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成果及论文

一作/通讯作者:

2025年

52. X. Sun, W. Miao,  Y. -T. Pan*, P. Song, S. Gaan*, L. H. Ibarra, R. Yang. Metal-organic frameworks: A solution for greener polymeric materials with low fire hazards. Adv. Sustain. Syst. 2025, DOI: 10.1002/adsu.202400768.(Review, 中科院三区,IF=6.5)[原文链接]

51. G. Huang, Y. -T. Pan*L. Liu*,  P. Song, R. Yang. Metal-organic frameworks and their derivatives for sustainable flame-retardant polymeric materials. Adv. Nanocompos. 2025, 2, 1.(Review, 新刊) [原文链接]

2024年

50. J. Cao, S. Chen, Z. Han, Y. -T. Pan*, Y. Lin*, W. Wang, R. Yang. Covalent metal-organic porous polymer on ZIF-67 realize anti-UV and highly stressed flame retardant epoxy composites. Chem. Eng. J. 2024, 501, 157758.(中科院一区,IF=13.3)[原文链接]

49. X. Sun, Y. -T. Pan*, W. Wang, R. Yang. Surface modification of MOFs towards flame retardant polymer composites. RSC Appl. Interfaces 2024, DOI: 10.1039/D4LF00252K.(Invited Review, 新刊)[原文链接]

48. X. Bi, K. Song, Q. Li, T. Lin, Y. -T. Pan*, W. Wang, J. He* R. Yang. Restriction of Ce-MOF growth within ZSM zeolite for robust three-proofing thermoplastic polyurethane. J. Mater. Chem. A 2024, DOI: 10.1039/D4TA05441E.(中科院二区top, IF=10.7)[原文链接]

47. J. Hu, Y. -T. Pan*, K. Zhou*, P. Song, R. Yang. A new way to improve the fire safety of polyurethane composites with the assistance of metal-organic frameworks. RSC Appl. Polym. 2024, 2, 996.(Invited Review, 新刊)[原文链接]

46. R. Wang, X. Zhang, M. Yuan, D. -Y. Wang, J. Zhang*Y. -T. Pan*. Fire retardancy of epoxy composites: A comparative investigation on the influence of porous structure and transition metal of metal-organic framework. Compos. Commun. 2024, 51, 102087.(中科院二区,IF=6.5)[原文链接]

45. K. Song, K. Zhang, X. Bi, B. Hou, Y. -T. Pan*, X. Li, J. He* R. Yang. MOFs-based porous liquids towards highly stressed and chemically resistant fire-safety polyurea elastromer. J. Mater. Chem. A 2024, DOI: 10.1039/D4TA04677C.(HOT Paper, 中科院二区top, IF=10.7)[原文链接]

44. K. Song, X. Bi, D. Wang, Y. -T. Pan*,  M. Xie*, J. He*D. -Y. Wang,  R. Yang. Porous liquids assisted in-situ generated Co-LDH@MOF heterostructure with abundant defects for flame retardant and mechanical enhancement in polyurea composites. Chem. Eng. J. 2024, 495, 153850. (中科院一区,IF=13.3)[原文链接]

43. Q. Li, X. Song, Y. -T. Pan*, J. Sun*, A. Bifulco, R. Yang. Dual function of carboxymethyl cellulose scaffold: A one-stone-two-birds strategy to prepare double-layer hollow ZIF-67 derivates for flame retardant epoxy composites. J. Colloid Interf. Sci. 2024, 674, 445.(中科院一区,IF=9.4)[原文链接]

42. Z. Han, X. Song, Z. Chen, Y. -T. Pan*, X. Lai, D. -Y. Wang, R. Yang. Half etching of ZIF-67 towards open hollow nanostructure with boosted absorption ability for toxic smoke and fume in epoxy composites. Sustain. Mater. Techno. 2024, 41, e01024. (中科院二区,IF=8.6)[原文链接]

