18.Conductive metal–organic framework nanosheets constructed hierarchical water transport biological channel for high-performance interfacial seawater evaporation Yong-Qiang Qian, Guan-Feng Xue,Lu-Zhuo Chen*, Gang Xu, andGuan-E Wang*
Adv. Mater. 2023, 2310795PDF
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17.A general synthesis of nanostructured conductive metal–organic frameworks from insulating MOF precursors for supercapacitors and chemiresistive sensors Chuan-Hui Huang+, Wei-Ming Sun+, Ying-Xue Jin+, Quan-Quan Guo+, David M cke+, Xing-Yuan Chu, Zhong-Quan Liao, Naisa Chandrasekhar, Xing Huang, Yang Lu, Guang-Bo Chen, Ming-Chao Wang, Jin-Xin Liu, Ge-Ping Zhang, Ming-Hao Yu, Hao-Yuan Qi, Ute Kaiser,Gang Xu*,Xin-Liang Feng*, andRen-Hao Dong*
Angew. Chem. Int. Ed. 2023, e202313591PDF
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16.Directional defect management in perovskites by in situ decom-position of organic metal chalcogenides for efficient solar cells Guan-E Wang+, Guo-Bin Xiao+, Cong-Ping Li, Zhi-Hua Fu,Jing Cao*, andGang Xu*
Angew. Chem. Int. Ed. 2023, e202313833PDF
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15.Two-dimensional conjugated metal-organic frameworks with large pore apertures and high surface areas for NO2selective chemiresistive sensing Pei Chen, Xi Su, Chuan-Zhe Wang, Guang Zhang, Ting Zhang,Gang Xu*, andLong Chen*
Angew. Chem. Int. Ed. 2023, e202306224PDF
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14.An unprecedented three-dimensional copper-halide-sulfur semiconductive framework for effective light and nitrogen dioxide electrical detections Guang-Ning Liu*, Xue-Na Tang, Jin-Shuang Guo, Qi-Sheng Liu, Chen Ye, Cun-Cheng Li, Gang Xu,Guan-E Wang* Sensors and Actuators: B. Chemical. 2024, 399, 134864 PDF
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13.Confinement of 1D chain and 2D layered CuI Modules in K-INA-R frameworks via coordination assembly: structure regulation and semiconductivity tuning Zhao-Feng Wu,Chuan-Zhe Wang,Xing-Wu Liu*, Kui Tan, Zhi-Hua Fu, Simon J. Teat, Zi-Wei Li, Xiu-Ze Hei, Xiao-Ying Huang,Gang Xu*, andJing Li* J. Am. Chem. Soc. 2023, 145, 19293–19302PDF
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12.Enhanced room temperature gas sensing performance of ZnO with atomic-level Pt catalysts facilitated by the polydopamine mediator Qian Liu, Ying-Yi Wen, Jian-Ze Xiao, Shao-Zhen Luo, Guan-E Wang, Peng-Yi Tang,Xiao-Liang Ye**,Gang Xu* Chinese. J. Struc. Chem. 2023, 42, 100069PDF
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11.Secondary interaction-manipulated metal–organic crystalline nanotube array for gas sensing Jie-Ying Hu,Jian-Ze Xiao,Wei-Ming Liao*,Shou-Jie Liu, Jian-Ming Li,Yong-He He,Lin Yu, Qiao-Hong Li,Gang Xu *,andJun He * J. Mater. Chem. A. 2023, 11, 11463–11470PDF
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10.Visible-photoactive perovskite ferroelectric-driven self-powered gas detection Shi-Guo Han, Li-Na Li, Cheng-Min Ji, Xi-Tao Liu,Guan-E Wang*,Gang Xu,Zhi-Hua Sun*,andJun-Hua Luo* J. Am. Chem. Soc.2023, 145, 12853-12860PDF
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9.Synergistic effect of organic metal chalcogenides acid-base pairs for enhancing proton conduction Shao-Zhen Luo, Zhi-Hua Fu, Jian-Ze Xiao, Xiao-Liang Ye, Qian Liu,Guan-E Wang*, and Gang Xu FlatChem.2023, 38, 100479PDF
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8.Surface fully functionalized metal chalcogenide nanowires for highly sensitive H2S sensing Ying-Xue Jin, Jie Chen, Yong-Jun Chen, Wei-Hua Deng, Xiao-Liang Ye,Guan-E Wang*,andGang Xu* J. Mater. Chem. A.2023, 11, 7179–7183PDF
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7.A humidity-induced large electronic conductivity change of107on a metal-organic framework for highly sensitive water detection Wei-Hua Deng, Qiao-Hong Li, Jie Chen, Chuan-Zhe Wang, Zhi-Hua Fu, Xiao-Liang Ye, Guan-E Wang, andGang Xu* Angew. Chem. Int. Ed.2023, e202305977 PDF
