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2006-2010 中國(guó)科學(xué)技術(shù)大學(xué)，物理系，學(xué)士

2010-2015 美國(guó)雪城大學(xué)，物理系，博士，導(dǎo)師：Prof. Jennifer Schwarz, Prof. Mark Bowick

2015-2020 美國(guó)匹茲堡大學(xué)，化學(xué)工程系，博士后，導(dǎo)師：Prof. Anna Balazs

2021-現(xiàn)在 上海交通大學(xué)化學(xué)化工學(xué)院，長(zhǎng)聘教軌副教授

1）軟物質(zhì)材料計(jì)算模擬-自愈合可再加工高分子材料、聚合物電解質(zhì)材料

2）類器官和生物高分子的物理模型

2024 - 2026 國(guó)家自然科學(xué)基金青年項(xiàng)目 (主持)

2015–2020 美國(guó)匹茲堡大學(xué) (參與，結(jié)題)

軟物質(zhì)材料計(jì)算模擬

(1) 設(shè)計(jì)可變結(jié)構(gòu)工程大分子（STEM）凝膠作為軟彈性體和硬/軟材料：有后期引發(fā)劑的聚合物網(wǎng)絡(luò)在合成后有改性。與卡耐基梅隆大學(xué)Krzysztof Matyjaszewski 教授合作項(xiàng)目。使用耗散粒子動(dòng)力學(xué)（DPD）計(jì)算機(jī)模擬: 

    (a) 研究原始聚合物的合成

     (b) 研究凝膠在受外力形變時(shí)的力學(xué)性質(zhì)

     (c) 研究加入側(cè)鏈后材料軟化的物理起因

(2) 研究四維打印可變材料: 熱響應(yīng)水凝膠和硬纖維復(fù)合物的計(jì)算機(jī)模擬，使用凝膠有限元彈簧模型（gLSM）

     (a) 在薄水凝膠表面布置硬纖維：引導(dǎo)穩(wěn)定的三維形狀改變（硬纖維置于水凝膠內(nèi)部時(shí)不可實(shí)現(xiàn)）

     (b) 薄帶狀水凝膠及硬纖維復(fù)合物受熱下自發(fā)形成螺旋狀結(jié)構(gòu)并有可控的手性

(3) 設(shè)計(jì)創(chuàng)新納米材料：聚合物接枝納米粒子網(wǎng)絡(luò)的計(jì)算機(jī)模擬

     (a) 力學(xué)響應(yīng)可變系統(tǒng): 外力矩引發(fā)聚合物接枝納米粒子網(wǎng)絡(luò)的可控重組變化

     (b) 仿生納米復(fù)合物: 具有仿生“catch”鍵的聚合物接枝納米粒子網(wǎng)絡(luò)

     (c) 二元混合的聚合物接枝納米粒子網(wǎng)絡(luò): 相對(duì)于無序混合，層狀結(jié)構(gòu)展現(xiàn)更優(yōu)越的力學(xué)性質(zhì)

2010–2015 美國(guó)雪城大學(xué) (參與，結(jié)題)

軟物質(zhì)及生物物理計(jì)算模擬：分析三種不同的軟物質(zhì)系統(tǒng)—液泡，細(xì)胞膜，和生物高分子—來解答關(guān)于形狀，力學(xué)，和可編程性的問題。 

(1) 液泡: 數(shù)值研究通過磷脂雙分子層連接的液泡網(wǎng)絡(luò)所形成的類生物組織材料

    (a) 形狀可變：通過可編程滲透壓驅(qū)動(dòng)

     (b) 滲透壓機(jī)器人：通過添加與周圍動(dòng)態(tài)環(huán)境的滲透壓相互作用，來實(shí)現(xiàn)折疊-展開-再折疊過程

(2) 細(xì)胞膜: 酵母菌內(nèi)吞作用的理論模型，使用變分理論計(jì)算和蒙特卡洛數(shù)值模擬

     (a) 初始階段：網(wǎng)格蛋白通過轉(zhuǎn)接蛋白與細(xì)胞膜相互作用誘導(dǎo)細(xì)胞膜凹陷

     (b) 伸長(zhǎng)階段：細(xì)胞膜被肌動(dòng)蛋白纖維伸長(zhǎng)

