2024

105.  Ziao Zhou, Dinghao Chen, ….and Huaimin Wang.*, submitted

104.  Huayang Liu…. Jing Huang,* and Huaimin Wang.*, submitted

103.  Sangshuang Li, and Huaimin Wang.*, submitted

102.  Dinghao Chen… and Huaimin Wang.*, Science Advances, 2024, in revision

101.  Jing Wang, Laicheng Zhou, and Huaimin Wang.*, Nano Today, 2024, in revision

100.  Huayang Liu, and Huaimin Wang.*, Adv. Drug Deliv. Rev., 2024, accepted

99.  Bihan Wu, Juan Liang, Xuejiao Yang, Yu Fang, Nan Kong, Dinghao Chen, and Huaimin Wang.*, A programable peptidic hydrogel adjuvant for personalized immunotherapy in resected stage tumors, J. Am. Chem. Soc. 2024, 146, 12, 8585–8597

 

2023

98.  Honglei Lu, Xuejiao Yang, and Huaimin Wang.*, Tuning Phase Transition of Molecular Self-Assembly by Artificial Chaperones through Aromatic–Aromatic Interactions, Biomacromolecules, 2023, 25 (1), 466-473

97.  Hongyue Zhang, Tengyan Xu, Bihan Wu, Xuejiao Yang, Jing Wang, Ziao Zhou, and Huaimin Wang.*, Controlling Supramolecular Fiber Formation of Nucleopeptide by Guanosine Triphosphate, Biomacromolecules, 2023, 24 (12), 5678

96.  Jiaqi Wang, Zihan Liu, Shuang Zhao, Tengyan Xu, Huaimin Wang*, Stan Z. Li*, Wenbin Li*,  Deep Learning Empowers the Discovery of Self‐Assembling Peptides with Over 10 Trillion Sequences, Adv. Sci. 2023, 10, 31, 2301544

95.  Chongyang Wu, Hongyue Zhang, Nan Kong, Bihan Wu, Xinhui Lin, and Huaimin Wang*, Dynamic Control of Cyclic Peptide Assembly to Form Higher-Order Assemblies. Angew. Chem. Int. Ed., 2023, 135, 36, e202303455

94.  Tengyan Xu, Jiaqi Wang, Shuang Zhao, Dinghao Chen, Hongy Zhang, Yu Fang, Nan Kong, Ziao Zhou, Wenbin Li*, Huaimin Wang*. Accelerating the prediction and discovery of peptide hydrogels with human-in-the-loop. Nature Commun, 2023, 14,  3880

93.  Bihan Wu, Huaimin Wang*. Peptide Assemblies as Promising Tumor Vaccines: Current Platforms and Progress. BIO Integration, 2023, DOI: https://doi.org/10.15212/bioi-2023-0005 (invited)

92.  Chongyang Wu, Huaimin Wang*. Recent Progress on Cyclic Peptides Assembly and Biomedical Applications. ChemBioChem, 2023, e202300018 (invited, ChemBioTalents)

91.  Hongyue Zhang, Xuejiao Yang, Kaihua Chen, and Huaimin Wang*. Hierarchical Self‐assembly of G‐Quadruplexes Based Hydrogel Consisting of Guanine and Peptide Epitope. Chinese Journal of Chemistry, 2023, 41 (14), 1727  (Cover)

90.  Xuejiao Yang, Honglei Lu, Nan Kong and Huaimin Wang*, Confinement of Assemblies of Peptides by Chemical Reactions in Living Cells. Chem. Eur. J, 2023, 29 (14), e202203145.

89.  Tengyan Xu,‡ Huihui Ren,‡ Yu Fang, Kun Liang, Hongyue Zhang, Dingwei Li, Yitong Chen, Bowen Zhu,* and Huaimin Wang*.  Glucose Sensing by Field-Effect Transistors Based on Interfacial Hydrogelation of Self-Assembled Peptide. Applied Materials Today, 2023, 30, 101713

 

2022

88.  Xuejiao Yang, Honglei Lu, Bihan Wu, and Huaimin Wang*, Triggered Self-Sorting of Peptides to Form Higher-Order Assemblies in Living System.  Acs Nano, 2022, 16, 11, 18244–18252

87.  Chen, D.‡ Kong, N.,‡ Wang, H.*, Leading-edge pulmonary gene therapy approached by barrier-permeable delivery system: a  concise review on peptide system. Advanced NanoBiomed Research, 2022 (Invited Review)