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6.Pore size modulation in flexible metal-organic framework enabling high performance gas sensing Chuan-Zhe Wang, Jie Chen,Qiao-Hong Li*, Guan-E Wang, Xiao-Liang Ye, Jia Lv, andGang Xu* Angew. Chem. Int. Ed.2023, e202302996 PDF
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5.A novel strategy for enhancing NO2sensitivity of new 1D organic–inorganic metal halide hybrids Jie Chen, Chuan-Zhe Wang, Jian-Qiang Zhao, Guang-Ling Liang, Gang Xu, and Guan-E Wang* Inorg. Chem. Commun. 2023, 152, 110668PDF
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4.Facile synthesis of metallosalphen-based 2D conductive metal-organic frameworks for NO2sensing: metal coordination induced planarization Xi Su, Zhi-Ye Zhong, Xiao-Li Yan, Ting Zhang, Chuan-Zhe Wang,Yi-Xuan Wang*,Gang Xu*, andLong Chen* Angew. Chem. Int. Ed. 2023, e202302645PDF
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3. TiO2@COF nanowire arrays: a “filter amplifier” heterojunction strategy to reverse the redox nature Yong-Jun Chen, Ying-Yi Wen, Wen-Hua Li, Zhi-Hua Fu, Guan-E Wang, andGang Xu* Nano Lett.2023, 23, 3614-3622PDF
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2.Dangling bond formation on COF nanosheetsfor enhancing sensing performances Yong-Jun Chen,Ming Liu,Jie Chen,Xin Huang,Qiao-Hong Li*,Xiao-Liang Ye,Guan-E Wang, andGang Xu* Chem. Sci. 2023,14, 4824-4831PDF |
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1.Rationally designed titanium-based metal–organic frameworks for visible-light activated chemiresistive sensing Hui-Zi Li, Yu Pan, Qiao-Hong Li, Qi-Pu Lin, Duo-Yu Lin,Fei Wang*,Gang Xu*,andJian Zhang* J. Mater. Chem. A.2023, 11, 965-971 PDF
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9. Layered organic metal chalcogenides (OMCs): from bulk to two dimensional material Guan-E Wang, Shao-Zhen Luo, Tuo Di, Zhi-Hua Fu, and Gang Xu* Angew. Chem. Int. Ed. 2022, e202212797 PDF
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8. The growth mechanism of a conductive MOF thin film in spray based layer-by-layer liquid phase epitax Rui Zheng, Zhi-Hua Fu, Wei-Hua Deng, Ying-Yi Wen, Ai-Qian Wu, Xiao-Liang Ye, andGang Xu* Angew. Chem. Int. Ed. 2022, 61, e202212797 PDF
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7.Non-contact real-time detection of trace nitro-explosives by MOF composites visible-light chemiresistor Wei-Hua Deng, Ming-Shui Yao,Min-Yi Zhang, Masahiko Tsujimoto, Kenichi Otake,Bo Wang*, Chun-Sen Li*, Gang Xu*, andSusumu Kitagawa* Natl Sci Rev. 2022, 9, nwac143 PDF
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6.Cascading photoelectric detecting and chemiresistive gas-sensing properties of Pb5S2I6 nanowire mesh for multi-factor accurate fire alarm Gui-Qian Huang, Ying-Xue Jin, Shao-Zhen Luo, Zhi-Hua Fu,Guan-E Wang*,andGang Xu* Small Methods. 2022, 2200470PDF |
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5. Crystalline microporous small molecule semiconductors based on porphyrin for high performance chemiresistive gas sensing Wei-Hua Deng, Liang He, Er-Xia Chen, Guan-E Wang, Xiao-Liang Ye, Zhi-Hua Fu,Qi-Pu Lin*,andGang Xu* J. Mater. Chem. A.2022, 10, 12977PDF |
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4.Fluorescence sensing of nitrophenol explosives using a two-dimensional organic–metal chalcogenide fully covered with functional groups Yu Pan, Cheng-Peng Wang, Zhi-Hua Fu,Guang-E Wang*,andGang Xu* Chem. Commun. 2022, 58, 4615 PDF |
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3.Atomically thin 2DTiO2 nanosheets with ligand modified surface for ultra-sensitive humidity sensor Jian-Ze Xiao, Zhi-Hua Fu, Guan-E Wang,Xiao-Liang Ye*,andGang Xu* Chin. J. Struct. Chem. 2022, 41, 2204054-2204060 PDF |