41. X. Bi, K. Song, Z. Zhang, T. Lin,  Y. -T. Pan*,  W. Fu*, P. Song, J. He*, R. Yang. Joint exfoliation of MXene by dimensional mismatched SiC/ZIF-67 towards multifunctional flame retardant thermoplastic polyurethane. Small 2024, 20, 2403375.(中科院二区top,IF=13.0)[原文链接]

40. X. Bi, Z. Zhang, K. Song, X. Zhang,  Y. -T. Pan*,  H. Qu*, H. Vahabi, J. He, R. Yang. Packaging of ZIF-8 into diatomite sealed by ionic liquid and its application in flame retardant polyurea composites. Compos. Part A-Appl. S. 2024, 184, 108283.(中科院二区top,IF=8.1)[原文链接]

39. J. Zhang, X. Zhang, R. Wang, W. Wang, H. Zhao, S. Yang, Z. Dong, D. -Y. Wang,  Y. -T. Pan*. Cyclodextrin-based host-guest hierarchical fire retardants: Synthesis and novel strategy to endow polylactic acid fire retardancy and UV resistance. Carbohyd. Polym. 2024, 341, 122313.(中科院一区,IF=10.7)[原文链接]

38. X. Song#, Q. Li#, Z. Han, B. Hou,  Y. -T. Pan*, Z. Geng*, J. Zhang*, L. H. Ibarra, R. Yang. Synchronous modification of ZIF-67 with cyclomatrix polyphosphazene coating for efficient flame retardancy and mechanical reinforcement of epoxy resin.  J. Colloid Interf. Sci. 2024, 667, 223.(中科院一区,IF=9.4)[原文链接]

37. J. Cao, Y. -T. Pan*, H. Vahabi, J. Song, P. Song, D. -Y. Wang, R. Yang. Zeolitic imidazolate frameworks-based flame retardants for polymeric materials. Mater. Today Chem. 2024, 37, 102015.(Review, 中科院二区,IF=6.7)[原文链接]

36. K. Song, X. Bi, C. Yu, Y. -T. Pan*, P. Xiao, J. Wang*, J.-I. Song, J. He*, R. Yang. Structure of metal-organic frameworks eco-modulated by acid-base balance towards bio-based flame retardant in polyurea composites. ACS Appl. Mater. Interfaces 2024, 16, 15227.(中科院二区top,IF=8.3)[原文链接]

35. Q. Li, Z. Han, X. Song, Y. -T. Pan*, Z. Geng, H. Vahabi, V. Realino, R. Yang. Enhancing char formation of flame retardant epoxy composites: Onigiri-like ZIF-67 modification with carboxymethyl β-cyclodextrin crosslinking. Carbohyd. Polym. 2024, 333, 121980. (中科院一区,IF=10.7,ESI高被引论文)[原文链接]

34. L. Wang, W. -J. Yan, C. -Z., C. -R. Chen*, Q. Luo, Y. -T. Pan*, Z. -H. Tang, S. Xu*. Construction of TiO2-based decorated with containing nitrogen-phosphorus bimetallic layered double hydroxides for simultaneously improved flame retardancy and smoke suppression properties of EVA. Mater. Today Chem. 2024, 36, 101952.(中科院二区,IF=6.7,ESI高被引论文)[原文链接]

33. K. Song, X. Bi, C. Yu, Y. -T. Pan*, H. Vahabi, V. Realino, J. He*, R. Yang. A gas-steamed route to mesoporous open metal-organic framework cages enhancing flame retardancy and smoke suppression of polyurea. ACS Appl. Mater. Interfaces 2024, 16, 7617.(中科院二区top,IF=8.3)[原文链接]

32. X. Bi, X. Cheng, Z. Zhang, Y. Huang, Y. -T. Pan*, J. Guan*, M. Ardanuy, R. Yang*. A durable coating constructed by metal-organic framework and polyphosphazene for flame retardant cotton fabric with enhanced mechanical properties. Next Mater. 2024, 3, 100143. (新刊)[原文链接]