86.  Xuejiao Yang.,‡ Bihan Wu,‡ Jiong Zhou, Honglei Lu, Hongyue Zhang, Feihe Huang, and Huaimin Wang*. Controlling  Intracellular Enzymatic Self-Assembly of Peptide by Host-Guest Complexation for Programming Cancer Cell Death. Nano Letters, 2022, 22, 18, 7588 (Front cover)

85.  Yang, X., Lu, H., Tao, Y., Zhang, H., Wang, H.*, Controlling supramolecular filament chirality of hydrogel by co-assembly of enantiomeric aromatic peptides. Journal of Nanobiotechnology 2022, 20 (1), 1-12.

84.  Wu, B.; Zhao, S.; Yang, X.;  Zhou, L.;  Ma, Y.;  Zhang, H.;  Li, W.; Wang, H.*, Biomimetic Heterodimerization of Tetrapeptides to Generate Liquid Crystalline Hydrogel in A Two-Component System. ACS nano 2022, 16 (3), 4126-4138.

83.  Choi, H.; Park, G.; Shin, E.;  Shin, S. W.;  Jana, B.;  Jin, S.;  Kim, S.;  Wang, H.;  Kwak, S. K.; Xu, Intramitochondrial Co- assembly between ATP and Nucleopeptide Induces Cancer Cell Apoptosis. Chem. Sci. 2022.

82.  Ren, H.; Xu, T.; Liang, K.;  Li, J.;  Fang, Y.;  Li, F.;  Chen, Y.;  Zhang, H.;  Li, D.; Tang, Y., Wang, Y., Song, C., Wang, H.*, Zhu, B.,* Self-assembled peptides-modified flexible field-effect transistors for tyrosinase detection. Iscience 2022, 25 (1), 103673.

81.  Fang, Y.; Wang, H.*, Molecular Engineering of Peptide–Drug Conjugates for Therapeutics. Pharmaceutics 2022, 14 (1), 212.  (Invited Review)

80.  Wang, J.; Hu, L.; Zhang, H.;  Fang, Y.;  Wang, T.; Wang, H.*, Intracellular Condensates of Oligopeptide for Targeting Lysosome and Addressing Multiple Drug Resistance of Cancer. Adv. Mater. 2022, 34 (1), 2104704. (select as frontispiece)

2021

79.  Li, J.; Fang, Y.; Zhang, Y.;  Wang, H.;  Yang, Z.; Ding, D.*, Supramolecular Self‐Assembly‐Facilitated Aggregation of Tumor-Specific Transmembrane Receptors for Signaling Activation and Converting Immunologically Cold to Hot Tumors. Adv. Mater. 2021, 33 (16), 2008518.

78. Yang, X.; Lu, H.; Tao, Y.;  Zhou, L.; Wang, H.*, Spatiotemporal Control over Chemical Assembly in Living Cells by Integration of Acid‐Catalyzed Hydrolysis and Enzymatic Reactions. Angew. Chem. Int. Ed. Engl. 2021, 60 (44), 23797-23804. (hot paper)

77. Hu, L.; Li, Y.; Lin, X.;  Huo, Y.;  Zhang, H.; Wang, H.*, Structure‐Based Programming of Supramolecular Assemblies in Living Cells for Selective Cancer Cell Inhibition. Angew. Chem. Int. Ed. Engl.,  2021, 60 (40), 21807-21816. (Front piece and hot paper)

76. Yang, X.; Cao, Z.; Lu, H.; Wang, H.*, In Situ Construction of Functional Assemblies in Living Cells for Cancer Therapy. Adv. Healthcare Mater. 2021, 10 (14), 2100381.

75. Ji, T.*, Han, K.*, Wang, H.*. Frontiers in Chemistry (2021). Doi: 10.3389/fchem.2020.637926

74. Zheng, D.; Liu, J.; Ding, Y.;  Xie, L.;  Zhang, Y.;  Chen, Y.;  Peng, R.;  Cai, M.;  Wang, L.; Wang, H.*, Gao, J.*, Yang, Z.*, Tandem molecular self-assembly for selective lung cancer therapy with an increase in efficiency by two orders of magnitude. Nanoscale 2021, 13 (24), 10891-10897.

2020

73. Shy, A. N.; Wang, H.; Feng, Z.; Xu, B., Heterotypic Supramolecular Hydrogels Formed by Noncovalent Interactions in Inflammasomes. Molecules 2020, 26 (1), 77.