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2.Mutually moninterfering flexible pressure temperature dual-modal sensors based on conductive metal organic framework for electronic skin Yu-Xiang Li,Ran-Ran Wang*, Guan-E Wang*,Shi-Yang Feng, Weng-E Shi, Yin Cheng, Liang-Jing Shi, Kai-Yuan Fu, andJing Sun* ACS Nano. 2022, 16, 473-484 PDF |
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1.Porphyrin-based COF 2D materials: variable modification of sensing performances by post-metallization Ming Liu, Yong-Jun Chen, Xin Huang, Long-Zhang Dong, Meng Lu, Can Guo, Da-Qiang Yuan,Yi-Fa Chen*, Gang Xu*,Shun-Li Li, andYa-Qian Lan* Angew. Chem. Int. Ed. 2022, 61, e202115308 PDF
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9.Layer-by-layer growth of preferred-oriented MOF thin film on nanowire array for high-performance chemiresistive sensing Yuan Lin, Wen-Hua Li, Ying-Yi Wen, Guan-E Wang, Xiao-Liang Ye, andGang Xu* Angew. Chem. Int. Ed. 2021, 60, 25758-25761PDF |
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8.A covalent organic–inorganic hybrid superlattice covered with organic functional groups for highly sensitive and selective gas sensing Ying-Yi Wen, Guan-E Wang, Xiao-Ming Jiang, Xiao-Liang Ye, Wen-Hua Li, andGang Xu* Angew. Chem. Int. Ed. 2021, 60,19710-19714 PDF |
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7.The exceptionally high moisture responsiveness of a new conductive-coordination-polymer based chemiresistive sensor Yuan Lin, Hui-Jie Jiang, Guang-Ling Liang, Wei-Hua Deng, Qiao-Hong Li, Wen-Hua Li, andGang Xu* Cryst. Eng. Comm. 2021, 23, 3549-3556 PDF |
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6.A new 1D inorganic–organic hybrid perovskite-like semiconductor with high stability and humidity response Gui-Qian Huang, Hai-Lun Zhou, Cheng-Peng Wang, Chiranjeevulu Kashi, Xiao-Liang Ye,Wen-Hua Li , Guan-E Wang, andGang Xu* Inorg. Chem. Comm. 2021, 128, 108581-108587 PDF |
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5.Layer-by-layer assembled dual-ligand conductive MOF nano-films with modulated chemiresistive sensitivity and selectivity Ai-Qian Wu, Wen-Qing Wang, Hong-Bin Zhan, Lin-An Cao, Xiao-Liang Ye, Jia-Jia Zheng, Pendyala Naresh Kumar, Kashi Chiranjeevulu, Wei-Hua Deng, Guan-E Wang,Ming-Shui Yao*,andGang Xu* Nano Res. 2021, 14, 438-443 PDF |
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4.Boosting room temperature sensing performances by atomically dispersed Pd stabilized via surface coordination Xiao-Liang Ye, Shu-Juan Lin, Jiang-Wei Zhang, Hui-Jie Jiang, Lin-An Cao, Ying-Yi Wen, Ming-Shui Yao, Wen-Hua Li, Guan-E Wang, andGang Xu* ACS Sens. 2021, 6, 1103-1110 PDF |
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3.MOF nanosheet reconstructed two-dimensional bionic nanochannel for protonic field-effect transistors Guo-Dong Wu, Hai-Lun Zhou, Zhi-Hua Fu, Wen-Hua Li, Jing-Wei Xiu, Ming-Shui Yao,Qiao-Hong Li*, andGang Xu* Angew. Chem. Int. Ed. 2021, 60, 9931-9935 PDF |
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2.MOF-directed synthesis of crystalline ionic liquids with enhanced proton conduction Wen-Long Xue, Wei-Hua Deng, Hui Chen, Rui-Heng Liu, Jared M. Taylor, Yu-kun Li,Lu Wang, Yu-Heng Deng, Wen-Hua Li, Ying-Yi Wen, Guan-E Wang,Chong-Qing Wan*, andGang Xu* Angew. Chem. Int. Ed. 2021, 60, 1290 PDF |
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1.Metal–organic frameworks and their derivatives for electrically transduced gas sensors Ming-Shui Yao, Wen-Hua Li, andGang Xu* Coord. Chem. Rev. 2021, 426, 213479 PDF
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6.Conductive MOFs Wen-Hua Li, Wei-Hua Deng, Guan-E Wang, andGang Xu* Energy. Chem.2020, 2, 100029 PDF |
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5.Organic ‘‘receptor’’ fully covered few-layer organic–metal chalcogenides for high-performance chemiresistive gas sensing at room temperature Chem. Commun.2020, 56, 5366 PDF |
