向海峰 - 四川大学

个人简介

2014.7 -至今：研究员、博士生导师（有机金属配合物高功能材料及应用），四川大学化学学院 2009.7 -2014.9：副教授（有机金属配合物高功能材料及器件），四川大学化学学院 2009.7 - 2012.7：荣誉助理教授（Honorary Assistant Professor），香港大学化学系 2005.11 - 2009.6：博士后（Postdoc Research Fellow，有机&无机高功能材料及电子器件），香港大学化学系及电机电子工程系 [导师支志明教授（Prof. C. M. Che，中科院院士）& P. T. Lai教授] 2001.10 - 2005.10：博士（有机光电子），香港大学化学系及电机电子工程系（导师支志明院士& P. T. Lai教授） 2000.9 - 2001.8：研究助理（Research Assistant，光化学及光物理），香港大学化学系（导师支志明院士） 1997.9 - 2000.7：硕士（分析化学），厦门大学化学系（导师王尊本教授 & 赵一兵教授） 1993.9 - 1997.7：学士（化学，国家教育部人才基地班），厦门大学化学系

研究领域

1. 有机光电材料及器件 2. 荧光/磷光探针 3. 分子自组装、超分子凝胶 4. 金属有机配合物的合成及性质

近期论文

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D. H. Wu, X. Y. Fang, J. T. Song, L. Qu, X. G. Zhou, H. F. Xiang,* J. Wang,* and J. Liu,* “Multi-stimuli-responsive fluorescence of axially chiral 4-ene-β-Diketones”, Dyes Pigments, 2021, 184, 108851. X. M. Xu, X. M. Zhou, L. Qu, L. Wang, J. T. Song, D. H. Wu, W. L. Zhou, X. G. Zhou, H. F. Xiang,* J. Wang,* and J. Liu,* “Reversible chromatic change of supramolecular gels for visual and selective chiral recognition of histidine”, ACS Appl. Bio Mater., 2020, 3, 7236 – 7242. D. H. Wu, J. T. Song, L. Qu, W. L. Zhou, L. Wang, X. G. Zhou, and H. F. Xiang*, “Ultra-low-molecular-weight stimuli-responsive and multifunctional supramolecular gels based on monomer and trimer of hydrazides”, Chem. Asian J., 2020, 15, 3370 – 3378. L. Qu, X. M. Xu, J. T. Song, D. H. Wu, L. Wang, W. L. Zhou, X. G. Zhou, and H. F. Xiang,* “Solid-state photochromic molecular switches based on axially chiral and helical Spiropyrans”, Dyes Pigments, 2020, 181, 108597. X. M. Xu, L. Qu, J. T. Song, D. H. Wu, X. G. Zhou, and H. F. Xiang,* “Simple and visual approach for enantioselective recognition through supramolecular gels with specific selectivity”, Chem. Commun., 2019, 55, 9873 – 9876. M. Wang, C. Q. Cheng, C. B. Li, D. H. Wu, J. T. Song, J. Wang, X. G. Zhou, H. F. Xiang,* and J. Liu,* “Smart, chiral, and nonconjugated cyclohexane-based bis-salicylaldehyde hydrazides: multi-stimuli-responsive, turn-on, ratiometric, and thermochromic fluorescence, single-crystal structures via DFT calculations”, J. Mater. Chem. C, 2019, 7, 6767 – 6778. 11. L. Qu, C. B. Li, G. Y. Shen, F. Gou, J. T. Song, M. Wang, X. M. Xu, X. G. Zhou, and H. F. Xiang,* “Syntheses, crystal structures, chirality and aggregation-induced phosphorescence of stacked binuclear platinum(II) complexes with bridging Salen ligands”, Mater. Chem. Front., 2019, 3, 1199 – 1208. J. T. Song, M. Wang, X. M. Xu, L. Qu, X. G. Zhou, and H. F. Xiang,* “1D-helical platinum(II) complexes bearing metal-induced chirality, aggregation-induced red phosphorescence and circularly polarized luminescence”, Dalton Trans., 2019, 48, 4420 – 4428. J. T. Song, M. Wang, X. G. Zhou, and