2022

  1. Yang, J.;# Tu, B.;# Zhang, G.; Liu, P.; Hu, K.; Wang, J.; Yan, Z.; Huang, Z.; Fang, M.; Hou, J.; Fang, X.; Qiu, X.; Li, L.;* Tang, Z.* Advancing osmotic power generation by covalent organic framework monolayer. Nature Nanotechnology 2022, 17, 622-628.
  2. Lv, J.; Gao, X.; Han, B.; Zhu, Y.; Hou, K.; Tang, Z.* Self-assembled inorganic chiral superstructures. Nature Reviews Chemistry2022, 6, 125-145.
  3. Zhang, X.;# Yang, C.;# An, P.; Cui, C.; Ma, Y.; Liu, H.; Wang, H.; Yan, X.; Li, G.;* Tang, Z.* Creating enzyme-mimicking nanopockets in metal-organic frameworks for catalysis. Science Advances 2022, 8, eadd5678.
  4. Zhang, Y.;# Guo, J.;# Zhang, J.; Qiu, X.; Zhang, X.; Han, J.; Zhang, B.; Long, C.; Shi, Y.; Yang, Z.; Zhao, W.; Tang, Z.* Metal-organic frameworks enable regio- and stereo-selective functionalization of aldehydes and ketones. Chem 2022, 8, 1688-1704.
  5. Jiang, Y.; Zhao, W.; Li, S.; Wang, S.; Fan, Y.; Wang, F.; Qiu, X.; Zhu, Y.; Zhang, Y.; Long, C.; Tang, Z.* Elevating photooxidation of methane to fromaldehyde via TiO2 crystal phase engineering. Journal of the American Chemical Society 2022, 144, 15977-15987.
  6. Qi, F.; Jeong, K.-J.; Gong, J.;* Tang, Z.* Modulation of nano-superstructures and their optical properties. Accounts of Chemical Research 2022, 55, 2425-2438.
  7. Zhao, S.;# Yang, Y.;# Tang, Z.* Insight into Structural Evolution, Active Sites, and Stability of Heterogeneous Electrocatalysts. Angewandte Chemie International Edition 2022, 61, e202110186.
  8. Yang, X.;# Lv, J.;# Zhang, J.; Shen, T.; Xing, T.; Qi, F.; Ma, S.; Gao, X.;* Zhang, W.;* Tang, Z.* Tunable circularly polarized luminescence from inorganic chiral photonic crystals doped with quantum dots. Angewandte Chemie International Edition 2022, 61, e202201674.
  9. Zhu, Y.#; Guo, L.#; Guo, J.; Zhao, L.; Li, C.; Qiu, X.; Qin, Y.; Gu, X.; Sun X.; Tang, Z.* Room-temperature spin transport in metal nanocluster-based spin valves. Angewandte Chemie International Edition 2022, e202213208.
  10. Zhang, Y.; Chen, S.; Al-Enizi, A.; Nafady, A.; Tang, Z.*; Ma, S.* Chiral frustrated Lewis pair@metal-organic framework as a new platform for heterogeneous asymmetric hydrogenation. Angewandte Chemie International Edition 2022, e202213399.
  11. Lv, J.#; Yang, X.#; Tang, Z.* Rational design of all-inorganic assemblies with bright circularly polarized luminescence. Advanced Materials 2022, 2209539.
  12. Han, Z.; Wang, F.; Sun, J.; Wang, X.*; Tang, Z.* Recent advances in ultrathin chiral metasurfaces by twisted stacking. Advanced Materials 2022, 2206141.
  13. Liu, M.; Yang, M.; Wang, X.; Tang, Z.; Jiang, L.; Wang, S.* From nanoscopic to macroscopic materials by stimuli-responsive nanoparticle aggregation. Advanced Materials 2022, 2208995.
