团队主持多项纵向及横向科研项目，近几年承担课题如下：

1“高纯晶体硅还原炉纳米级硅系材料及高质量工业气凝胶产品的研发”，新特能源股份有限公司

2 “超分子功能凝胶体系中Fe3O4磁纳米晶的控制生长与性能优化”，国家自然科学基金

3 “功能型离子液体－超临界流体混合体系中的酶催化反应”，国家自然科学基金海外及港澳学者合作研究基金

4 “超分子凝胶体系中磁纳米Fe3O4的控制合成与优化”，天津市自然科学基金

5 “超分子功能凝胶中有序介孔氧化铝的结构构建”，中国石油科技创新基金研究项目

6 “超分子凝胶体系的网络结构调控及其在纳米可控合成中的模板作用”，教育部留学回国人员科研启动基金

7 “油茶综合利用与产品开发”产学研合作，福建麟祥农林业生态科技有限公司委托

8 “联合开发液晶体温测试卡”，天津出入境检验检疫局委托

1. Wang L P, Lian W X, Yin B, Liu X P, Tang S K*, Silica nanowires-reinforced silicaaerogels with outstanding thermal insulation, thermal stability and mechanical properties, Ceramics International, 2024, 50(4): 6693-6702.

2. Li P, He B, Li X, Lin Y F, Tang S K*, Chitosan-linked dual-sulfonate COF nanosheet proton exchange membrane with high robustness and conductivity, Small，2023：2302060.

3. Yin M L, Wang L P, Tang S K*, Stable Dicationic Covalent Organic Frameworks Manifesting Notable Structure-Enhanced CO2 Capture and Conversion, ACS Catalysis, 2023, 13(19): 13021–13033.

4. Li P, Zhang N X, Li X, Tang S K*, Silk nanofibril as nanobinder for preparing COF nanosheet-based proton exchange membrane, Green Energy Environment, 2023, 8(3):915-926.

5. Yin M L, Li Z, Wang L P, Tang S K*, Preparation of hierarchically porous PVP/ZIF-8by PVP-induced defect-formation method for high-efficiency CO2 adsorption, Separation and Purification Technology, 2023, 314: 123550.

6. Sun L W, Yin M L, Tang S K*, Bi-functionalized ionic liquid/metal-organic framework composite for low-concentration CO2 cycloaddition reaction under atmospheric pressure, Journal of Environmental Chemical Engineering, 2023, 11(5): 110483.

7. Zhang N X, Li X, Li P, Tang S K*, Guanidinium cationic covalent organic nanosheets-based anion exchange composite membrane for fuel cells, International Journal of Hydrogen Energy, 2023, 48(66): 25972-25983.

8. Lian W X, Zhang J, Liu W X, Liu K, Tang S K*, Monolithic chitosan-silica composite aerogel with comprehensive performances prepared by SBG-FD method, Ceramics International, 2023, 49(13): 21947-21956.

9. Liu W X, Yin B, Zhang J, Liu X P, Lian W X, Tang S K*, A novel strategy for the construction of silk fibroin-SiO2 composite aerogel with enhanced mechanical property and thermal insulation performance, Frontiers of Chemical Science and Engineering, 2023, 17: 288-297.

10. Liu K, Hu Y M, Yin B, Liu X P, Lian W X, Tang S K*, Hydrophobic anti-reflective silica hybrid film with tunable refractive index, Optics and Laser Technology, 2023, 159:108998.

11. 连文贤, 银波, 刘玮欣, 刘兴平, 张洁, 唐韶坤*. 还原氧化石墨烯-SiO2复合气凝胶的合成与性能. 高校化学工程学报, 2023, 37(05): 824-831.

12. Yin M L, Wang L P, Tang S K*, Amino-functionalized ionic liquid-grafted covalent organic frameworks for high-efficiency CO2 capture and conversion, ACS Applied Materials & Interfaces, 2022, 14(50): 55674-55685.

13. Li Z, Sun L L, Zhang J, Tang S K*, Controllable synthesis of zinc oxide with ionic liquid and supramolecular gel as co-template for the degradation of organic dyes, Korean Journal of Chemical Engineering, 2022, 39:3277-3285.

14. Sun L W, Yin M L, Li Z, Tang S K*, Facile microwave-assisted solvothermal synthesis of rod-like aluminum terephthalate [MIL-53(Al)] for CO2 adsorption, Journal of Industrial and Engineering Chemistry, 2022, 112: 279-286.

15. Chen J, Li P, Zhang N X, Tang S K*, A covalent organic framework membrane with enhanced directional ion nanochannels for efficient hydroxide conduction, Journal of Materials Chemistry A, 2022, 10: 7146.