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4.Flexible porous organic polymer membranes for protonic field-effect transistors Hong Zhong, Guo-Dong Wu, Zhi-Hua Fu, Hao-Wei Lv,Gang Xu*, andRui-Hu Wang* Adv. Mater.2020, 2000730 PDF |
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3.A highly oriented conductive MOF thin film-based schottky diode for self-powered light and gas detection Lin-An Cao, Ming-Shui Yao, Hui-Jie Jiang, Susumu Kitagawa, Xiao-Liang Ye, Wen-Hua Li, andGang Xu* J. Mater. Chem. A.2020, 8, 9085 PDF |
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2.Coordination assembly of 2D ordered organic metal chalcogenides with widely tunable electronic band gaps Yan-Zhou Li, Xiao-Ming Jiang, Zhi-Hua Fu, Qing-Qing Huang, Guan-E Wang, Wei-Hua Deng, Chen Wang, Zhen-Zhu Li, Wan-Jian Yin, Bang-Lin Chen andGang Xu* Nat. Commun.2020, 11, 261 PDF |
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1.Superprotonic conductivity of Ti-based MOFs with bronsted acid–base pairs |
8. Single-component MLCT-active photodetecting material based on a two-dimensional coordination polymer Qing-Qing Huang, Yan-Zhou Li, Zhi Zheng, Xiao-Ming Jiang, Shan-Shan Sun, Hui-Jie Jiang, Wei-Hua Deng, Guan-E Wang,Tian-You Zhai*, Ming-De Li*,andGang Xu* |
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7.Van der waals heterostructured MOF-on-MOF thin films: cascading functionality to realize advanced chemiresistive sensing Ming-Shui Yao, Jing-Wei Xiu, Qing-Qing Huang, Wen-Hua Li, Wei-Wei Wu, Ai-Qian Wu, Lin-An Cao, Wei-Hua Deng, Guan-E Wang, andGang Xu* Angew. Chem. Int. Ed.2019, 58, 14915-14919 PDF |
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6.2D metal chalcogenides with surfaces fully covered with an organic "promoter" for high-performance biomimetic catalysis Yan-Zhou Li, Jian Shu, Qing-Qing Huang, Kashi Chiranjeevulu, P. Naresh Kumar, Guan-E Wang, Wei-Hua Deng, Dian-Ping Tang, andGang Xu*
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5. Tunable electrical conductivity of a new 3D MOFs: Cu-TATAB Qing-Qing Huang, Yang-Jie Lin, Rui Zheng, Wei-Hua Deng, Chiranjeevulu Kashi, P. Naresh Kumar,Guan-E Wang*, andGang Xu* |
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4.Ultrathin MOF nanosheet assembled highly oriented microporous membrane as an interlayer for lithium-sulfur batteries Meng Tian, Fei Pei, Ming-Shui Yao, Zhi-Hua Fu, Le-Le Lin, Guo-Dong Wu,Gang Xu*, Hiroshi Kitagaw*,andXiao-Liang Fang* Energy Storage Materials2019, 21, 14–21 PDF |
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3. Gas transport regulation in a MO/MOF interface for enhanced selective gas detection Ming-Shui Yao, Lin-An Cao, Yong-Xiang Tang, Guan-E Wang, Rui-Heng Liu, P. Naresh Kumar, Guo-Dong Wu, Wei-Hua Deng,Wen-Jing Hong*, andGang Xu* |
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2.Conductive metal–organic framework nanowire arrays for electrocatalytic oxygen evolution Wen-Hua Li, Jiang-Quan Lv, Qiao-Hong Li, Jia-Fang Xie, Naoki Ogiwara, Yi-Yin Huang, Hui-Jie Jiang, Hiroshi Kitagawa,Gang Xu*, andYao-Bing Wang* J. Mater. Chem. A.2019, 7, 10431–10438 PDF |
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1.Metal-organic framework nanosheets: Preparation and applications Yan-Zhou Li, Zhi-Hua Fu, andGang Xu* Coordination Chemistry Reviews2019, 388, 79-106 PDF
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2.Semiconductive 1D nanobelt iodoplumbate hybrid with high humidity response Min-Lan Cai, Guan-E Wang, Ming-Shui Yao, Guo-Dong Wu, Ying Li, andGang Xu* |
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1.Large-area preparation of crack-free crystalline microporous conductive membrane to upgrade high energy lithium–sulfur batteries Ying Zang, Fei Pei, Jia-Hong Huang, Zhi-Hua Fu,Gang Xu*,andXiao-Liang Fang* Adv. Energy Mater.2018, 1802052 PDF |
10.Layer-by-layer assembled conductive metal–organic framework nanofilms for room-temperature chemiresistive Ming-Shui Yao, Xiao-Jing Lv, Zhi-Hua Fu, Wen-Hua Li, Wei-Hua Deng, Guo-Dong Wu, andGang Xu* Angew. Chem. Int. Ed.2017, 56, 16510-16514 PDF |
