2025

119.  Nan Kong …Huaimin Wang.*, Submitted

118.  Dinghao Chen …Huaimin Wang.*, Submitted

117.  Honglei Lu …Huaimin Wang.*, In revision

116.  Ziao Zhou, …Huaimin Wang.*, In revision

115.  Ying Li, Tengyan Xu, Yaoting Li, and Huaimin Wang.*, Enzyme Induced Solid-like Condensates Formation of Engineered Peptide in Living Cells for Prostate Cancer Inhibition. Angewandte Chemie International Edition, 2025, e202504958, doi.org/10.1002/anie.202504958 [PDF][link]

114.  Ziao Zhou, Peng Zhang, Dinghao Chen, Nan Kong, Huayang Liu, Juan Liang, Kai Huang and Huaimin Wang.*, ACS Nano, 2025, 19, 16, 15733–15750 [PDF][link]

113.  Huayang Liu, Zilin Song, Yu Zhang, Bihan Wu, Dinghao Chen, Ziao Zhou, Hongyue Zhang, Sangshuang Li, Xinping Feng, Jing Huang,* and Huaimin Wang.*, De novo design of self-assembling peptides with antimicrobial activity guided by deep learning. Nature Materials., 2025, 1-12 [PDF][link]

112.  Yaoting Li, Huanfei Lu, Liheng Lu, and Huaimin Wang.*, Engineering Peptide Self-Assembly: Modulating Noncovalent Interactions for Biomedical Applications. Accounts of Materials Research,  2025, DOI: 10.1021/accountsmr.4c00391 [PDF][link]

111.  Laicheng Zhou, Longchen Zhu, Cong Wang, Tengyan Xu, Jing Wang, Bin Zhang*, Xin Zhang* and Huaimin Wang.*, Multiphasic condensates formed with monocomponent of tetrapeptides via phase separation. Nature Communications, 2025, 16, 2706 [PDF][link]

110.  Yu Fang, Junhui Shi, Juan Liang, Dan Ma*, Huaimin Wang*, Water-regulated viscosity-plasticity phase transitions in a peptide self-assembled muscle-like hydrogel. Nature Communications, 2025, 16, 1058. [PDF][link]

109.  Yu Zhang, Chunhua Ren*, Huayang Liu, Jingyi Duan, Mengyao Wang, Ziao Zhou, Jinyou Duan, Huaimin Wang*, and Xiaoli Zhang*, Near-infrared light-triggered in situ self-assembly nanomedicine for treating antibiotic-resistant bacterial infection. Chemical Engineering Journal, 2025, 161303 [PDF][link]

108. Sangshuang Li , Huayang Liu , Yu Fang , Yaoting Li , Laicheng Zhou , Dinghao Chen , Juan Liang and Huaimin Wang.* Programming Two-component Peptides Self-assembly by Tuning the Hydrophobic Linker. Faraday Discussions, 2025, DOI: 10.1039/D4FD00209A [PDF][link]

2024

107.  Bihan Wu, Xuejiao Yang, Nan Kong, Juan Liang, Sangshuang Li, and Huaimin Wang.*, Engineering Modular Peptide Nanoparticles for Ferroptosis-Enhanced Tumor Immunotherapy., Angewandte Chemie International Edition, 2024, DOI: 10.1002/anie.202421703[PDF][link]

106.  Kevin J Hughes, Jianjun Cheng, Kavita A Iyer, Krittika Ralhan, Magesh Ganesan, Chia-Wei Hsu, Yutao Zhan, Xinning Wang, Bowen Zhu, Menghua Gao, Huaimin Wang, Yue Zhang, Jiaxing Huang,* Qiongqiong Angela Zhou.*, Unveiling Trends: Nanoscale Materials Shaping Emerging Biomedical Applications, ACS Nano 2024, 18, 26, 16325–1634. [PDF][link]

105.  Ying Li, Liangbo Hu, Jing Wang, and Huaimin Wang.*, Clustering of the Membrane Protein by Molecular Self-Assembly Downregulates the Signaling Pathway for Cancer Cell Inhibition Nano Letters, 2024, 24, 34, 10681-10690. [PDF][link]

104.  Nan Kong, Dinghao Chen, Juan Liang, Bihan Wu, Huaimin Wang*, Reprogramming Macrophages towards Pro-inflammatory Polarization by Peptide Hydrogel. Biomacromolecules, 2024, 25.9, 5918-5927. [PDF][link]

103.  Dinghao Chen, Ziao Zhou, Nan Kong, Tengyan Xu, Juan Liang, Pingping Xu, Bingpeng Yao, Yu Zhang, Ying Sun, Ying Li, Bihan Wu, Xuejiao Yang, Huaimin Wang.*, Inhalable SPRAY nanoparticles by modular peptide assemblies reverse alveolar inflammation in lethal Gram-negative bacteria infection. Science Advances, 2024, 10.37: eado1749. [PDF][link]

102.  Sangshuang Li, and Huaimin Wang.*, Lysosomal Peptide Self‐Assembly To Control Cell Behavior. ChemBioChem, 2024, 25 (12), e202400232 [PDF][link]

101.  Jing Wang, Laicheng Zhou, and Huaimin Wang.*, Harnessing endocytic pH gradients for cascaded formation of intracellular condensates to inhibit autophagy: A pathway to cancer therapy. Nano Today, 2024, 27, 102317[PDF][link]

100.  Huayang Liu, and Huaimin Wang.*, From cells to subcellular organelles: Next-generation cancer therapy based on peptide self-assembly. Advanced Drug Delivery Reviews, 2024, 209, 115327 [PDF][link]

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, Journal of the American Chemical Society, 2024, 146, 12, 8585–8597 [PDF][link]

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[PDF][link]

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[PDF][link]

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, Advanced Science, 2023, 10, 31, 2301544[PDF][link]

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. Angewandte Chemie International Edition, 2023, 135, 36, e202303455[PDF][link]

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 Communications, 2023, 14,  3880[PDF][link]

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)[PDF][link]

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

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)[PDF][link]

90.  Xuejiao Yang, Honglei Lu, Nan Kong and Huaimin Wang*, Confinement of Assemblies of Peptides by Chemical Reactions in Living Cells. Chemistry – A European Journal, 2023, 29 (14), e202203145.[PDF][link]

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[PDF][link]

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[PDF][link]

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)[PDF][link]

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)[PDF][link]

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.[PDF][link]

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.[PDF][link]

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. Chemical Science. 2022, 13(21): 6197-6204.[PDF][link]

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.[PDF][link]

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

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. Advanced Materials. 2022, 34 (1), 2104704. (select as frontispiece)[PDF][link]

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. Advanced Materials, 2021, 33 (16), 2008518.[PDF][link]

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. Angewandte Chemie International Edition, 2021, 60 (44), 23797-23804. (hot paper)[PDF][link]

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. Angewandte Chemie International Edition,  2021, 60 (40), 21807-21816. (Front piece and hot paper)[PDF][link]

76. Yang, X.; Cao, Z.; Lu, H.; Wang, H.*, In Situ Construction of Functional Assemblies in Living Cells for Cancer Therapy. Advanced Healthcare Materials, 2021, 10 (14), 2100381.[PDF][link]

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

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.[PDF][link]

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.[PDF][link]

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.[PDF][link]

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)[PDF][link]

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.[PDF][link]

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.[PDF][link]

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

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.

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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.

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