72. Cao, M.-Y.; Ma, B.-J.; Lao, Z.-Q.;  Wang, H.;  Wang, J.;  Liu, J.;  Xing, K.;  Huang, Y.-H.;  Gan, K.-J.; Gao, W., Wang, H., Hong, X., Lu, H.*, Optically active flavaglines-inspired molecules by a palladium-catalyzed decarboxylative dearomative asymmetric allylic alkylation. J. Am. Chem. Soc. . 2020, 142 (28), 12039-12045.

71. Feng, Z.#, Wang, H.#, Wang, F., Oh, Y., Berciu, C., Cui, Q. *, Egelman, E. *, Bing Xu. *, Artificial Intracellular Filaments, Cell Reports Physical Science (2020). (# co-first authors)

70. Feng, Z.; Wang, H.; Yi, M.;  Lo, C. Y.;  Sallee, A.;  Hsieh, J. T.; Xu, B.*, Instructed‐assembly of small peptides inhibits drug‐resistant prostate cancer cells. Peptide Science 2020, 112 (1), e24123.

69. Hu, Y.; Wang, H.; Li, C.;  Liu, J.,* Xu, B.*, Di, W.*, Enzyme-instructed assembly of a cholesterol conjugate promotes pro-inflammatory macrophages and induces apoptosis of cancer cells. Biomater. Sci. . 2020, 8 (7), 2007-2017.

68. Wang, H.*, Feng, Z., Xu, B.*, Supramolecular Assemblies of Peptides or Nucleopeptides for Gene Delivery, Theranostics, 9 (2019) 3213-3222

Year 2019 and before (Postodc & PhD)

67. Wang, H., Feng, Z., Xu, B.*, Dynamic Continuum of Molecular Assemblies for Controlling Cell Fates, Chembiochem, 20 (2019) 2442-2446. (VIP paper, top 5%)

66. Wang, H., Feng, Z., Tan, W., Xu, B., Assemblies of d-Peptides for Targeting Cell Nucleolus, Bioconjug. Chem., 30 (2019), 2528-2532

65. Feng, Z., Han, X., Wang, H., Tang, T.*, Xu, B.*, Enzyme-instructed peptide assemblies selectively inhibit bone tumors., Chem 5 (2019), 2442-2449

64. Wang, H., Feng, Z., Xu, B.*, Assemblies of Peptides in Complex Environment and Their Applications, Angew. Chem. Int. Ed. Engl., 58 (2019) 10423-10432.

63. Wang, H.#, Feng, Z.#, Xu, B.*, Intercellular Instructed-Assembly Mimics Protein Dynamics to Induce Cell Spheroids, J. Am. Chem. Soc., 141 (2019) 7271-7274. (# co-first authors)

62. Wang, H., Feng, Z., Xu, B.*, Instructed‐Assembly as Context‐Dependent Signals for Death and Morphogenesis of Cells, Angew. Chem. Int. Ed. Engl., 58 (2019) 5567-5571.

61. Wang, H., Feng, Z., Yang, C., Liu, J., Medina, J. E., Aghvami, S. A., Dinulescu, D. M., Liu, J., Fraden, S., Xu, B.*, Unraveling the Cellular Mechanism of Assembling Cholesterols for Selective Cancer Cell Death, Mol Cancer Res, 17 (2019) 907-917.

60. Feng, Z., Wang, H., Xu, B.*, Instructed Assembly of Peptides for Intracellular Enzyme Sequestration, J. Am. Chem. Soc., 140 (2018) 16433-16437. (Highlighted in Nature Methods)

59. Feng, Z., Wang, H., Wang, S., Zhang, Q., Zhang, X., Rodal, A. A., Xu, B.*, Enzymatic Assemblies Disrupt the Membrane and Target Endoplasmic Reticulum for Selective Cancer Cell Death, J. Am. Chem. Soc., 140 (2018) 9566-9573.

58. Wang, H., Feng, Z., Qin, Y., Wang, J., Xu, B.*, Nucleopeptide Assemblies Selectively Sequester Atp in Cancer Cells to Increase the Efficacy of Doxorubicin, Angew. Chem. Int. Ed. Engl., 57 (2018) 4931-4935.