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9. A metal-organic framework impregnated with a binary ionic liquid for safe proton conduction above 100C Xiao-Li Sun, Wei-Hua Deng, Hui Chen, Hong-Liang Han, Jared M.Taylor,Chong-Qing Wan*,andGang Xu* Chem. Eur. J.2017, 23, 1248-1252 PDF
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8. Constructing semiconductive crystalline microporous materials by coulomb interactions Guan-E Wang, Ming-Shui Yao, Min-Lan Cai, Jing-Wei Xiu, Yan-Zhou Li,Gang Xu*,andGuo-Cong Guo* J. Mater. Chem. A.2017, 5, 18409-18413 PDF
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7.Inorganic acid-impregnated covalent organic gels as high-performance proton-conductive material at subzero temperatures Hong Zhong, Zhi-Hua Fu, Jared M. Taylor,Gang Xu*,andRui-Hu Wang* |
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6.A new 3D cupric coordination polymer as chemiresistor humidity sensor: narrow hysteresis, high sensitivity, fast response and recovery Xiao-Jing Lv, Ming-Shui Yao, Guan-E Wang, Yan-Zhou Li, andGang Xu* |
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5.A semiconducting gyroidal metal-sulfur framework for chemiresistive sensing Jia-Hong Huang, Yong-He He, Ming-Shui Yao,Jun He*, Gang Xu*,Matthias Zellerc, and Zheng-Tao Xu |
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4.Conductive metal–organic framework nanowire array electrodes for high-performance solid-state supercapacitors Wen-Hua Li, Kui Ding, Han-Rui Tian, Ming-Shui Yao, Bhaskar Nath, Wei-Hua Deng,Yao-Bing Wang*,andGang Xu*
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3.Electrical bistability in a metal organic framework modulated by reversible crystalline-to-amorphous transformationc Jing-Wei Xiu, Guan-E Wang, Ming-Shui Yao, Chun-Chuen Yang, Chia-Her Lin, andGang Xu* Chem. Commun.2017, 53, 2479-2482 PDF |
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2.Porous field-effect transistors based on a semiconductive metal-organic framework Guo-Dong Wu, Jia-Hong Huang, Ying Zang,Jun He*, andGang Xu* J. Am. Chem. Soc.2017, 139, 1360-1363 PDF |
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1.Crystalline, highly oriented MOF thin film: the fabrication and application Zhi-Hua Fu, andGang Xu* Chem. Rec.2017, 17, 1-18 PDF
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3.MOF thin film-coated metal oxide nanowire array: significantly improved chemiresistor sensor performance Ming-Shui Yao, Wen-Xiang Tang, Guan-E Wang, Bhaskar Nath, andGang Xu* |
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2.A new azodioxy-linked porphyrin-based semiconductive covalent organic framework with I2 doping-enhanced photoconductivity CrystEngComm.2016, 18, 4259-4263 PDF |
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1.Semiconductive nanotube array constructed from giant [PbII18I54(I2)9] wheel clusters Guan-E Wang,Gang Xu*,Bin-Wen Liu, Ming-Sheng Wang, Ming-Shui Yao, andGuo-Cong Guo* Angew. Chem. Int. Ed.2016, 55, 514-518 PDF |
3.Porous cadmium(II) anionic metal–organic frameworks based on sromatic tricarboxylate ligands: encapsulation of protonated flexible bis(2-methylimidazolyl) ligands and proton conductivity Xiao-Ju Li*,Xiao-Fei Sun, Xin-Xiong Li,Zhi-Hua Fu*,Yan-Qing Su, andGang Xu* |
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2.Semiconductive 3D haloplumbate framework hybrids with high color rendering index white-light emission Chem. Sci.2015, 6, 7222-7226 PDF |
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1.Dopant-controlled morphology evolution of WO3 polyhedra synthesized by RF thermal plasma and their sensing properties ACS Appl. Mater. Interfaces2015, 7, 2856-2866 PDF |
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1.The Chemistry of Metal–Organic Frameworks
Synthesis, Characterization, and Applications