  14. Wu, G.;# Song, Y.;# Zheng, Q.;# Long, C.; Fan, T.; Yang, Z.; Huang, X.; Li, Q.; Sun, Y.; Zuo, L.; Lei, S.;* Tang, Z.* Selective electroreduction of CO2 to n-propanol in two-step tandem catalytic system. Advanced Energy Materials 2022, 12, 2202054.
  15. Tang, Z.;* Liu, L.* Upsurge in the construction of chiral nanomaterials. Chemical Science 2022, 13, 593-594.
  16. Zhang, Y.; Yu, S.; Han, B.; Zhou, Y.; Zhang, X.; Gao, X.;* Tang, Z.* Circularly polarized luminescence in chiral materials. Matter 2022, 5, 837-875.
  17. Qin, Y.; Li, Z.; Duan, Y.; Guo, J.*; Zhao, M.*; Tang, Z.* Nanostructural engineering of metal-organic frameworks: Construction strategies and catalytic applications. Matter 2022, 5, 3260-3310.
  18. Liu, Y.; Tang, Z.* Three keys to unlocking successful manuscripts. Matter 2022, 5, 3076-3078.
  19. Yang, J.; Tu, B.; Fang, M.; Li, L.;* Tang, Z.* Nanoscale pore-pore coupling effect on ion transport through ordered porous monolayers. ACS Nano 2022, 16, 13294-13300.
  20. Huang, Z.;# Fang, M.;# Tu, B.;# Yang, J.; Yan, Z.; Alemayehu, H. G.; Tang, Z.; Li, L.* Essence of the enhanced osmotic energy conversion in a covalent organic framework monolayer. ACS Nano 2022, 16, 17149-17456.
  21. Huang, X.; Tang, Z.* Pushing heterogeneous bimetallic catalyst to biatomic ensemble. Chem Catalysis 2022, 2, 1254-1256.
  22. Guo, J.; Lian, Y.; Li, F.; Duan, Y.; Xue, X.; Long, C.; Zhang, Y.*; Tang, Z.* Metal-organic frameworks’ tricks in asymmetric catalysis. Chem Catalysis 2022, 2, 2986-3018.
  23. Tang, Z.;* Zhang, J.;* Zhang, Y.* Renaissance of One-Dimensional Nanomaterials. Advanced Functional Materials 2022, 32, 2113192.
  24. Zhang, D.; Zheng, H.; Ma, X.; Su, L.; Gao, X.; Tang, Z.;* Xu, Y.* On-Demand Circularly Polarized Room-Temperature Phosphorescence in Chiral Nematic Nanoporous Silica Films. Advanced Optical Materials 2022, 10, 2102015.
  25. Gwak, J.; Nguyen, H.-Q.; Jeong, K.-J.; Kim, Y.; Park, S. J.; Choi, Y.; Goddati, M.; Tufa, L. T.; Tang, Z.; Lee, J., Reconfigurable Metasurface of Magnetoplasmonic Microbundle Array for Chiral Signal Enhancing. Advanced Optical Materials 2022, n/a (n/a), 2202104.
  26. Wang, B.; Song, H.; Tang, Z.; Yang, B.; Lu, S.* Ethanol-derived white emissive carbon dots: the formation process investigation and multi-color/white LEDs preparation. Nano Research 2022, 15, 942-949.
  27. Long, C.;# Wan, K.;# Qiu, X.; Zhang, X.; Han, J.; An, P.; Yang, Z.; Li, X.; Guo, J.; Shi, X.; Wang, H.; Tang, Z.; Liu, S.* Single site catalyst with enzyme-mimic micro-environment for electroreduction of CO2. Nano Research 2022, 15, 1817-1823.
  28. Shao, S.;# Cui, C.;# Tang, Z.; Li, G.* Recent advances in metal-organic frameworks for catalytic CO2 hydrogenation to diverse products. Nano Research 10.1007/s12274-022-4576-z.
  29. Li, H.; Liu, H.; Wang, F.; Li, G.; Wang, X.;* Tang, Z. Hot electron assisted photoelectrochemical water splitting from Au-decorated ZnO@TiO2 nanorods array. Nano Research 2022, 15, 5824-5830.