31. X. Bi, K. Song, H. Zhang, Y. -T. Pan*, J. He, D. -Y. Wang, R. Yang*. Dimensional change of red phosphorus into nanosheets by metal–organic frameworks with enhanced dispersion in flame retardant polyurea composites. Chem. Eng. J. 2024, 482, 148997. (中科院一区,IF=13.3,ESI高被引论文[原文链接]

30. K. Song, Y. -T. Pan*, J. He, R. Yang. Coordination bond cleavage of metal–organic frameworks and application to flame-retardant polymeric materials. Ind. Chem. Mater. 2024, 2, 556(Mini Review,新刊)[原文链接]

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29. B. Hou, X. Song, K. Song, Z. Geng, Y. -T. Pan*, P. Song, R. Yang. Synchronous preparation and modification of LDH hollow polyhedra by polydopamine: Synthesis and application. J. Colloid Interf. Sci. 2024, 654, 235.(中科院一区,IF=9.4)[原文链接]

28. X. Bi, K. Song, Y. -T. Pan*, C. Barreneche, H. Vahabi, J. He, R. Yang*. Hollow superstructure in-situ assembled by single-layer Janus nanospheres towards electromagnetic shielding flame-retardant polyurea composites. Small 2024, 20, 2307492.(中科院二区top,IF=13.0)[原文链接]

2023年

27. B. Hou, Y. -T. Pan*, P. Song*. Metal-organic frameworks as promising flame retardants for polymeric materials. Microstructures 2023, 3, 2023039. (Invited Review,新刊)[原文链接]

26. Z. Han, W. Zhang, X. Song, H. Vahabi, Y. -T. Pan*, W. Zhang*, R. Yang. Fast char formation induced by POSS confining Co-MOF hollow prisms in epoxy composites with mitigated heat and smoke hazards. Chem. Eng. J. 2023, 474, 145682. (中科院一区,IF=13.3)[原文链接]

25. X. Song, B. Hou, Z. Han, Y. -T. Pan*, Z. Geng*, L. H. Ibarra, R. Yang. Dual nucleation sites induced by ZIF-67 towards mismatch of polyphosphazene hollow sub-micron polyhedrons and nanospheres in flame retardant epoxy matrix. Chem. Eng. J. 2023, 470, 144278.(中科院一区,IF=13.3)[原文链接]

24. K. Song, Y. -T. Pan*, J. Zhang, P. Song, J. He*, D. -Y. Wang, R. Yang. Metal-organic frameworks-based flame-retardant system for epoxy resin: A review and prospect. Chem. Eng. J. 2023, 468, 143653.(Review,中科院一区,IF=13.3,ESI高被引/Hot Paper)[原文链接]

23. T. Lin, Z. Zhao, T. Wang, Y. -T. Pan*. Three-dimensional printing of large ceramic products and process simulation. Materials 2023, 16, 3815.(中科院三区,IF=3.1)[原文链接]

22. K. Song, H. Zhang, Y. -T. Pan*, Z. Ur Rehman, J. He*, D. -Y. Wang, R. Yang. Metal-organic framework-derived bird’s nest-like capsules for phosphorous small molecules towards flame retardant polyurea composites. J. Colloid Interf. Sci. 2023, 643, 489.(中科院一区,IF=9.4)[原文链接]

21. K. Song, X. Li, Y. -T. Pan*, B. Hou, Z. Ur Rehman, J. He*, R. Yang. The influence on flame retardant epoxy composites by a bird's nest-like structure of Co-based isomers evolved from zeolitic imidazolate framework-67. Polym. Degrad. Stabil. 2023, 211, 110318.(中科院二区,IF=6.3)[原文链接]

2022年

20. K. Song, Q. Li, Y. Yuan, S. Hu, J. Liu, Y. Zhang, Y. -T. Pan*, W. Zhao*, J. He. Hollow  nanospheres of red phosphorus for fireproof flexible sensors fabricated via 3D printing. ACS Appl. Nano Mater. 2022, 5, 18080.(中科院二区,IF=5.3)[原文链接]