     (c) 閉合階段：閉合階段機(jī)理可能和珍珠不穩(wěn)定性有關(guān)

(3) 生物高分子：細(xì)胞運(yùn)動(dòng)前沿的細(xì)胞骨架肌動(dòng)蛋白各向異性

     (a) 研究力學(xué)性質(zhì): 各向異性無序彈簧網(wǎng)絡(luò)的有效介質(zhì)近似理論和共軛梯度法數(shù)值計(jì)算 

     (b) 細(xì)胞骨架對(duì)基因轉(zhuǎn)錄的機(jī)械調(diào)節(jié): 通過分析多元無序彈簧網(wǎng)絡(luò)來研究細(xì)胞骨架-核纖層-基因的力傳導(dǎo)

Since SJTU

Synthetic Polymers

S. Ullah, Y. Zheng, J. Hu, M. Saeed, L. Li, T. Zhang*, and S. Zheng*.  Journal of Materials Science (2024)

J. Hu, G. Hang, T. Zhang*, L. Li , and S. Zheng*.  ACS Applied Polymer Materials (2024)

Muhammad Usman Saeed, Guohua Hang, Yuan Gao, Jiawei Hu, Lei Li, Tao Zhang*, and Sixun Zheng*, "Reprocessing, shape recovery and dielectric properties of nanocomposites of Polyhydroxyurethane with barium Titanate", Reactive and Functional Polymers (2024)

Muhammad Usman Saeed, Guohua Hang, Jiawei Hu, Yuan Gao, Lei Li, Tao Zhang*, and Sixun Zheng*, "Nanocomposites of Polyhydroxyurethane with Fe3O4 Nanoparticles: Synthesis, Shape Memory and Photothermal Properties", Polymer Engineering & Science (2024)

Jiawei Hu, Yuan Gao, Guohua Hang, Huaming Wang, Tao Zhang*, Sixun Zheng*, "Crosslinking of polyethylene with polysilsesquioxane via carbamate linkages: Synthesis, shape recovery, and reprocessing properties", Journal of Polymer Science (2024)    DOI

Shakir Ullah, Huaming Wang, Guohua Hang, Tao Zhang, Lei Li, Sixun Zheng, "Poly(thiourethane-co-ethylene oxide) networks crosslinked with disulfide bonds: Reinforcement with POSS and use for recyclable solid polymer electrolytes", Polymer 126318 (2023)     DOI

Huaming Wang, Jie Xu, Jiawei Hu, Guohua Hang, Tao Zhang*, and Sixun Zheng*, "Reprocessing and shape recovery and of polyurethane enabled by crosslinking with poly(β-cyclodextrin) via host-guest interactions", Polymer 126122 (2023)     DOI

Guohua Hang, Weiming Liu, Ullah Shakir, Tao Zhang*, and Sixun Zheng*, "Self-healable and reprocessable networks of Poly(propylene oxide) with POSS crosslinked with disulfide bonds", Polymer 125648 (2023)     DOI

Biopolymers

Minh Tri Ho Thanh, Arun Poudel, Shabeeb Ameen, Robert Carroll, Mingming Wu, Pranav Soman, Tao Zhang, Jen Schwarz,  Alison Elise Patteson, "Vimentin promotes collective cell migration through collagen networks via increased matrix remodeling and spheroid fluidity", bioRxiv 2024.06.17.599259 (2024) DOI 

Tao Zhang, Shabeeb Ameen, Sounok Ghosh, Kyungeun Kim, Minh Thanh, Alison E Patteson, Mingming Wu, JM Schwarz, "Enhanced extracellular matrix remodeling due to embedded spheroid fluidization", bioRxiv 2024.03. 25.586590 (2024) DOI

Kyungeun Kim, Tao Zhang*, J. M. Schwarz*, "Mean field elastic moduli of a three-dimensional cell-based vertex model", New Journal of Physics 26, 043009 (2024) DOI