57. Wang, H., Feng, Z., Del Signore, S. J., Rodal, A. A., Xu, B.*, Active Probes for Imaging Membrane Dynamics of Live Cells with High Spatial and Temporal Resolution over Extended Time Scales and Areas, J. Am. Chem. Soc., 140 (2018) 3503-3509.

56. He, H., Wang, J., Wang, H., Zhou, N., Yang, D., Green, D. R., Xu, B.*, Enzymatic Cleavage of Branched Peptides for Targeting Mitochondria, J. Am. Chem. Soc., (2018).

55. He, H., Wang, H., Zhou, N., Yang, D., Xu, B.*, Branched Peptides for Enzymatic Supramolecular Hydrogelation, Chem. Commun., 54 (2018) 86-89.

54. Wang, H., Shi, J., Feng, Z., Zhou, R., Wang, S., Rodal, A. A., Xu, B.*, An in Situ Dynamic Continuum of Supramolecular Phosphoglycopeptides Enables Formation of 3d Cell Spheroids, Angew. Chem. Int. Ed. Engl., 56 (2017) 16297-16301. (VIP paper, top 5%)

53. Feng, Z., Wang, H., Chen, X., Xu, B.*, Self-Assembling Ability Determines the Activity of Enzyme-Instructed Self-Assembly for Inhibiting Cancer Cells, J. Am. Chem. Soc., 139 (2017) 15377-15384.

52. Li, J., Shi, J., Medina, J. E., Zhou, J., Du, X., Wang, H., Yang, C., Liu, J., Yang, Z., Dinulescu, D. M.*, Xu, B.*, Selectively Inducing Cancer Cell Death by Intracellular Enzyme‐Instructed Self‐Assembly (Eisa) of Dipeptide Derivatives, Adv. Healthcare Mater., 6 (2017).

51. Wang, H, Feng, Z., Lu, A., Jiang, Y., Wu, H., Xu, B.*, Instant Hydrogelation Inspired by Inflammasomes, Angew. Chem. Int. Ed. Engl., 56 (2017) 7579-7583.

50. Feng, Z., Wang, H., Zhou, R., Li, J., Xu, B.*, Enzyme-Instructed Assembly and Disassembly Processes for Targeting Downregulation in Cancer Cells, J. Am. Chem. Soc., 139 (2017) 3950-3953.

49. Zhou, N., Cao, X., Du, X., Wang, H., Wang, M., Liu, S., Nguyen, K., Schmidt‐Rohr, K., Xu, Q., Liang, G., Xu, B.*, Hyper‐Crosslinkers Lead to Temperature‐and Ph‐Responsive Polymeric Nanogels with Unusual Volume Change, Angew. Chem. Int. Ed. Engl., 56 (2017) 2623-2627.

48. Du, X., Zhou, J., Wang, H., Shi, J., Kuang, Y., Zeng, W., Yang, Z., Xu, B.*, In Situ Generated D-Peptidic Nanofibrils as Multifaceted Apoptotic Inducers to Target Cancer Cells, Cell Death Dis., 8 (2017) e2614.

47. Luo, Z., Wu, Q., Yang, C., Wang, H., He, T., Wang, Y., Wang, Z., Chen, H., Li, X.*, Gong, C.*, Yang, Z.*, A Powerful CD8+ T‐Cell Stimulating D‐Tetra‐Peptide Hydrogel as a Very Promising Vaccine Adjuvant, Adv. Mater., 29 (2017).

46. Wang, H., Feng, Z., Xu, B.*, D-Amino Acid-Containing Supramolecular Nanofibers for Potential Cancer Therapeutics, Drug Delivery Rev., 110 (2017) 102-111.

45. Feng, Z., Zhang, T., Wang, H., Xu, B.*, Supramolecular Catalysis and Dynamic Assemblies for Medicine, Chem. Soc. Rev, 46 (2017) 6470-6479.

44. Wang, H., Feng, Z., Xu, B.*, Bioinspired Assembly of Small Molecules in Cell Milieu, Chem. Soc. Rev., 46 (2017) 2421-2436.

43. Wang, H., Feng, Z., Wang, Y., Zhou, R., Yang, Z., Xu, B.*, Integrating Enzymatic Self-Assembly and Mitochondria Targeting for Selectively Killing Cancer Cells without Acquired Drug Resistance, J. Am. Chem. Soc., 138 (2016) 16046-16055.

