2017 - 2022 美国宾夕法尼亚州立大学 材料科学与工程 博士 导师：Qiming Zhang/Qing Wang
2013 - 2016 南京大学 化学工程 硕士 导师：沈群东
2007 - 2011 南京大学 化学 学士

2022 - 2023 美国宾夕法尼亚州大学 材料科学与工程Qing Wang教授课题组/电子工程Qiming Zhang教授课题组博士后
2011 - 2013 南京大学沈群东教授课题组助理研究员

1）聚合物电介质材料压电性、电致伸缩、挠曲电性能研究及相关力电耦合器件研发；
2）高性能有机铁电体材料的研发；
3）有机铁电聚合物在柔性电子器件中的相关应用，如信息储存、能量收集、力/热/光传感器等；
4）基于卡效应的制冷技术中相关材料与器件的研究；
5）耐高温聚合物电介质及其纳米复合物在电容储能中的相关研究。

1. 国家海外青年人才项目“高分子电介质能量转换与存储的机理与应用研究”，2024. 01 - 2026. 12， 主持
2. 自然科学基金委面上项目“跨尺度结构缺陷对铁电高分子β相压电效应的调控”，2025.01-2028.12， 主持
3. 自然科学基金委基础科学中心项目“光控软物质科学”，2025.01-2029.12，项目骨干

以第一（含共一）或通讯作者在Science (2篇), Matter, Sci. Adv., Adv. Mater., Nano Energy, Adv. Funct. Mater., Energy & Environ. Sci. 等期刊发表论文20余篇。

2024年

1. D. Han, Y. Zhang, C. Huang, S. Zheng, D. Wu, Q. Li, F. Du, H. Duan, W. Chen, J. Shi, J. Chen, G. Liu, X. Chen, X. Qian, Self-oscillating polymeric refrigerator with high energy efficiency. Nature 629, 1041–1046 (2024).


2023年

1. X. Qian*, X. Chen*, L. Zhu, Q. M. Zhang, Fluoropolymer ferroelectrics: Multifunctional platform for polar-structured energy conversion. Science 380, eadg0902 (2023).*Co-first author

2. Y. Liu, Y. Zhou, H. Qin, T. Yang, X. Chen, L. Li, Z. Han, K. Wang, B. Zhang, W. Lu, L.-Q. Chen, J. Bernholc, Q. Wang, Electro-thermal actuation in percolative ferroelectric polymer nanocomposites. Nature Materials 22, 873-879 (2023).

3. Z. Han, H. Qin, X. Chen, W. Xu, Y. Liu, J. Bernholc, Q. Wang, Microstructures and Ferroelectric Properties of Poly(vinylidene fluoride-ter-trifluoroethylene-ter-vinyl fluoride) Terpolymers. Macromolecules 56, 4065-4074 (2023).

4. X. Chen, W. Zhu, Q. M. Zhang, Electrocaloric cooling technologies for a sustainable world. iEnergy 2, 100-108 (2023).

5. X. Chen, W. Zhu, A. S. Rattner, Q. M. Zhang, A self-actuated electrocaloric polymer heat pump design exploiting the synergy of electrocaloric effect and electrostriction. Journal of Physics: Energy 5, (2023).

6. X. Chen, H. Qin, W. Zhu, B. Zhang, W. Lu, J. Bernholc, Q. M. Zhang, Giant Electrostriction Enabled by Defect-Induced Critical Phenomena in Relaxor Ferroelectric Polymers. Macromolecules 56, 690-696 (2023).

7. X. Chen, H. Qin, Y. Liu, Y.-T. Lin, B. Zhang, W. Lu, S. H. Kim, J. Bernholc, Q. Wang, Q. M. Zhang, Interfacial origin of dielectric constant enhancement in high-temperature polymer dilute nanocomposites. Applied Physics Letters 122, (2023).

2022年

1. X. Chen, H. Qin, X. Qian, W. Zhu, B. Li, B. Zhang, W. Lu, R. Li, S. Zhang, L. Zhu, F. Domingues Dos Santos, J. Bernholc, Q. M. Zhang, Relaxor ferroelectric polymer exhibits ultrahigh electromechanical coupling at low electric field. Science 375, 1418-1422 (2022).

