基本情況

博士,副教授,碩士生導師。

 

聯系方式

電話:020-84113994。

郵箱:wdawei@mail.sysu.edu.cn。

通訊地址:廣州市海珠區新港西路135号太阳集团1088vipC313。

郵編:510275

 

教育經曆

2001-2005       西北工業大學,學士

2005-2012       西北工業大學,碩士、博士

2008-2010       美國西北大學,聯合培養博士。

 

工作經曆

2012-2019       太阳集团1088vip,講師。

2020至今   太阳集团1088vip,副教授。

 

講授課程

《物理化學實驗》(本科生),《基礎無機實驗》(本科生)。

 

科研方向

超分子基功能納米材料與化學。主要包括:

(1)超分子基納米反應器;

(2)超分子基能源催化體系(光/電解水、CO2還原催化劑等);

(3)超分子基分離、淨化材料(水淨化、油水分離、污染物降解等)。

 

科研項目

廣東省自然科學基金,2013-2015,主持

國家自然科學基金青年科學基金項目,2013-2016,主持

教育部博士點基金,2013-2016,主持

太阳集团app首页青年教師培育項目,2014-2016,主持

廣東省自然科學基金,2018-2021,主持

 

獎勵情況

國家留學基金委公派留學生項目(2008-2010)

美國西北大學Visiting Predoctoral Fellowship(2008-2010)

“求實”專項獎學金(西北工業大學,2011)

博士論文創新專項獎勵基金(一等,西北工業大學,2012)

太阳集团app首页優良學風标本班(2014-2015,太阳集团app首页化學院2013級E班班主任)

太阳集团app首页紅旗團支部(2014-2015,太阳集团app首页化學院2013級E班班主任)

最受畢業生歡迎的任課老師(前十名,太阳集团1088vip,2016)

 