42. Wang, H., Feng, Z., Wu, D., Fritzsching, K. J., Rigney, M., Zhou, J., Jiang, Y., Schmidt-Rohr, K., Xu, B.*, Enzyme-Regulated Supramolecular Assemblies of Cholesterol Conjugates against Drug-Resistant Ovarian Cancer Cells, J. Am. Chem. Soc., 138 (2016) 10758-10761.

41. Han, A.#, Wang, H.#, Kwok, R. T., Ji, S., Li, J., Kong, D., Tang, B. Z., Liu, B.*, Yang, Z.*, Ding, D.*, Peptide-Induced Aiegen Self-Assembly: A New Strategy to Realize Highly Sensitive Fluorescent Light-up Probes, Anal. Chem., , 88 (2016) 3872-3878. (# co-first authors)

40. Wang, H.#, Luo, Z.#, Wang, Y., He, T., Yang, C., Ren, C., Ma, L., Gong, C.*, Li, X.*, Yang, Z.*, Enzyme‐Catalyzed Formation of Supramolecular Hydrogels as Promising Vaccine Adjuvants, Adv. Funct. Mater., 26 (2016) 1822-1829. (# co-first authors)

39. Liu, Y., Wang, H., Li, D., Tian, Y., Liu, W., Zhang, L., Zheng, W., Hao, Y., Liu, J., Yang, Z., Shao, Y.*, Jiang, X.*, In Situ Formation of Peptidic Nanofibers Can Fundamentally Optimize the Quality of Immune Responses against Hiv Vaccine, Nanoscale Horizons, 1 (2016) 135-143.

38. Feng, Z., Wang, H., Du, X., Shi, J., Li, J., Xu, B.*, Minimal C-Terminal Modification Boosts Peptide Self-Assembling Ability for Necroptosis of Cancer Cells, Chem. Commun., 52 (2016) 6332-6335.

37. Wang, H.#, Mao, D.#, Wang, Y., Wang, K.*, Yi, X., Kong, D., Yang, Z., Liu, Q.*, Ding, D.*, Biocompatible Fluorescent Supramolecular Nanofibrous Hydrogel for Long-Term Cell Tracking and Tumor Imaging Applications, Scientific reports, 5 (2015). (# co-first authors)

36. Li, J., Kuang, Y., Shi, J., Zhou, J., Medina, J. E., Zhou, R., Yuan, D., Yang, C., Wang, H., Yang, Z., Liu, J., Dinulescu, D. M.*, Xu, B.*, Enzyme‐Instructed Intracellular Molecular Self‐Assembly to Boost Activity of Cisplatin against Drug‐Resistant Ovarian Cancer Cells, Angew. Chem. Int. Ed. Engl., 127 (2015) 13505-13509.

35. Tian, R., Wang, H., Niu, R.*, Ding, D.*, Drug Delivery with Nanospherical Supramolecular Cell Penetrating Peptide–Taxol Conjugates Containing a High Drug Loading, Colloid Interface Sci., 453 (2015) 15-20.

34. Ren, C., Wang, H., Mao, D., Zhang, X., Fengzhao, Q., Shi, Y., Ding, D., Kong, D., Wang, L., Yang, Z.*, When Molecular Probes Meet Self‐Assembly: An Enhanced Quenching Effect, Angew. Chem. Int. Ed. Engl., 54 (2015) 4823-4827.

33. Wang, H.#, Wang, Y.#, Zhang, X., Hu, Y., Yi, X., Ma, L., Zhou, H., Long, J., Liu, Q.*, Yang, Z.*, Supramolecular Nanofibers of Self-Assembling Peptides and Proteins for Protein Delivery, Chem. Commun., 51 (2015) 14239-14242. (# co-first authors)

32. Zhang, X., Dong, C., Huang, W., Wang, H., Wang, L., Ding, D., Zhou, H., Long, J., Wang, T.*, Yang, Z.*, Rational Design of a Photo-Responsive Uvr8-Derived Protein and a Self-Assembling Peptide–Protein Conjugate for Responsive Hydrogel Formation, Nanoscale, 7 (2015) 16666-16670.

31. Shi, Y., Wang, J., Wang, H., Hu, Y., Chen, X., Yang, Z.*, Glutathione-Triggered Formation of a Fmoc-Protected Short Peptide-Based Supramolecular Hydrogel, PloS one, 9 (2014) e106968.