2. X. Wu, X. Chen, Q. M. Zhang, D. Q. Tan, Advanced dielectric polymers for energy storage. Energy Storage Materials 44, 29-47 (2022).

3. Y. Liu, X. Chen, Z. Han, H. Zhou, Q. Wang, Defects in poly(vinylidene fluoride)-based ferroelectric polymers from a molecular perspective. Applied Physics Reviews 9, (2022).

4. M.-D. Li, X.-Q. Shen, X. Chen, J.-M. Gan, F. Wang, J. Li, X.-L. Wang, Q.-D. Shen, Thermal management of chips by a device prototype using synergistic effects of 3-D heat-conductive network and electrocaloric refrigeration. Nature Communications 13, (2022).

5. L. Li, Y. Zhou, Y. Liu, X. Chen, Z. Han, Q. Wang, Perspective on scalable high-energy-density polymer dielectrics with ultralow loadings of inorganic nanofillers. Applied Physics Letters 120, (2022).

6. Z. Han, Y. Liu, X. Chen, W. Xu, Q. Wang, Enhanced Piezoelectricity in Poly(vinylidene fluoride-co-trifluoroethylene-co-chlorotrifluoroethylene) Random Terpolymers with Mixed Ferroelectric Phases. Macromolecules 55, 2703-2713 (2022).

7. X. Chen, Q. Zhang, Z. Liu, Y. Sun, Q. M. Zhang, High dielectric response in dilute nanocomposites via hierarchical tailored polymer nanostructures. Applied Physics Letters 120, (2022).

8. X. Chen, V. V. Shvartsman, D. C. Lupascu, Q. M. Zhang, Electrocaloric cooling—From materials to devices. Journal of Applied Physics 132, (2022).

9. X. Chen, H. Qin, X. Qian, W. Zhu, B. Li, B. Zhang, W. Lu, R. Li, S. Zhang, L. Zhu, F. Domingues Dos Santos, J. Bernholc, Q. M. Zhang, Relaxor ferroelectric polymer exhibits ultrahigh electromechanical coupling at low electric field. Science 375, 1418-1422 (2022).

2021年

1 Y. Zhang, C. K. Jeong, J. Wang, X. Chen, K. H. Choi, L. Q. Chen, W. Chen, Q. M. Zhang, Q. Wang, Hydrogel Ionic Diodes toward Harvesting Ultralow‐Frequency Mechanical Energy. Advanced Materials 33, (2021).

2. Q. Zhang*, X. Chen*†, B. Zhang, T. Zhang, W. Lu, Z. Chen, Z. Liu, S. H. Kim, B. Donovan, R. J. Warzoha, E. D. Gomez, J. Bernholc†, Q. M. Zhang†, High-temperature polymers with record-high breakdown strength enabled by rationally designed chain-packing behavior in blends. Matter 4, 2448-2459 (2021). *Co-first author, †coresponding authors

3. B. Zhang, X. Chen*, W. Lu, Q. M. Zhang, J. Bernholc, Morphology-induced dielectric enhancement in polymer nanocomposites. Nanoscale 13, 10933-10942 (2021). *Co-first author

4. X. Qian, D. Han, L. Zheng, J. Chen, M. Tyagi, Q. Li, F. Du, S. Zheng, X. Huang, S. Zhang, J. Shi, H. Huang, X. Shi, J. Chen, H. Qin, J. Bernholc, X. Chen, L.-Q. Chen, L. Hong, Q. M. Zhang, High-entropy polymer produces a giant electrocaloric effect at low fields. Nature 600, 664-669 (2021).

5. Y. Hambal, V. V. Shvartsman, D. Lewin, C. H. Huat, X. Chen, I. Michiels, Q. Zhang, D. C. Lupascu, Effect of Composition on Polarization Hysteresis and Energy Storage Ability of P(VDF-TrFE-CFE) Relaxor Terpolymers. Polymers 13, (2021).