  30. Huang, X.;# Wang, D.;# Yan, S.; An, P.; Han, J.; Guo, Z.; Li, X.; Chen, Z.; Chang, L.; Lu, S.; Tang, Z.* Copper-tetracyanoquinodimethane-derived copper electrocatalysts for highly selective carbon dioxide reduction to ethylene. Nano Research 2022, 15, 7910-7916.
  31. Jiang, Y.;# Fan, Y.;# Li, S.; Tang, Z.* Photocatalytic Methane Conversion: Insight into the Mechanism of C(sp3)–H Bond Activation. CCS Chemistry 2022, 10.31635/ccschem.022.202201991.
  32. Liu, P.;# Huang, Z.;# He, X.; Hou, J.; Zheng, W.; Liu, C.; Li, L.;* Tang, Z.* Conjugated microporous polymer Janus membrane for dye rejection from water. Journal of Membrane Science 2022, 644, 120096.
  33. Alemayehu, H. G.;# Liu, C.;# Hou, J.; Yang, J.; Fang, M.; Tang, Z.; Li, L.* Highly stable membrane comprising MOF nanosheets and graphene oxide for ultra-permeable nanofiltration. Journal of Membrane Science 2022, 652, 120479.
  34. Cai, J.; Yang, J.; Xie, X.; Ding, J.;* Liu, L.; Tian, W.; Liu, Y.;* Tang, Z.; Liu, B.;* Lu, S.* Carbon Doping Triggered Efficient Electrochemical Hydrogen Evolution of Cross‐Linked Porous Ru‐MoO2 Via Solid‐Phase Reaction Strategy. Energy & Environmental Materials 2022, 0, e12424.
  35. Leng, X.; Wan, K.; Wang, H.;* Wu, G.; Zhang, X.; Liu, Y.; Han, B.;* Wang, B.; Zhang, Y.; Zhou, H.;* Tang, Z. Adenosine Triphosphate Disodium Modified Hole Transport Layer for Efficient Inverted Perovskite Solar Cells. ChemNanoMat 2022, 8: e202200041.
  36. Tang, Z.* Beyond natural tooth enamel. The Innovation 2022, 3, 100266.
  37. Liu, Y.; Wang, Y.; Zhao, S.;* Tang, Z.* Metal-organic framework-based nanomaterials for electrocatalytic oxygen evolution. Small Methods 2022, 6, 2200773.
  38. Wang, W.;# Liu, H.;# Yang, C.;# Fan, T.; Cui, C.; Lu, X.;* Tang, Z.; Li, G.* Coordinating zirconium nodes in metal-organic framework with trifluoroacetic acid enhanced lewis acid catalysis. Chemical Research in Chinese Universities2022, 38, 1301-1307.
  39. Cheng, Y.; Song, H.; Yu, J.; Chang, J.;* Waterhouse, G. I. N.; Tang, Z.; Yang, B.; Lu, S.* Carbon dots-derived carbon nanoflowers decorated with cobalt single atoms and nanoparticles as efficient electrocatalysts for oxygen reduction. Chinese Journal of Catalysis 2022, 43, 2443-2452.
  40. Menisa, L. T.;# Chen, P.;# Qiu, X.; Zheng, Y.; Huang, X.; Gao, Y.;* Tang, Z.* Single atomic Fe-N4 active sites and neighboring graphitic nitrogen for efficient and stable electrochemical CO2 reduction. Nanoscale Horizons 2022, 7, 916-923.
  41. Zhang, L.; Ma, L.; Yuan, J.; Zhang, X.; Tang, Z.* Tuning band structures of Hf-PCN-224 (M) for β-Carbonyl C (sp3)-H bond activation and difunctionalization: Tandem C (sp3) radical cross-coupling through photoredox. Applied Catalysis B: Environmental 2022, 321, 122049.