30. Wang, H., Wang, Y., Han, A., Cai, Y., Xiao, N., Wang, L., Ding, D., Yang, Z.*, Cellular Membrane Enrichment of Self-Assembling D-Peptides for Cell Surface Engineering, ACS Appl. Mater. Interfaces, 6 (2014) 9815-9821.

29. Tian, Y.#, Wang, H.#, Liu, Y., Mao, L., Chen, W., Zhu, Z., Liu, W., Zheng, W., Zhao, Y., Kong, D., Yang, Z.*, Zhang, W., Shao, Y.*, Jiang, X.*, A Peptide-Based Nanofibrous Hydrogel as a Promising DNA Nanovector for Optimizing the Efficacy of Hiv Vaccine, Nano letters, 14 (2014) 1439-1445. (# co-first authors)

28. Wang, H.#, Liu, J.#, Han, A., Xiao, N., Xue, Z., Wang, G., Long, J., Kong, D., Liu, B.*, Yang, Z.*, Ding, D.*, Self-Assembly-Induced Far-Red/near-Infrared Fluorescence Light-up for Detecting and Visualizing Specific Protein–Peptide Interactions, ACS Nano, 8 (2014) 1475-1484. (# co-first authors)

27. Cai, Y., Shi, Y., Wang, H., Wang, J., Ding, D., Wang, L.*, Yang, Z.*, Environment-Sensitive Fluorescent Supramolecular Nanofibers for Imaging Applications, Anal. Chem., 86 (2014) 2193-2199.

26. Ren, C., Wang, H., Zhang, X., Ding, D., Wang, L., Yang, Z.*, Interfacial Self-Assembly Leads to Formation of Fluorescent Nanoparticles for Simultaneous Bacterial Detection and Inhibition, Chem. Commun., 50 (2014) 3473-3475.

25. Li, J., Gao, Y., Kuang, Y., Shi, J., Du, X., Zhou, J., Wang, H., Yang, Z., Xu, B.*, Dephosphorylation of D-Peptide Derivatives to Form Biofunctional, Supramolecular Nanofibers/Hydrogels and Their Potential Applications for Intracellular Imaging and Intratumoral Chemotherapy, J. Am. Chem. Soc., 135 (2013) 9907-9914.

24. Yang, C., Wang, H., Li, D., Wang, L.*, Molecular Hydrogels with Esterase‐Like Activity, Chin. J. Chem.,  31 (2013) 494-500.

23. Wang, H., Han, A., Cai, Y., Xie, Y., Zhou, H.*, Long, J.*, Yang, Z.*, Multifunctional Biohybrid Hydrogels for Cell Culture and Controlled Drug Release, Chem. Commun., , 49 (2013) 7448-7450.

22. Wei, J.#, Wang, H.#, Zhu, M., Ding, D., Li, D., Yin, Z., Wang, L.*, Yang, Z.*, Janus Nanogels of Pegylated Taxol and Plga–Peg–Plga Copolymer for Cancer Therapy, Nanoscale, 5 (2013) 9902-9907. (# co-first authors)

21. Wang, H., Shi, Y., Wang, L., Yang, Z.*, Recombinant Proteins as Cross-Linkers for Hydrogelations, Chem. Soc. Rev, 42 (2013) 891-901.

20. Wang, H., Yang, Z.*, Adams, D. J.*, Controlling Peptidebased Hydrogelation, Mater. Today., 15 (2012) 500-507.

19. Wang, H.#, Wei, J.#, Yang, C., Zhao, H., Li, D., Yin, Z., Yang, Z.*, The Inhibition of Tumor Growth and Metastasis by Self-Assembled Nanofibers of Taxol, Biomaterials, 33 (2012) 5848-5853. (# co-first authors)

18. Ou, C., Wang, H., Yang, Z.*, Chen, M.*, Precursor‐Involved and Conversion Rate‐Controlled Self‐Assembly of A’super Gelator’in Thixotropic Hydrogels for Drug Delivery, Chin. J. Chem., 30 (2012) 1781-1787.

17. Li, D., Wang, H., Kong, D., Yang, Z.*, BSA-Stabilized Molecular Hydrogels of a Hydrophobic Compound, Nanoscale, 4 (2012) 3047-3049.

16. Zhang, X., Chu, X., Wang, L., Wang, H., Liang, G., Zhang, J., Long, J.*, Yang, Z.*, Rational Design of a Tetrameric Protein to Enhance Interactions between Self‐Assembled Fibers Gives Molecular Hydrogels, Angew. Chem. Int. Ed. Engl., 124 (2012) 4464-4468.