H. F. Xiang,* “Unusual circularly polarized and aggregation-induced near-infrared phosphorescence of helical platinum(II) complexes with tetradentate Salen ligands”, Chem. Eur. J., 2018, 24,7128 - 7132. X. H. Zhang, J. Shi, G. Y. Shen, F. Gou, J. H. Cheng, X. G. Zhou, and H. F. Xiang,* “Non-conjugated fluorescent molecular cages of salicylaldehyde-based tri-Schiff bases: AIE, enantiomers, mechanochromism, anion hosts/probes, and cell imaging properties”, Mater. Chem. Front., 2017, 1, 1041 - 1050. J. H. Cheng, F. Gou, X. H. Zhang, G. Y. Shen, X. G. Zhou, and H. F. Xiang,* “A class of multiresponsive colorimetric and fluorescent pH probes via three different reaction mechanisms of Salen complexes: a selective and accurate pH measurement”, Inorg. Chem., 2016, 55, 9221 - 9229. F. Gou, J. H. Cheng, X. H. Zhang, G. Y. Shen, X. G. Zhou, and H. F. Xiang,* “Unusual aggregation/gelation-induced phosphorescence of propeller-type binuclear platinum(II) enantiomers”, Eur. J. Inorg. Chem., 2016, 4862 - 4866. X. F. Ma, R. Sun, J. H. Cheng, J. Y. Liu, F. Gou, H. F. Xiang,* and X. G. Zhou,* “Fluorescence aggregation-caused quenching versus aggregation-induced emission: a visual teaching technology for undergraduate chemistry students”, J. Chem. Educ., 2016, 93, 345 - 350. J. H. Cheng, Y. X. Li, R. Sun, J. Y. Liu, F. Gou, X. G. Zhou, H. F. Xiang,* and J. Liu*, “Functionalized Salen ligands linking with non-conjugated bridges: unique and colorful aggregation-induced emission, mechanism, and applications” J. Mater. Chem. C, 2015, 3, 11099 - 11110. J. H. Cheng, X. G. Zhou, and H. F. Xiang,* “Fluorescentmetal ion chemosensors via cation exchange reactions of complexes, quantumdots, and metal-organic frameworks”, Analyst, 2015, 140, 7082 - 7115. J. H. Cheng, X. F. Ma, Y. H. Zhang, J. Y. Liu, X. G. Zhou, and H. F. Xiang,* “Optical chemosensors based on transmetalation of Salen-based Schiff base complexes”, Inorg. Chem., 2014, 53, 3210 - 3219. J. H. Cheng, K. Y. Wei, X. F. Ma, X. G. Zhou, and H. F. Xiang,* “Synthesis and photophysical properties of colorful Salen-type Schiff bases”, J. Phys. Chem. C, 2013, 117, 16552 - 16563. J. H. Cheng, Y. H. Zhang, X. F. Ma, X. G. Zhou, and H. F. Xiang,* “Colorimetric and fluorescent pH and Cu2+ probes induced by photoisomerization of a maleonitrile-based Salen ligand”, Chem. Commun., 2013, 49, 11791 - 11793. H. F. Xiang,* J. H. Cheng, X. F. Ma, X. G. Zhou, and J. J. Chruma, “Near-infrared phosphorescence: materials and applications”, Chem. Soc. Rev., 2013, 42, 6128 - 6185. H. F. Xiang,* L. Zhou, Y. Feng, J. H. Cheng, D. Wu, and X. G. Zhou,* “Tunable fluorescent/phosphorescent platinum(II) porphyrin-fluorene copolymers for ratiometric dual emissive oxygen sensing”, Inorg. Chem., 2012, 51, 5208 - 5212.