孙浩博士.D.

郝孙的大头照
助理教授
化学研究生项目协调员

化学系和化学系 & 生物医学工程
Tagliatela工程学院
教育

美国西北大学高分子化学博士后
Ph.D.佛罗里达大学有机化学专业
M.Sc.,高分子化学 & 中山大学物理系
B.Sc.武汉大学化学系

关于郝

郝是一位有机和聚合物化学家. He joined the faculty of the 网赌上分平台 in August 2021. He will teach Organic 化学istry (CHEM2201) and Advanced Organic 化学istry (CHEM4501) in the fall of 2021.

Hao’s research program seeks chemistry-centered multidisciplinary approaches to addressing the challenges in global health and environment. Several areas in the intersection of synthetic polymer chemistry, 材料, 生物医学也将被研究, with particular focus on those most closely related to environmental and biomedical applications. His current research interests are centered in: (1) developing chemically-recyclable polymer 材料 for environmental applications; (2) developing modular and scalable approach for polymer-based delivery systems of therapeutics (e.g., 基因, 肽, and proteins); (3) designing next-基因ration sequence-defined polymers for understanding the role of monomer sequence in governing the material properties.

孙教授课题组网站: sunpolymerlab.com

出版物

†表示共同第一作者.
*为通讯作者.

  1. 太阳,H.†,梁,Y.†,汤普森,M.P.纽约州詹内斯基(Gianneschi.C.,“基于烯烃复分解聚合的可降解聚合物”, 掠夺. 变异较大. Sci., 2021, 120, 101427.
  2. Scheutz G.M.埃尔戈恩,J., Bentz, K.C.夏阳., 太阳,H.赵,J.萨文,D.A.萨默林,B.S., "Mediating Covalent Crosslinking of Single-Chain Nanoparticles through Solvophobicity in Organic Solvents", 变异较大. 化学., 2021,出版中.
  3. 周,X.龚,X.曹伟.福尔曼,C.J.奥克塔维茨,J.D ' Alba, L., 太阳,H.汤普森,M。.P.胡,Z.卡普尔,美国.麦卡勒姆,n.n.C.马利亚卡斯,C.D.法哈,欧.K.贾亚拉曼,A.肖基,M.D.纽约州詹内斯基(Gianneschi.C., "Anisotropic Synthetic Allomelanin 母亲ials via Solid State 聚合物ization of Self-Assembled 1,8-Dihydroxynaphthalene二聚体”, Angew. 化学. Int. Ed., 2021. DOI: 10.1002 / anie.202103447.
  4. 胡,Z., 太阳,H.汤普森,M。.P.肖,M.艾伦,M。.C.周,X., Ni, Q.王,Z.,李,W.伯卡特,M.D.D . Deheyn.D.迪诺瓦拉,A.肖基,M.D.纽约州詹内斯基(Gianneschi.C. "Structurally Colored Inks from Synthetic Melanin-Based Crosslinked Supraparticles", ACS资料册., 2021, 3, 50–55.
  5. 太阳,H.†,曹,W.†,Zang, N.†,克莱蒙斯,T. D.Scheutz G. M.胡,Z.汤普森,M。. P., 梁,Y.Vratsanos, M.周,X.蔡,W.萨默林,B. S.斯塔普,S. I纽约州詹内斯基(Gianneschi. C. “Proapoptotic Peptide Brush 聚合物 Nanoparticles via Photoinitiated 聚合物ization-Induced Self-Assembly.” Angew. 化学. Int. Ed. 2020, 59, 43, 19136-19142.
  6. 崔女士.; 太阳,H.; Battistella, C.; Berger, O.; Vratsanos, M.A.; Wang, M.; Gianneschi N. C., 生物分子密集接枝的刷状聚合物:寡核苷酸, 寡糖和寡肽”, Angew. 化学. Int. Ed., 2020, 59, 45, 19762-19772.
  7. 朱,我.; 太阳,H.; Callmann, C. E.; Thompson, M. P.; Battistella, C.; Proetto, M. T.; Carlini, A.S.; Gianneschi N. C.,“紫杉醇端肽刷聚合物”, 化学. Commun., 2020, 56, 6778-6781.
  8. 梁,Y.; 太阳,H.*; 曹,W.; Thompson, M. P.; Gianneschi N. C.* "Degradable Polyphosphoramidate via Ring-Opening Metathesis 聚合物ization." ACS宏列表. 2020, 9, 10, 1417–1422.
  1. 能剧,J.; 曹,W.; 太阳,H.; Yang, Y.; Gianneschi N. C.; Abbott, N., “Self-Assembly of 大分子 within Single Topological Defects of Nematic Solvents”, 化学. 母亲., 2020, 32, 15, 6753–6764.
  2. 曹,W.; McCallum, N. C.; Ni, Q. Z.; Li W.博伊斯,H.; Mao, H.; 周,X.; 太阳,H.; Thompson, M. P.; Battistella, C.; Wasielewski, M. R.; Dhinojwala, A.; Shawkey, M. D.; Burkart, M. D.; Wang, Z.; Gianneschi N. C.,“硒黑素:一种非生物硒类似物”, J. Am. 化学. Soc. 2020, 142, 29, 12802–12810.
