
[40] 高进伟,容齐坤,韩兵,李若朋,彭强,陈晓鹏,周国富,一种半透明钙钛矿晶体硅串列叠层太阳能电池及其制备方法[P]. 广东省,发明专利,申请日：20150624,专利号：201510358392.3,公告号：CN105047823A,公告日：2015-11-11
[41] 高进伟,李若朋,韩兵,彭强,吴永健,一种银纳米线透明导电电极的制备方法[P]. 广东省,发明专利,申请日：20150123,专利号：ZL201510034152.8,公告号：CN104658700B,公告日：2017-02-01
[42] 高进伟,彭强,韩兵,李若朋,陈晓鹏,一种基于金属网格和金属纳米线制备复合透明导电电极的方法[P]. 广东省,发明专利,申请日：20150123,专利号：ZL201510035791.6,公告号：CN104681645B,公告日：2016-09-21
[43] 高进伟,容齐坤,韩兵,李若朋,彭强,林振炫,一种双n层结构非晶硅太阳能电池及其制备方法[P]. 广东省,发明专利,申请日：20150123,专利号：ZL201510035931.X,公告号：CN104681654A,公告日：2015-06-03
2014
[44] 高进伟,黄苑林,韩兵,陈晓鹏,一种金属银网格埋栅透明导电电极的制备方法[P]. 广东省,发明专利,申请日：20141112,专利号：ZL201410631427.1.,公告号：CN104409567B,公告日：2017-02-15
[45] 高进伟,黄苑林,韩兵,罗浚毅,一种蜘蛛网状透明导电电极的制备方法[P]. 广东省,发明专利,申请日：20140428,专利号：ZL201410175312.6,公告号：CN103985478B,公告日：2016-07-06
2013
[46] 高进伟,黄苑林,韩兵,一种树叶状透明导电电极的制备方法[P]. 广东省,发明专利,申请日：20131022,专利号：ZL201310498640.5,公告号：CN103606418B,公告日：2015-10-28
[47] 高进伟,黄苑林,一种基于光刻掩膜法和液相法制备太阳能电池银线网格电极的方法[P]. 广东省,发明专利,申请日：20130626,专利号：ZL201310261756.7,公告号：CN103367541B,公告日：2016-01-20
[48] 高进伟,韩兵,裴颗,王洋,一种基于龟裂模板法制备多孔金属薄膜透明导电电极的方法[P]. 广东省,发明专利,申请日：20130410,专利号：ZL201310122824.1,公告号：CN103227240B,公告日：2015-05-06
2012及以前
[49] 高进伟,裴颗,韩兵,王洋,晶体硅太阳能电池纳米透明埋栅电极的制备方法[P]. 广东省,发明专利,申请日：20121106,专利号：ZL201210439754.8,公告号：CN102983212B,公告日：2015-09-02
[50] 高进伟,裴颗,王洋,晶体硅太阳能电池透明电极的制备方法[P]. 广东省,发明专利,申请日：20120220,专利号：ZL201210019460.X,公告号：CN102544223B,公告日：2014-04-16
[51] 郑瑞廷,高进伟,陈刚,包括石墨微流体的电导和/或热导悬浮液,美国,发明专利,申请日：20101215,专利号：201080063919.5,公告号：CN102753664A,公告日：2012-10-24
[52] Ruiting Zheng,Jinwei Gao,Gang Chen,Graphite microfluids,美国,发明专利,申请日：20120605,专利号：US8192643 B2,公告号：US8192643,公告日：2012-06-05
[53] Ruiting Zheng,Jinwei Gao,Gang Chen,Thermal and/or electrical conductivity control in suspensions,美国,发明专利,申请日：20131003,专利号：13/894770,公告号：US2013256587,公告日：2013-10-03
[54] Ruiting Zheng,Jinwei Gao,Gang Chen，,Electrically and thermally conductivity suspension including graphite microfluids,欧盟,发明专利,申请日：20110718,专利号：WO2011/084481 A1,公告号：WO2011/084481,公告日：2011-07-18