16. Zhang NX, Li P, Li X, Tang S K*, Anion exchange composite membrane based on ionic liquid-grafted covalent organic framework for fuel cells, International Journal of Hydrogen Energy, 2022, 47(68): 29481-29494.

17. 张洁, 银波, 刘玮欣, 刘兴平, 连文贤, 唐韶坤*. 勃姆石纤维增强二氧化硅气凝胶的制备及性能. 高等学校化学学报, 2022, 43(11): 108-116.

18. Li P, Chen J, Tang S K*, Ionic liquid-impregnated covalent organic framework/silk nanofibril composite membrane for efficient proton conduction, Chemical Engineering Journal, 2021, 415: 129021.

19. Sun L W, Gao M, Tang S K*, Porous amino acid-functionalized poly(ionic liquid) foamed with supercritical CO2 and its application in CO2 adsorption, Chemical Engineering Journal, 2021, 412: 128764.

20. Chen J, Li P, Zhang N X, Tang S K*, Highly hydroxide-conducting hybrid anion exchange membrane with functional COF-enhanced ion nanochannels, Electrochimica Acta, 2021, 391: 138962.

21. Chen J, Guan M M, Li K, Tang S K*, Highly hydroxide-conductive anion exchange membrane with PIL@MOF-assisted ion nanochannels, Journal of Industrial and Engineering Chemistry, 2021, 94: 465-471.

22. Chen J, Guan M M, Li K, Tang S K*, High-performance COF-based composite anion exchange membrane sandwiched by GO layers for alkaline H2/O2 fuel cell application, Journal of Industrial and Engineering Chemistry, 2021, 104: 136-145.

23. Sun L W, Tang S K*, Task-specific ionic liquid-grafted mesoporous alumina for chemical fixation of carbon dioxide into cyclic carbonate, Journal of Molecular Liquids, 2021, 337: 116425.

24. Li P, Li K, Chen J, Tang S K*, Novel anion exchange membrane with poly ionic liquid-confined hypercrosslinked polymer for enhanced anion conduction and stability, International Journal of Hydrogen Energy, 2021, 46: 21590-21599.

25. Sun C G, Tang S K*, Hypergolic ionic mixtures with task-specific ions: a new strategy to improve performances of ionic liquids as propellant fuels, Combustion and Flame, 2021, 228: 107-113.

26. Sun L W, Yin M L, Tang S K*, Bi-functionalized ionic liquid-grafted mesoporous alumina: synthesis, characterization and CO2/N2 selectivity, Journal of Environmental Chemical Engineering, 2021, 9: 105829.

27. Yang XY, Li Z, Tang S K*, Tailored design of hierarchically porous UiO-66 with a controlled pore structure and metal sites, Crystal Growth & Design, 2021, 21(11): 6092-6100.

28. Yang XY, Lei X X, Tang S K*, Ionic liquid-assisted synthesis of hierarchicallyolive-like Al2O3 and CeO2/Al2O3 with enhanced catalytic activity for Orange IIdegradation, Ceramics International, 2021, 47(4): 5446-5455.

29. Wang Y, Wang S D, Li Z, Sun L W, Yang X Y, Tang S K*, Synthesis of UiO-66 in supercritical CO2 and its application in dye adsorption, Industrial &Engineering Chemistry Research, 2021, 60(1): 771-780.

30. 高明，孙丽伟，唐韶坤*.氨基酸功能化离子液体聚合物用于高效CO2吸附. 高校化学工程学，2021, 35(1): 164-171.

31. Chen J, Guan M M, Li K, Tang S K*, Novel quaternary ammonium-functionalized covalent organic frameworks/poly(2,6-dimethyl-1,4-phenylene oxide) hybrid anion exchange membranes with enhanced ion conductivity and stability, ACS Applied Materials & Interfaces, 2020, 12(13): 15138-15144.

32. Hu Y, Sun L, Tang S K*, Controllable synthesis of mesoporous silica with ionic liquid-supramolecular organogel cotemplate, Crystal Growth & Design,2020, 20(10): 6400-6406.

33. Li K, Chen J, Guan M M, Tang S K*, Novel multi-channel anion exchange membrane based on poly ionic liquid-impregnated cationic metal-organic frameworks, International Journal of Hydrogen Energy, 2020, 45(35): 17813-17823.

34. Yin B, Sun L, Tang S K*, Zhou H*, Preparation of metal-organic framework/polyvinylidene fluoride mixed matrix membranes for water treatment, Industrial& Engineering Chemistry Research, 2020, 59: 19689-19697.