  3. 卡维尔,.; Krasecki, V.; Li, G.; Sharma, A.; 太阳,H.; Thompson, M.P.; Forman, C.J.; Guo, S.; Hickman, R. J.; Parrish, K.; Aspuru-Guzik, A.; Cronin, L.; Gianneschi N. C.; Goldsmith, R. H., “Optical monitoring of polymerizations in droplets with high temporal dynamic range”, 化学. Sci., 2020, 11, 2647-2656
  4. Dobbins D. J.; Scheutz G. M.; 太阳,H.; Crouse, C.A.; Sumerlin, B. S., “Glass Transition Temperature Governs the Thermal Decrosslinking Behavior of Diels-Alder Crosslinked 变异较大ethacrylate Networks”, J. 变异较大. Sci., 2020, 58, 193-203.
  5. 太阳,H.; 崔女士.; Zang, N.; Battistella, C.; Thompson, M. P.; 曹,W.; 周,X.; Forman, C.; Gianneschi N. C., “Bioactive Peptide Brush 聚合物 via Photoinduced Reversible-Deactivation Radical 聚合物ization”, Angew. 化学. Int. Ed., 2019, 58, 17359-17364 (入选封底).
  6. 太阳,H.; 杨,我; Thompson, M. P; Schara, S; 曹,W; 崔女士; 胡,Z; Zang, N; Tan, W; Gianneschi N. C., “Recent Advances in Amphiphilic 聚合物-Oligonucleotide Nano材料 via Living/Controlled 聚合物ization Technologies”, Bioconjug. 化学., 2019, 30, 7, 1889-1904.
  7. 刘,D.; Zeng, R.; 太阳,H.; Zhang, L.; 棕褐色,J., “Blue Light-Initiated Alcoholic RAFT Dispersion 聚合物ization of Benzyl Methacrylate: A Detailed Study”, 聚合物, 2019, 11(8), 1284.
  8. Touve, M. A.; Wright, D. B.; Mu, C.; 太阳,H.; Park, C.; Gianneschi N. C., “Block Copolymer Amphiphile Phase Diagrams by High-Throughput Transmission Electron Microscopy”, 大分子, 2019, 52, 5529-5537.
  9. Fuller, E.G. †; 太阳,H. †; Dhavalikar, R.D.; Unni, M.; Scheutz G. M.; Sumerlin, B. S.; 里纳尔蒂,C., “Externally Triggered Heat and Drug Release from Magnetically Controlled Nanocarriers”, ACS应用高分子材料, 2019, 1, 211-220. (编辑的首选)
  10. 太阳,H.; Kabb, C. P.; Sims, M. B.; Sumerlin, B. S., “Architecture-Transformable 聚合物: Reshaping the Future of Stimuli-Responsive 聚合物”, 掠夺. 变异较大. Sci., 2019, 89, 61-75. (ESI高被引论文)
  11. 棕褐色,J.; Dai, X.; Zhang, Y.; Yu, L.; 太阳,H.; Zhang, L., “Photoinitiated polymerization-induced self-assembly via visible light-induced RAFT-mediated emulsion polymerization”, ACS宏列表, 2019, 8, 205-212. (Selected for cover; ESI高被引论文).
  12. 杨,我.; 太阳,H.; 刘,Y.; Hou, W.; Yang, Y.; Cai, R.; Cui, C.; Zhang, P.; Pan, X.; 李,X.; Li, L.; Sumerlin, B. S.; Tan, W., “Self-Assembled Aptamer-Hyperbranched 聚合物 Nanocarrier for Targeted and Photoresponsive Drug Delivery”, Angew. 化学. Int. Ed., 2018, 57, 17048-17052.
  13. 唐,H.; Luan, Y.; 杨,我.; 太阳,H.*, “A Perspective on Reversibility in Controlled 聚合物ization Systems: Recent 掠夺ress and New Opportunities”, 分子, 2018, 23(11), 2870. (相应的作者).
  14. 刘,Y.; 太阳,H.; 杨,我.; Liang, J.; 李,X.; Jiang, Y.; Hou, W.; Ferreira, C.; Talham, D. R.; Tan, W., “Chelation-Assisted Assembly of Multidentate Colloidal Nanoparticles into Metal-Organic Nanoparticles”, 纳米级, 2018, 10, 21369-21373.
  15. 杨,我.; 唐,H.; 太阳,H.*, “掠夺ress in Photo-Responsive Polypeptide Derived Nano-Assemblies”, 机器, 2018, 9, 296. (相应的作者).
  16. 李,X.; Figg, A.; Wang, R.; Jiang, Y.; Lyu, Y.; 太阳,H.; 刘,Y.; 王,Y.; Hou, W.; Cai, R.; Cui, C.; Li, L.; Pan, X.; Sumerlin, B. S.; Tan, W., “Cross-Linked Aptamer-Lipid 胶束 for Excellent Stability and Specificity in Target Cell Recognition”, Angew. 化学. Int. Ed., 2018, 57, 115899-11593.