15. Wang, H., Yang, Z.*, Molecular Hydrogels of Hydrophobic Compounds: A Novel Self-Delivery System for Anti-Cancer Drugs, Soft Matter, 8 (2012) 2344-2347.

14. Mao, L., Wang, H., Tan, M., Ou, L., Kong, D., Yang, Z.*, Conjugation of Two Complementary Anti-Cancer Drugs Confers Molecular Hydrogels as a Co-Delivery System, Chem. Commun., 48 (2012) 395-397.

13. Wang, H., Lv, L., Xu, G., Yang, C., Sun, J., Yang, Z.*, Molecular Hydrogelators Consist of Taxol and Short Peptides/Amino Acids, J. Mater. Chem., , 22 (2012) 16933-16938.

12. Wang, H., Yang, Z.*, Short-Peptide-Based Molecular Hydrogels: Novel Gelation Strategies and Applications for Tissue Engineering and Drug Delivery, Nanoscale, 4 (2012) 5259-5267.

11. Wang, W., Wang, H., Ren, C., Wang, J., Tan, M., Shen, J., Yang, Z., Wang, P. G.*, Wang, L.*, A Saccharide-Based Supramolecular Hydrogel for Cell Culture, Carbohydr. Res, 346 (2011) 1013-1017.

10. Wang, Z., Wang, H., Zheng, W., Zhang, J., Zhao, Q., Wang, S., Yang, Z.*, Kong, D.*, Highly Stable Surface Modifications of Poly (3-Caprolactone)(Pcl) Films by Molecular Self-Assembly to Promote Cells Adhesion and Proliferation, Chem. Commun., 47 (2011) 8901-8903.

9. Liu, H., Hu, Y., Wang, H., Wang, J., Kong, D., Wang, L., Chen, L.*, Yang, Z.*, A Thixotropic Molecular Hydrogel Selectively Enhances Flk1 Expression in Differentiated Murine Embryonic Stem Cells, Soft Matter, 7 (2011) 5430-5436.

8. Wang, H., Wang, Z., Yi, X., Long, J., Liu, J., Yang, Z.*, Anti-Degradation of a Recombinant Complex Protein by Incoporation in Small Molecular Hydrogels, Chem. Commun.,  47 (2011) 955-957.

7. Wang, H., Yang, C., Tan, M., Wang, L., Kong, D., Yang, Z.*, A Structure–Gelation Ability Study in a Short Peptide-Based ‘Super Hydrogelator’system, Soft Matter, 7 (2011) 3897-3905.

6. Wang, H., Yang, C., Wang, L., Kong, D., Zhang, Y., Yang, Z.*, Self-Assembled Nanospheres as a Novel Delivery System for Taxol: A Molecular Hydrogel with Nanosphere Morphology, Chem. Commun., 47 (2011) 4439-4441.

5. Wang, J., Wang, H., Song, Z., Kong, D., Chen, X., Yang, Z.*, A Hybrid Hydrogel for Efficient Removal of Methyl Violet from Aqueous Solutions, Colloids Surf., B, 80 (2010) 155-160.

4. Wang, H., Ren, C., Song, Z., Wang, L., Chen, X., Yang, Z.*, Enzyme-Triggered Self-Assembly of a Small Molecule: A Supramolecular Hydrogel with Leaf-Like Structures and an Ultra-Low Minimum Gelation Concentration, Nanotechnology, 21 (2010) 225606.

3. Wang, H., Wang, Z., Song, D., Wang, J., Gao, J., Wang, L., Kong, D.*, Yang, Z.*, Enzyme-Assisted Formation of Nanosphere: A Potential Carrier for Hydrophobic Compounds, Nanotechnology, 21 (2010) 155602.

2. Hu, Y., Wang, H., Wang, J., Wang, S., Liao, W., Yang, Y., Zhang, Y., Kong, D.*, Yang, Z.*, Supramolecular Hydrogels Inspired by Collagen for Tissue Engineering, Organic & biomolecular chemistry, 8 (2010) 3267-3271.

1. Gao, J., Wang, H., Wang, L.*, Wang, J., Kong, D.*, Yang, Z.*, Enzyme Promotes the Hydrogelation from a Hydrophobic Small Molecule, J. Am. Chem. Soc.,  131 (2009) 11286-11287.