35. Sun L W, Luo J Y, Gao M, Tang S K*, Bi-functionalized ionic liquid porous copolymers for CO2 adsorption and conversion under ambient pressure, Reactive and Functional Polymers, 2020, 154: 10463.

36. Sun C G, Tang S K*, Guanidinium dicyanamide-based nitrogen-rich energetic salts as additives of hypergolic ionic liquids, Energy & Fuel, 2020, 34(11):15068-1507.

37 Sun C G, Tang S K*, Hypergolic ionic liquid-ethanol mixtures for lower viscosity and shorter ignition delay: experimental and molecular dynamics simulations, Energy& Fuels, 2020, 34(2): 258−2589.

38. 王洋，王思迪，唐韶坤*. 超临界二氧化碳中亚胺类共价有机骨架材料COF-LZU1的合成与表征. 高等学校化学学报，2020, 41(8): 1792-1800.

39. 孙常庚，唐韶坤*. 自燃型离子液体点火燃烧机制研究进展. 含能材料，2020, 28(05): 435-441.

40. Sun C G, Tang S K*, Zhang X W, Hypergolicity evaluation and prediction of ionic liquids based on hypergolic reactive group, Combustion and Flame, 2019, 205: 441-445.

41. Sun L L, Han P, Tang S K*, Preparation of ordered mesoporous alumina supported-ZnO/NiO nanocomposite using supercritical carbon dioxide impregnation and its photocatalytic performance, ChemNanoMat, 2019, 5(6):723-728.

42. Wang S D, Tang S K*, Rapid and facile synthesis of metal organic framework materials by reaction crystallization in supercritical CO2, Materials Letters, 2019, 251: 65-68.

43. Sun L W, Tang S K*, Synthesis of bi-functionalized ionic liquid-mesoporous alumina composite material and its CO2 capture capacity, Korean Journal of Chemical Engineering, 2019, 36(10): 1708-1715.

44. Chen Y T, Tang S K*, Solvothermal synthesis of porous hydrangea like zeolitic imidazole framework 8 (ZIF-8) crystals, Journal of Solid State Chemistry,2019, 276: 68-74.

45. Lei X X, Liu T C, Tang S K*, Fabrication of cactus rod-like mesoporous alumina with ionic liquid-supramolecular gelator as cotemplate, Crystal Growth &Design, 2018, 18(9): 4971-4977.

46. Sun C G, Sun K, Tang S K*, Extended Stober method to synthesize core-shell magnetic composite catalyst Fe3O4@C-Pd for Suzuki coupling reactions, Materials Chemistry and Physics, 2018, 207: 181-185.

47. Li G T, Sun L W, Tang S K* Combination of supercritical fluid elution and resin adsorption for removal of procymidone from ginseng extracts, Korean Journal of Chemical Engineering, 2018, 35(4): 956-963.

48. Han P, Liu T C, Ji X W, Tang S K*, Morphology-controlled synthesis of mesoporous silica with co-template of surfactant P123 and ionic liquid [Dmim]Cl, Chinese Chemical Letter, 2018, 29(8): 1305-1309.

49. Chang P P, Zhang Z X, Tang S K*, Lipase-catalyzed synthesis of sugar ester inmixed biphasic system of ionic liquids and supercritical carbon dioxide, Journal of the Chinese Chemical Society, 2018, 65(4): 452-458.

50.雷璇璇，唐韶坤*，李林，孙丽伟. 离子液体辅助水热法合成六方片状γ-Al2O3. 高等学校化学学报，2018, 39(11): 2372-2379.

51. 管明明，陈佳，唐韶坤*. 新型双功能交联型阴离子交换膜的制备与性能. 高等学校化学学报，2018, 39(9): 2054-2064.

52. Sun C G, Tang S K*, Zhang X W, Role of cation structures for energetic performance of hypergolic ionic liquids, Energy & Fuels, 2017, 31(9):10055-10059.

53. 孙丽伟，骆静宜，唐韶坤*. 双功能离子液体的合成及二氧化碳捕集性能.高等学校化学学报，2017, 38(9): 1578-1583.

54. Sun K, Sun C G, Tang S K*, Controllable synthesis of coralloid Fe3O4 nanoclusters in an ionic liquid for catalytic applications, CrystEngComm,2016, 18(5): 714-720.

55. Li G T, Cui X L, Tang S K*, Removal of Cr(VI) using mesoporous alumina with different kinds of pore structures, Journal of Porous Materials,2016, 23(4): 919–926.

56. Gu L, Huang W, Tang S K*, Tian S J, Zhang X W, A novel deep eutectic solvent for biodiesel preparation using a homogeneous base catalyst, Chemical Engineering Journal, 2015, 259: 647-652.