論著一覽

ORCID: https://orcid.org/0000-0003-3471-5744

  1. Wang, D.; Tejerina, B.; Lagzi, I.; Kowalczyk, B.; Grzybowski, B. A.*, Bridging Interactions and Selective Nanoparticle Aggregation Mediated by Monovalent Cations. ACS Nano 2010, 5 (1), 530-536.
  2. Wang, D.; Lagzi, I.; Wesson, P. J.; Grzybowski, B. A.*, Rewritable and pH-Sensitive Micropatterns Based on Nanoparticle “Inks”. Small 2010, 6 (19), 2114-2116. (内封面論文
  3. Wang, D.; Kowalczyk, B.; Lagzi, I. n.; Grzybowski, B. A.*, Bistability and Hysteresis During Aggregation of Charged Nanoparticles. J. Phys. Chem. Lett. 2010, 1 (9), 1459-1462.
  4. Lagzi, I.; Wang, D.; Kowalczyk, B.; Grzybowski, B. A.*, Vesicle-to-Micelle Oscillations and Spatial Patterns. Langmuir 2010, 26 (17), 13770-13772.
  5. Lagzi, I.; Kowalczyk, B.; Wang, D.; Grzybowski, B. A.*, Nanoparticle Oscillations and Fronts. Angew. Chem. Int. Ed. 2010, 49 (46), 8616-8619. (熱點論文,被評論于 Nature Chemistry
  6. Wang, D.; Nap, R. J.; Lagzi, I. n.; Kowalczyk, B.; Han, S.; Grzybowski, B. A.*; Szleifer, I.*, How and Why Nanoparticle’s Curvature Regulates the Apparent pKa of the Coating Ligands. J. Am. Chem. Soc. 2011, 133 (7), 2192-2197.(被評論于Chemistry World
  7. Kowalczyk, B.; Bishop, K. J. M.; Lagzi, I.; Wang, D.; Wei, Y.; Han, S.; Grzybowski, B. A.*, Charged nanoparticles as supramolecular surfactants for controlling the growth and stability of microcrystals. Nat. Mater. 2012, 11 (3), 227-232.(封面論文,被評論于Chemical & Engineering News
  8. Grzybowski, B. A.*; Kowalczyk, B.; Lagzi, I.; Wang, D.; Tretiakov, K. V.; Walker, D. A., Inorganic salts direct the assembly of charged nanoparticles into composite nanoscopic spheres, plates, or needles. Faraday Discuss. 2012, 159 (0), 201-209.
  9. Tian, W.*; Huang, L.; Zang, D.; Li, C.; Dang, J.; Wang, D.*, Segmented polymer nanowires and nanorods by one-step template wetting with a hyperbranched polymer and linear polymer blend. RSC Adv. 2014, 4 (95), 53021-53027.
  10. Tian, W.*; Huang, L.; Wang, D.; Roy, V. A. L.*, A general, rapid and solvent-free approach to fabricating nanostructured polymer surfaces. Sci. China Tech. Sci. 2014, 57 (12), 2328-2333.
  11. Jiang, J.-J.; He, J.-R.; Lu, X.-Q.; Wang, D.; Li, G.-B.; Su, C.-Y.*, Structural disorder and transformation in crystal growth: direct observation of ring-opening isomerization in a metal-organic solid solution. IUCrJ 2014, 1 (5), 318-327.
  12. Zheng, S.-R.; Pan, M.*; Wu, K.; Chen, L.; Jiang, J.-J.; Wang, D.; Shi, J.-Y.; Su, C.-Y., Assembly of Binuclear, Tetranuclear, and Multinuclear Complexes from Pincer-Like Mononuclear Metallotectons: Structural Diversity Dependent on Precursors. Cryst. Growth Des. 2015, 15 (2), 625-634.
  13. Wang, S.; Fan, Y.; Chen, M.; Xie, Y.; Wang, D.*; Su, C.-Y.*, Porous Co-P-Pd nanotube arrays for hydrogen generation by catalyzing the hydrolysis of alkaline NaBH4 solution. J. Mater. Chem. A 2015, 3 (16), 8250-8255.  (熱點論文)
  14. Wang, S.; Chen, M.; Xie, Y.; Fan, Y.; Wang, D.*; Jiang, J.-J.; Li, Y.; Grützmacher, H.; Su, C.-Y.*, Nanoparticle Cookies Derived from Metal-Organic Frameworks: Controlled Synthesis and Application in Anode Materials for Lithium-Ion Batteries. Small 2016, 12 (17), 2365-2375.
  15. Wang, S.; Fan, Y.; Teng, J.; Fan, Y.-Z.; Jiang, J.-J.; Wang, H.-P.; Grützmacher, H.; Wang, D.*; Su, C.-Y.*, Nanoreactor Based on Macroporous Single Crystals of Metal-Organic Framework. Small 2016, 12 (41), 5702-5709. (熱點論文,并被評論于MaterialsViewsChina)
  16. Zambo, D.; Suzuno, K.; Pothorszky, S.; Bardfalvy, D.; Hollo, G.; Nakanishi, H.; Wang, D.; Ueyama, D.; Deak, A.; Lagzi, I.*, Self-assembly of like-charged nanoparticles into Voronoi diagrams. Phys. Chem. Chem. Phys. 2016, 18 (36), 25735-25740.