19. B. Hou, W. Zhang, H. Lu, K. Song, Z. Geng, X. Ye, Y. -T. Pan*, W. Zhang*, R. Yang. Multi-element flame retardant system constructed by metal-POSS organic frameworks for epoxy resin.  ACS Appl. Mater. Interfaces 2022, 14, 49326.(中科院二区top,IF=8.3)[原文链接]

18. K. Song, B. Hou, Z. Ur Rehman, Y. -T. Pan*, J. He*, D. -Y. Wang, R. Yang. “Sloughing” of metal-organic framework retaining nanodots via step-by-step carving and its flame-retardant effect in epoxy resin. Chem. Eng. J. 2022, 448, 137666.(中科院一区,IF=13.3)[原文链接]

17. B. Hou, K. Song, Z. Ur Rehman, T. Song, T. Lin, W. Zhang, Y.-T. Pan*, R. Yang. Precise control of a yolk-double shell metal-organic framework-based nanostructure provides enhanced fire safety for epoxy nanocomposites. ACS Appl. Mater. Interfaces 2022, 14, 14805.(中科院二区top,IF=8.3)[原文链接]

2021年

16. Y. Yuan, Y.-T. Pan*, W. Zhang, M. Feng, N. Wang*, D.-Y. Wang, R. Yang. Delamination and engineered interlayers of Ti3C2 MXenes using phosphorous vapor toward flame-retardant epoxy nanocomposites.  ACS Appl. Mater. Interfaces 2021, 13, 48196.(中科院二区top,IF=8.3)[原文链接]

15. Y. Yuan, Y.-T. Pan*, Z. Zhang, W. Zhang, X. Li, R. Yang*. Nickle nanocrystals decorated on graphitic nanotubes with broad channels for fire hazard reduction of epoxy resin. J. Hazard. Mater. 2021, 402, 123880. (中科院一区,IF=12.2)[原文链接]

2020年

14. Y. Yuan, Y.-T. Pan*, Z. Zhang, R. Yang. Temperature-tuned dimensional transition of graphitic nanoparticles and its effect on the fire safety of epoxy nanocomposites. Compos. Commun. 2020, 22, 100488.(中科院二区,IF=6.5)[原文链接]

13. Y.-T. Pan*, Y. Yuan, D.-Y. Wang*, R. Yang. An overview of the flame retardants for poly (vinyl chloride): Current states and perspective. Chinese J. Chem. 2020, 38, 1870. (Critical Review,北理工80年校庆特刊,中科院一区, IF=5.5)[原文链接]

12. Z. Zhang, Z. Han, Y.-T. Pan*, D. Li, D.-Y. Wang, R. Yang. Dry synthesis of mesoporous nanosheet assembly constructed by cyclomatrix polyphosphazene frameworks and its application in flame retardant polypropylene. Chem. Eng. J. 2020, 395, 125076.(中科院一区,IF=13.3)[原文链接]

11. Z. Zhang, J. Qin, W. Zhang, Y.-T. Pan*, D.-Y. Wang, Rongjie Yang. Synthesis of a novel dual layered double hydroxide hybrid nanomaterial and its application in epoxy nanocomposites. Chem. Eng. J. 2020, 381, 122777.(中科院一区,IF=13.3, ESI高被引)[原文链接]

10. Y. Li, X. Li*, Y.-T. Pan*, X. Xu, Y. Song, R. Yang. Mitigation the release of toxic PH3 and the fire hazard of PA6/AHP composite by MOFs. J. Hazard. Mater. 2020, 395, 122604.(中科院一区,IF=12.2)[原文链接]

9. Y.-T. Pan*, Zhida Zhang, R. Yang*. The rise of MOFs and their derivatives for flame retardant polymeric materials: A critical review. Compos. Part B-Eng. 2020, 199, 108265.(Review,中科院一区,IF=12.7)[原文链接]