57. Gao Z H, Tang S K*, Cui X L, Tian S J, Zhang M H, Efficient mesoporous carbon-based solid catalyst for the esterification of oleic acid, Fuel, 2015, 140: 669-676.

58. Ji X W, Tang S K*, Gu L, Liu T C, Zhang X W, Synthesis of rod-like mesoporous γ-Al2O3 by an ionic liquid-assisted sol–gel method, Materials Letters, 2015,151: 20–23.

59. Tang S K, Zhao H, Glymes as versatile solvents for chemical reactions and processes: from the laboratory to industry, RSC Advances, 2014, 4(22): 11251–11287.

60. Tang S K, Jones C L, Zhao H*, Glymes as new solvents for lipase activation and biodiesel preparation, Bioresource Technology, 2013, 129: 667–671.

61. Tang S K, Zhao H*, Song Z Y, Olubajo O, Glymes as benign co-solvents forCaO-catalyzed transesterification of soybean oil to biodiesel, Bioresource Technology, 2013, 139: 107–112.

62. Wang LP, Tang S K*, Zhou H, Controlled Synthesis of Magnetic Iron Oxide Nanoparticles Within a Supramolecular Organogel Fiber Network, Science of Advanced Materials, 2013, 5(7): 822-829.

63. Cui X L, Tang S K*, Zhou H, Mesoporous alumina materials synthesized indifferent gel templates, Materials Letters, 2013, 98: 116-119.

64. Huang W, Tang S K*, Zhao H, Tian S J, Activation of Commercial CaO for Biodiesel Production from Rapeseed Oil Using a Novel Deep Eutectic Solvent, Industrial& Engineering Chemistry Research, 2013, 52(34): 11943−11947.

65. TangS K*, Cui X L, Gu L, Zhou H, Zhang X W, A novel co-templating method for hierarchical mesoporous alumina monoliths replica, Functional Materials Letters, 2013, 6(6): 1350059-1-4.

66. Tang S K, Baker G A, Zhao H, Ether- and alcohol-functionalized task-specific ionic liquids: attractive properties and applications, Chemical Society Reviews, 2012, 41(10): 4030-4066.

67. Tang S K, Baker G A, Ravula S, Jones J E, Zhao H*, PEG-functionalized ionic liquids for cellulose dissolution and saccharification, Green Chemistry,2012, 14(10): 2922-2932.

68. Tang S K*, Wang L P, Zhang Y, Li S F, Tian S J, Wang B Y, Study on preparation of Ca/Al/Fe3O4 magnetic composite solid catalyst and its application in biodiesel transesterification, Fuel Processing Technology, 2012, 95: 84-89.

69. Tang S K*, Qin C R, Wang H Q, Li S F, Tian S J, Study on supercritical extraction of lipids and enrichment of DHA from oil-rich microalgae, Journal of Supercritical Fluids, 2011, 57(1): 44-49.

70. Tang S K, Liu X Y, Storm C, Producing Supramolecular Functional Materials Based on Fiber Network Reconstruction, Advanced Functional Materials,2009, 19(14): 2252-2259.

2019年11月，课题组博士研究生孙丽伟赴美参加2019 AIChE Annual国际会议，以“Bi-Functionalized Ionic Liquid/MOF Composite Material for Efficient Carbon Dioxide Capture and Conversion”为题作口头报告，并与相关领域的国际学者进行了学术交流。

2018年11月，课题组博士研究生陈佳赴美参加 2018 MRS Fall 国际会议，以“A novel hybrid anion exchange membrane with high performance by incorporating quaternary ammonium-functionalized covalent organic frameworks”为题作口头报告，并与相关领域的国际学者进行了学术交流。

2018年9月，唐韶坤教授参加在大连举行的第12届全国超临界流体技术会议并做主题报告。

2018年8月，唐韶坤教授参加在加拿大大瀑布市召开的第十届全球华人化工学者研讨会。

2018年3月，课题组博士研究生孙常庚赴美参加 255th ACS 国际会议，以“Two new strategies to improve hypergolic ionic liquids as propellant fuels”为题作口头报告，并与相关领域的国际学者进行了学术交流。

2015年10月，唐韶坤教授参加在韩国首尔举办的第11届国际超临界流体技术会议，与中国科学院韩布兴院士等合影。

2015年10月，唐韶坤教授参加在韩国首尔举办的第11届国际超临界流体技术会议，与台湾清华大学陈延平教授合影。

2013年10月，唐韶坤教授参加在台湾高雄举办的第8届国际超临界流体技术会议，与Professor King合影。