  17. Chen, C.-X.; Zheng, S.-P.; Wei, Z.-W.; Cao, C.-C.; Wang, H.-P.; Wang, D.; Jiang, J.-J.*; Fenske, D.; Su, C.-Y., A Robust Metal–Organic Framework Combining Open Metal Sites and Polar Groups for Methane Purification and CO2/Fluorocarbon Capture. Chem. Eur. J. 2017, 23 (17), 4060-4064.
  18. Teng, J.; Chen, M.; Xie, Y.; Wang, D.*; Jiang, J.-J.; Li, G.; Wang, H.-P.; Fan, Y.; Wei, Z.-W.; Su, C.-Y.*, Hierarchically Porous Single Nanocrystals of Bimetallic Metal–Organic Framework for Nanoreactors with Enhanced Conversion. Chem. Mater. 2018, 30 (18), 6458-6468.
  19. Xiong, Y.; Yang, T.; Chen, S.; Zhang, C.-H.; Chen, C.-X.; Wei, Z.-W.; Wang, D.; Jiang, J.-J.*; Su, C.-Y., Metal Effects on the Framework Stability and Adsorption Property of a Series of Isoreticular Metal–Organic Frameworks Based on an in-Situ Generated T-Shaped Ligand. Cryst. Growth Des. 2018, 19 (1), 300-304.
  20. Qiu, Q.-F.; Chen, C.-X.; Wei, Z.-W.; Cao, C.-C.; Zhu, N.-X.; Wang, H.-P.; Wang, D.; Jiang, J.-J.*; Su, C.-Y., A Flexible Cu-MOF as Crystalline Sponge for Guests Determination. Inorg. Chem. 2019, 58 (1), 61-64.
  21. Wang, S.; Teng, J.; Xie, Y.; Wei, Z.-W.; Fan, Y.; Jiang, J.-J.; Wang, H.-P.; Liu, H.; Wang, D.*; Su, C.-Y., Embedding CoO nanoparticles in a yolk–shell N-doped porous carbon support for ultrahigh and stable lithium storage. J. Mater. Chem. A 2019, 7 (8), 4036-4046.
  22. Cao, C.-C.; Chen, C.-X.; Wei, Z.-W.; Qiu, Q.-F.; Zhu, N.-X.; Xiong, Y.-Y.; Jiang, J.-J.; Wang, D.; Su, C.-Y.*, Catalysis through Dynamic Spacer Installation of Multivariate Functionalities in Metal-Organic Frameworks. J. Am. Chem. Soc. 2019, 141 (6), 2589-2593.
  23. Chen, M.; Xie, Y.; Wu, J.-X.; Huang, H.; Teng, J.; Wang, D.*; Fan, Y.; Jiang, J.-J.; Wang, H.-P.; Su, C.-Y.*, Cobalt (oxy)hydroxide nanosheet arrays with exceptional porosity and rich defects as a highly efficient oxygen evolution electrocatalyst under neutral conditions. J. Mater. Chem. A 2019, 7 (17), 10217-10224.
  24. Chen, S.; Wang, D.; Wang, S.-J.; Jiang, J.-J.*; Su, C.-Y., Stable fluorinated 3D isoreticular nanotubular triazole MOFs: synthesis, characterization and CO2 separation. J. Porous Mater. 2019, 26 (6), 1573-1579.
  25. Xie, Y.; Chen, M.; Cai, M.; Teng, J.; Huang, H.; Fan, Y.; Barboiu, M.; Wang, D.*; Su, C. Y., Hollow Cobalt Phosphide with N-Doped Carbon Skeleton as Bifunctional Electrocatalyst for Overall Water Splitting. Inorg. Chem. 2019, 58 (21), 14652-14659.
  26. Zhu, N. X.; Wei, Z. W.; Chen, C. X.; Wang, D.; Cao, C. C.; Qiu, Q. F.; Jiang, J. J.; Wang, H. P.; Su, C. Y.*, Self-Generation of Surface Roughness by Low-Surface-Energy Alkyl Chains for Highly Stable Superhydrophobic/Superoleophilic MOFs with Multiple Functionalities. Angew. Chem. Int. Ed.  2019, 58 (47), 17033-17040
  27. Xiong, Y.; Fan, Y.-Z.; Wei, Z.-W.; Chen, C.-X.; Chen, S.; Wang, D.; Barboiu, M.; Jiang, J.-J.*; Su, C.-Y., Unusual adsorption behaviours and responsive structural dynamics via selective gate effects of an hourglass porous metal–organic framework. RSC Adv. 2019, 9 (64), 37222-37231.
  28. Li, Y.-H.; Zheng, S.-P.; Wang, D.; Barboiu, M.*, Selective Proton-Mediated Transport by Electrogenic K+-Binding Macrocycles. Chemistry 2020, 2 (1), 11-21.
  29. Dai, L.;  Feng, W.-X.;  Zheng, S.-P.;  Jiang, J.-J.;  Wang, D.;  van der Lee, A.;  Dumitrescu, D.; Barboiu, M.*, Progressive Folding and Adaptive Multivalent Recognition of Alkyl Amines and Amino Acids in p-Sulfonatocalix[4]arene Hosts: Solid-State and Solution Studies. ChemPlusChem 2020, n/a (n/a).