2019年以前

8. Z. Zhang, X. Li, Y. Yuan, Y.-T. Pan*, D.-Y. Wang, R. Yang. Confined dispersion of zinc hydroxystannate nanoparticles into layered bimetallic hydroxide nanocapsules and its application in flame-retardant epoxy nanocomposites. ACS Appl. Mater. Interfaces 2019, 11, 40951.(中科院二区top,IF=8.3)[原文链接]

7. Y.-T. Pan, L. Zhang, X. Zhao, D.-Y. Wang*. Interfacial engineering of renewable metal organic framework derived honeycomb-like nanoporous aluminum hydroxide with tunable porosity. Chem. Sci. 2017, 8, 3399.(中科院一区,IF=7.6)[原文链接]

6. Y.-T. Pan, J. Wan, X. Zhao, C. Li, D.-Y. Wang*. Interfacial growth of MOF-derived layered double hydroxide nanosheets on graphene slab towards fabrication of multifunctional epoxy nanocomposites. Chem. Eng. J. 2017, 330, 1222.(中科院一区,IF=13.3)[原文链接]

5. Y.-T. Pan, D. -Y. Wang*. Fabrication of low-fire-hazard flexible poly (vinyl chloride) via reutilization of heavy metal biosorbents. J. Hazard. Mater. 2017, 339, 143.(中科院一区,IF=12.2)[原文链接]

4. Y.-T. Pan, X. Wang, Z. Li, De-Yi Wang*. A facile approach towards large-scale synthesis of hierarchically nanoporous SnO2@Fe2O3 0D/1D hybrid and its effect on flammability, thermal stability and mechanical property of flexible poly(vinyl chloride). Compos. Part B-Eng. 2017, 110, 46.(中科院一区,IF=12.7)[原文链接]

3. Y.-T. Pan, M. Castillo-Rodríguez, De-Yi Wang*. Mesoporous metal oxide/pyrophosphate hybrid originated from reutilization of water treatment resin as a novel fire hazard suppressant. Mater. Chem. Phys. 2017, 203, 49. (中科院三区,IF=4.3)[原文链接]

2. Y.-T. Pan, C. Trempont, D.-Y. Wang*. Hierarchical nanoporous silica doped with tin as novel multifunctional hybrid material to flexible poly(vinyl chloride) with greatly improved flame retardancy and mechanical properties. Chem. Eng. J. 2016, 295, 451.(中科院一区,IF=13.3)[原文链接]

1. Y.-T. Pan, D.-Y. Wang*. One-step hydrothermal synthesis of nano zinc carbonate and its use as a promising substitute for antimony trioxide in flame retardant flexible poly(vinyl chloride). RSC Adv. 2015, 5, 27837.(中科院三区,IF=3.9)[原文链接]

参编书稿:

1. Ye-Tang Pan, De-Yi Wang. Chapter 10: Functionalized layered nanomaterials towards flame retardant polymer nanocomposites. Flame Retardant Polymeric Materials: A Handbook, CRC Press, 2019. [原文链接]

2. Qianlong Li,Ye-Tang Pan. Chapter 6: Flame retardant properties of metal oxide/polymer nanocomposites. Flame Retardant Nanocomposites, Woodhead Publishing, 2024. [原文链接]

3. Qianlong Li,Ye-Tang Pan. Chapter 9: Zero-dimensional nanomaterials for flame retardant epoxy thermosets and composites. Non-halogenated Flame-Retardant Technology for Epoxy Thermosets and Composites, Woodhead Publishing, 2024. [原文链接]

中文核心期刊:

[1]潘也唐,宋昆朋,吴川,何吉宇,李定华,杨荣杰.干法合成POSS基环交联聚磷腈阻燃环氧树脂实验研究[J].塑料科技,2022,50(02):6-9. [原文链接]

[2]刘晋, 刘圣洁, 潘也唐. 基于高分子材料的火灾预警传感器及自阻燃传感器研究现状[J]. 高分子通报, 2023,36(10):1263-1274.[原文链接]