6. L.-Q. Cheng, Y. Yan, X. Li, X. Xiong, X. Chen, L.-F. Zhu, W. Li, K. Chen, M. Sanghadasa, S. Priya, Electrocaloric Performance of Multilayer Ceramic Chips: Effect of Geometric Structure Induced Internal Stress. ACS Applied Materials & Interfaces 13, 38508-38516 (2021).

7. X. Chen, W. Zhu, Q. M. Zhang, Improving electric thermal stability of polypropylene by chemically linking small amount of hindered phenol groups. MRS Advances 6, 321-326 (2021).

8. X. Chen, T. Yang, Q. Zhang, L. Q. Chen, V. Bobnar, C. Rahn, Q. M. Zhang, Topological structure enhanced nanostructure of high temperature polymer exhibiting more than ten times enhancement of dipolar response. Nano Energy 88, (2021).

9. X. Chen, V. Shvartsman, D. C. Lupascu, Q. M. Zhang, Comment on “Giant pyroelectric energy harvesting and a negative electrocaloric effect in multilayered nanostructures” by G. Vats, A. Kumar, N. Ortega, C. R. Bowen and R. S. Katiyar, Energy Environ. Sci., 2016, 9, 1335. Energy & Environmental Science 14, 1612-1614 (2021).

10. X. Chen, S. Li, X. Jian, Y. Hambal, S.-G. Lu, V. V. Shvartsman, D. C. Lupascu, Q. M. Zhang, Maxwell relation, giant (negative) electrocaloric effect, and polarization hysteresis. Applied Physics Letters 118, (2021).

2020年

1. T. Zhang, X. Chen, Q. Zhang, Q. M. Zhang, Dielectric enhancement over a broad temperature by nanofiller at ultra-low volume content in poly(ether methyl ether urea). Applied Physics Letters 117, (2020).

2. T. Zhang*, X. Chen*, Y. Thakur, B. Lu, Q. Zhang, J. Runt, Q. M. Zhang, A highly scalable dielectric metamaterial with superior capacitor performance over a broad temperature. Science Advances 6, eaax6622 (2020). *Co-first author

3. W. Xu, Z. Han, Y. Liu, X. Chen, H. Li, L. Ren, Q. Zhang, Q. Wang, Composition Dependence of Microstructures and Ferroelectric Properties in Poly(vinylidene fluoride-ter-trifluoroethylene-ter-chlorodifluoroethylene) Terpolymers. Macromolecules 53, 3139-3147 (2020).

4. J.-H. Liu, X. Chen, Y. Ren, Q.-D. Shen, All-organic flexible logical computing system based on electrical polarization of ferroelectric polymers. Applied Physics Letters 116, 253301 (2020).

5. Y.-X. Chen, X. Chen, X.-F. Zhang, Q.-D. Shen, Spatial- and Time-Resolved Mapping of Interfacial Polarization and Polar Nanoregions at Nanoscale in High-Energy-Density Ferroelectric Nanocomposites. ACS Applied Energy Materials 3, 3665-3672 (2020).

6. X. Chen, T. Zhang, Q. Zhang, Q. M. Zhang, paper presented at the 2020 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP), 2020.

2019年

1. Q. Zhang, X. Chen, T. Zhang, Q. M. Zhang, Giant permittivity materials with low dielectric loss over a broad temperature range enabled by weakening intermolecular hydrogen bonds. Nano Energy 64, (2019).

2. X. Jian, X. Chen, Q. M. Zhang, Relaxor Ferroelectric Capacitors Embrace Polymorphic Nanodomains. Joule 3, 2296-2298 (2019).

2018年

1. B. Lu, X. Chen, T. Zhang, S. G. Lu, Q. M. Zhang, Enhancing the electrocaloric effect in a relaxor polymer by including minor normal ferroelectric phase. Applied Physics Letters 113, (2018).