Clémentine Villeneuve, Ali Hashmi, Irene Ylivinkka, Elizabeth Lawson-Keister, Yekaterina A. Miroshnikova, Carlos Pérez-González, Satu-Marja Myllym?ki, Fabien Bertillot, Bhagwan Yadav, Tao Zhang, Danijela Matic Vignjevic, Marja L. Mikkola, M. Lisa Manning* & Sara A. Wickstr?m*, "Mechanical forces across compartments coordinate cell shape and fate transitions to generate tissue architecture", Nature Cell Biology 26, 207–218 (2024)    DOI

Lawson-Keister E, Tao Zhang, Nazari F, Fagotto F, Manning ML*, "Differences in boundary behavior in the 3D vertex and Voronoi models", PLOS Computational Biology 20(1): e1011724 (2024)     DOI

Tao Zhang*, Sarthak Gupta, Madeline A. Lancaster*, J. M. Schwarz*, "How human-derived brain organoids are built differently from brain organoids derived of genetically-close relatives: A multi-scale hypothesis", arXiv 2304.08622 (2023) DOI         bioRxiv 2023.05.25.542171 DOI

Tao Zhang* and J. M. Schwarz*, "Topologically-protected interior for three-dimensional confluent cellular collectives", Physical Review Research 4, 043148 (2022)     DOI

Prior to SJTU

Tao Zhang, D. Wan, J. M. Schwarz, and M. J. Bowick, “Shape-shifting droplet networks”, Physical Review Letters 116 (10), 108301 (2016)

Tao Zhang, B.L. Mbanga, Victor V. Yashin, and Anna C. Balazs, “Using torsion for controllable reconfiguration of binary nanoparticle networks”, ACS Nano 11 (3), 3059-3066, (2017)

Tao Zhang, VV Yashin, JT Waters, AC Balazs, "Formation of helices with controllable chirality in gel-fiber composites", Polymer 212, 123191 (2021)

Tao Zhang, Santidan Biswas, Julia Cuthbert, Tomasz Kowalewski, Krzysztof Matyjaszewski, Anna C. Balazs, "Understanding the origin of softness in structurally tailored and engineered macromolecular (STEM) gels: A DPD study", Polymer 208, 122909 (2020)

Julia Cuthbert, Tao Zhang, Santidan Biswas, Mateusz Olszewski, Sivaprakash Shanmugam, Travis Fu, Eric Gottlieb, Tomasz Kowalewski, Anna C. Balazs, and Krzysztof Matyjaszewski. “Structurally Tailored and Engineered Macromolecular (STEM) Gels as Soft Elastomers and Hard/Soft Interfaces”, Macromolecules 51 (22), 9184-9191 (2018)

Tao Zhang, Victor V. Yashin, and Anna C. Balazs, “Fibers on the Surface of Thermo-responsive Gels Induce 3D Shape Changes”, Soft Matter 14 (10), 1822-1832 (2018)

Tao Zhang, Mbanga, B. L., Victor V. Yashin, and Anna C. Balazs, "Tailoring the mechanical properties of nanoparticle networks that encompass biomimetic catch bonds", Journal of Polymer Science Part B: Polymer Physics 56(1), 105-118 (2018)

Tao Zhang, BL Mbanga, VV Yashin, AC Balazs, "Effects of Morphology on the Mechanical Properties of Heterogeneous Polymer-grafted Nanoparticle Networks", Molecular Systems Design & Engineering 2 (4), 490-499 (2017)

Tao Zhang, R. Sknepnek, M. J. Bowick, and J. M. Schwarz, “On the modeling of endocytosis in yeast”, Biophysical Journal 108 (3), 508-519 (2015)

Tao Zhang, J. M. Schwarz, and Moumita Das, "Mechanics of anisotropic spring networks", Physical Review E 90(6), 062139 (2014)

已招收博士生三名

高分子物理,CHEM4421

招收碩士研究生，歡迎聯(lián)系，郵箱 [email protected]。