  17. 太阳,H.; Kabb, C. P.; 戴,Y.; Hill, M. R.; Ghiviriga, I.; Bapat, A. P.; Sumerlin, B. S., “Macromolecular Metamorphosis via Stimulus-Induced Transformations of 聚合物 Architecture”, 化学性质, 2017, 9, 817-823. (2017年2月21日《网赌上分平台》重点报道).
  18. 戴,Y.; 太阳,H.; Pal, S.; Zhang, Y.; Park, S.; Kabb, C. P.; Wei, W.; Sumerlin, B. S., “Near-IR-Induced Dissociation of Thermally-Sensitive Star 聚合物”, 化学. Sci., 2017, 8, 1815-1821.
  19. 刘,Y.; Hou, W.; 太阳,H.; Cui, C.; Zhang, L.; Jiang, Y.; Wu, Y.; 王,Y.; Li, J.; Sumerlin, B. S.; Liu, Q.; Tan, W., “Thiol-Ene Click 化学istry: A Biocompatible Way for Orthogonal Bioconjugation of Colloidal Nanoparticles”, 化学. Sci., 2017, 8, 6182-6187.
  20. 湾,年代.; Zhang, L.; Wang, S.; 刘,Y.; Wu, C.; Cui, C.; 太阳,H.; Shi, M.; Jiang, Y.; Li, L.; Qiu, L.; Tan, W., “Molecular Recognition-Based DNA Nanoassemblies on the Surfaces of Nanosized Exosomes”, J. Am. 化学. Soc., 2017, 139 (15), 5289-5292. (ESI高被引论文).
  21. Alfurhood J. A.; 太阳,H.; Kabb, C. P.; Tucker, B. S.; Matthews, J. H.; Luesch, H.; Sumerlin, B. S., “Poly(N-(2-Hydroxypropyl) Methacrylamide)-Valproic Acid Conjugates as Block Copolymer Nanocarriers”, 变异较大. 化学., 2017, 8, 4983-4987.
  22. 王,Y.; Wu, C.; Chen, T.; 太阳,H.; Cansiz, S.; Zhang, L.; Cui, C.; Hou, W.; Wu, Y.; 湾,年代.; Cai, R.; 刘,Y.; Sumerlin, B. S.; Zhang, X.; Tan, W., “DNA Micelle Flares: A Study of the Basic Properties that Contribute to Enhanced Stability and Binding Affinity in Complex Biological Systems”, 化学. Sci., 2016, 7, 6041-6049
  23. 盾,P.; 太阳,H.; Quan, D., 聚l-丙交酯-co-5-氨基-5-甲基-1的合成,3-dioxan-2-ones)[P(L-LA-co-TAc)] Containing Amino 组 via Organocatalysis and Post-聚合物ization Functionalization”, 聚合物, 2016, 97, 614-622.
  24. Alfurhood J.A.; 太阳,H.; Bachler, P. R.; Sumerlin, B. S., “Hyperbranched Poly(N-(2-Hydroxypropyl) Methacrylamide) via RAFT Self-Condensing Vinyl 聚合物ization”, 变异较大. 化学., 2016, 7, 2099-2104.
  25. 太阳,H.; Dobbins D. J.; 戴,Y.; Kabb, C. P.; Wu, S.; Alfurhood J. A.; 里纳尔蒂,C.; Sumerlin, B. S., “Radical Departure: Thermally-Triggered Degradation of Azo-Containing Poly(β-Thioester)s”, ACS宏左, 2016, 5, 688-693.
  26. 棕褐色,J.; 太阳,H.; Yu, M.; Sumerlin, B. S.; Zhang, L., “Photo-PISA: Shedding Light on 聚合物ization-Induced Self-Assembly”, ACS宏左, 2015, 4, 1249-1253. (ESI高被引论文)
  27. 太阳,H.; Kabb, C.P.; Sumerlin, B. S., “Thermally-Labile Segmented Hyperbranched Copolymers: Using Reversible-Covalent 化学istry to Investigate the Mechanism of Self-Condensing Vinyl Copolymerization”, 化学. Sci., 2014, 5, 4646-4655.
专利
  1. 里纳尔蒂,C.; 太阳,H.; Sumerlin, B. S., “磁粒子共轭物, 胶束, 以及递送药剂的方法”PCT/US17/028852, WO2017189356A1, 2019.
  2. Gianneschi N.C.; Lavine, J.A.; Zhang, B.; Berger, O.; 崔女士.; Wang, M.; Battistella, C.; 太阳,H., “Brush 聚合物 for Therapeutic Applications” PCT/US2020/045729, WO/2021/030326, 2020.
  3. Gianneschi N.C.; 太阳,H., “Bioactive Peptide Brush 聚合物 via Photoinduced Reversible-Deactivation Radical 聚合物ization” PCT/US2020/053308, WO/2021/067293, 2020.
  4. Gianneschi N.C.; 梁,Y.; 太阳,H., “Fully and Partially Backbone-Degradable 聚合物 via Low Temperature Ring-Opening Metathesis 聚合物ization (ROMP)” US Provisional 63/047,799, 2020.