2. J.-H. Liu*, X. Chen*, Y. Li, X. Guo, H.-X. Ge, Q.-D. Shen, Ferroelectric polymer nanostructure with enhanced flexoelectric response for force-induced memory. Applied Physics Letters 113, 042903 (2018). *Co-first author

3. Z. Cheng, W. Zhou, C. Zhang, Q. Li, R. Sha, X. Chen, B. Chu, Q.-D. Shen, Composite of P(VDF-CTFE) and aromatic polythiourea for capacitors with high-capacity, high-efficiency, and fast response. Journal of Polymer Science Part B: Polymer Physics 56, 193-199 (2018).

4. Y. Chen, X. Chen, H. Lu, L. Zhang, Y. Yang, Q.-D. Shen, Defect-mediated polarization switching in ferroelectric films for low-power-consuming and ultra-high-density memories. Polymer 143, 281-288 (2018).

5. X. Chen, W. Xu, B. Lu, T. Zhang, Q. Wang, Q. M. Zhang, Towards electrocaloric heat pump—A relaxor ferroelectric polymer exhibiting large electrocaloric response at low electric field. Applied Physics Letters 113, (2018).

6. H. Aziguli, X. Chen, Y. Liu, G. Yang, P. Yu, Q. Wang, Enhanced electrocaloric effect in lead-free organic and inorganic relaxor ferroelectric composites near room temperature. Applied Physics Letters 112, (2018).

2017年以前

1. X. Chen, X. Han, Q.-D. Shen, PVDF-Based Ferroelectric Polymers in Modern Flexible Electronics. Advanced Electronic Materials 3, 1600460 (2017).

2. X. Han*, X. Chen*, X. Tang, Y.-L. Chen, J.-H. Liu, Q.-D. Shen, Flexible Polymer Transducers for Dynamic Recognizing Physiological Signals. Advanced Functional Materials 26, 3640-3648 (2016). *Co-first author

3. Y. Chen, X. Chen, D. Zhou, Q.-D. Shen, W. Hu, Low-temperature crystallization of P(VDF-TrFE-CFE) studied by Flash DSC. Polymer 84, 319-327 (2016).

4. X. Chen, S. Pan, P.-J. Feng, H. Bian, X. Han, J.-H. Liu, X. Guo, D. Chen, H. Ge, Q.-D. Shen, Bioinspired Ferroelectric Polymer Arrays as Photodetectors with Signal Transmissible to Neuron Cells. Advanced Materials 28, 10684-10691 (2016).

5. X. Guo, L. Liu, Z. Zhuang, X. Chen, M. Ni, Y. Li, Y. Cui, P. Zhan, C. Yuan, H. Ge, Z. Wang, Y. Chen, A New Strategy of Lithography Based on Phase Separation of Polymer Blends. Scientific Reports 5, 15947 (2015).

6. X. Chen, X. Tang, X.-Z. Chen, Y.-L. Chen, X. Guo, H.-X. Ge, Q.-D. Shen, Nonvolatile data storage using mechanical force-induced polarization switching in ferroelectric polymer. Applied Physics Letters 106, 042903 (2015).

7. X.-Z. Chen*, X. Chen*, X. Guo, Y.-S. Cui, Q.-D. Shen, H.-X. Ge, Ordered arrays of a defect-modified ferroelectric polymer for non-volatile memory with minimized energy consumption. Nanoscale 6, 13945-13951 (2014). *Co-first author

8. X.-Z. Chen, Q. Li, X. Chen, X. Guo, H.-X. Ge, Y. Liu, Q.-D. Shen, Nano-Imprinted Ferroelectric Polymer Nanodot Arrays for High Density Data Storage. Advanced Functional Materials 23, 3124-3129 (2013).

9. X. Chen, L. Liu, S.-Z. Liu, Y.-S. Cui, X.-Z. Chen, H.-X. Ge, Q.-D. Shen, P(VDF-TrFE-CFE) terpolymer thin-film for high performance nonvolatile memory. Applied Physics Letters 102, 063103 (2013).

1. 本科生《工程学导论》
2. 研究生《换能器原理与先进应用基础》

担任Nature Materials、Joule、Nature Communications、Science Advances、Advanced Materials等国际顶级期刊审稿人。