陈相仲

职称:青年研究员 

电话:+86 13270808106

Emailxzchen@fudan.edu.cn

办公地点:江湾校区交叉学科1号楼B4013

学习工作经历

  • 2023.03 -至今   复旦大学 光电研究院 青年研究员 (副高)

  • 2019.11-2023.02      瑞士联邦理工学院 机械与加工工程系 高级研究员

  • 2018.08-2019.01      美国伊利诺伊大学香槟分校 材料科学与工程院系 研究助理教授

  • 2013.11 – 2019.10      瑞士联邦理工学院 机器人与智能系统研究所 博士后

  • 2013.06 – 2013.10      南京大学 化学与化工学院 研究助理

  • 2011.10 – 2013.04      宾夕法尼亚州立大学材料研究所 访问学生

  • 2007.09 – 2013.06      南京大学 高分子化学与物理 理学博士

  • 2003.09 – 2007.06      南京林业大学 高分子材料与工程 工学学士

研究方向和领域

  • 铁性纳米材料的可控合成与制备

  • 铁性纳米材料中的新物性探究

  • 磁-力-电-化学的多场耦合效应

  • 铁性材料的生物学效应与应用

  • 基于铁性纳米材料的新器件

奖励资助和社会服务

  • 2021年 上海市上海市领军人才(海外)青年项目

  • 2019年 Elsevier出版社Carbon期刊杰出审稿人

代表性论文和论著


[1] Huang, H.; Yang, S. H.; Ying, Y. L.; Chen, X. Z.*; Puigmartí-Luis, J.; Zhang, L.; Pané, S., 3D Motion Manipulation for Micro- and Nanomachines: Progress and Future Directions. Advanced Materials 2023, 2305925.

[2] Rahimi, E.; Kim, D.; Offoiach, R.; Sanchis-Gual, R.; Chen, X. Z.; Taheri, P.; Gonzalez-Garcia, Y.; Mol, J. M. C.; Fedrizzi, L.; Pané, S.; Lekka, M., Biodegradation of Oxide Nanoparticles in Apoferritin Protein Media: A Systematic Electrochemical Approach. Advanced Materials Interfaces 2023, 2300558.

[3] Ning, S.; Sanchis-Gual, R.; Franco, C.; Wendel-Garcia, P. D.; Ye, H.; Veciana, A.; Tang, Q.; Sevim, S.; Hertle, L.; Llacer-Wintle, J.; Qin, X. H.; Zhu, C. H.; Cai, J.; Chen, X. Z.; Nelson, B. J.; Puigmartí-Luis, J.; Pané, S., Magnetic PiezoBOTs: a microrobotic approach for targeted amyloid protein dissociation. Nanoscale 2023, 15, 14800-14808.

[4] Rahimi, E.; Sanchis‐Gual, R.; Chen, X. Z.; Imani, A.; Gonzalez‐Garcia, Y.; Asselin, E.; Mol, A.; Fedrizzi, L.; Pané, S.; Lekka, M., Challenges and Strategies for Optimizing Corrosion and Biodegradation Stability of Biomedical Micro- and Nanoswimmers: A Review. Advanced Function Materials 2023, 2210345.

[5] Ye, H.; Wang, K.; Zhao, J.; Lu, Q.; Wang, M.; Sun, B.; Shen, Y.; Liu, H.; Chen, X. Z.*; Pané, S.; He, Z.; Sun, J., In situ sprayed nanovaccine suppressing exosomal PD-L1 by Golgi apparatus destruction for post-surgical melanoma immunotherapy. ACS Nano 2023, 17, 11, 10637–10650.

[6] Vukomanović, M.;  Gazvoda, L.;  Kurtjak, M.;  Maček‐Kržmanc, M.;  Spreitzer, M.;  Tang, Q.;  Wu, J.;  Ye, H.;  Chen, X. Z.;  Mattera, M.;  Puigmartí‐Luis, J.; Pane, S. V., Filler‐Enhanced Piezoelectricity of Poly‐L‐Lactide and Its Use as a Functional Ultrasound‐Activated Biomaterial. Small 2023, 2301981.

[7] Llacer-Wintle, J.;  Renz, J.;  Hertle, L.;  Veciana, A.;  Arx, D. v.;  Wu, J.;  Vukomanovic, M.;  Puigmartí-Luis, J.;  Nelson, B. J.;  Chen, X. Z.*; Pané, S.*, The magnetopyroelectric effect: Heat-mediated magnetoelectricity in magnetic nanoparticle-ferroelectric polymer composites. Materials Horizons 2023, 10, 2627-2637.

[8] Kim, D.;  Kim, M.;  Reidt, S.;  Han, H.;  Baghizadeh, A.; Zeng, P.; Choi, H.;  Puigmartí-Luis, J.;  Trassin, M.;  Nelson, B. J.;  Chen, X. Z.*; Pané, S.*, Shape-memory effect in twisted ferroic nanocomposites. Nature Communications 2023, 14, 750.  

[9] Sanchis‐Gual, R.;  Ye, H.;  Ueno, T.;  Landers, F. C.;  Hertle, L.;  Deng, S.;  Veciana, A.;  Xia, Y.;  Franco, C.;  Choi, H.;  Puigmartí‐Luis, J.;  Nelson, B. J.;  Chen, X. Z.*; Pané, S.*, 3D Printed Template‐Assisted Casting of Biocompatible Polyvinyl Alcohol‐Based Soft Microswimmers with Tunable Stability. Advanced Functional Materials 2023, 2212952.

[10] Kim, M.;  Kim, D.;  Aktas, B.;  Choi, H.;  Puigmartí‐Luis, J.;  Nelson, B. J.;  Pané, S.*; Chen, X. Z.*, Strain‐Sensitive Flexible Magnetoelectric Ceramic Nanocomposites. Advanced Materials Technologies 2023, 2202097.

[11] Tang, Q.;  Wu, J.;  Chen, X. Z.;  Sanchis-Gual, R.;  Veciana, A.;  Franco, C.;  Kim, D.;  Surin, I.;  Pérez-Ramírez, J.;  Mattera, M.;  Terzopoulou, A.;  Qin, N.;  Vukomanovic, M.;  Nelson, B. J.;  Puigmartí-Luis, J.; Pané, S., Tuning oxygen vacancies in Bi4Ti3O12 nanosheets to boost piezo-photocatalytic activity. Nano Energy 2023, 108, 108202.  

[12] Song, H.; Kim, D.-i.; Abbasi, S. A.; Latifi Gharamaleki, N.; Kim, E.; Jin, C.; Kim, S.; Hwang, J.; Kim, J.-y.; Chen, X. Z.; Nelson, B.; Pané, S.; Choi, H., Multi-target Cell Therapy Using a Magnetoelectric Microscale Biorobot for Targeted Delivery and Selective Differentiation of SH-SY5Y Cells via Magnetically Driven Cell Stamping. Materials Horizons 2022, 9 (12), 3031-3038.

[13] Wu, J.; Folio, D.; Zhu, J.; Jang, B.; Chen, X. Z.; Feng, J.; Gambardella, P.; Sort, J.; Puigmartí-Luis, J.; Ergeneman, O.; Ferreira, A.; Pané, S., Motion Analysis and Real‐Time Trajectory Prediction of Magnetically Steerable Catalytic Janus Micromotors. Advanced Intelligent Systems 2022, 4 (11), 2200192.

[14] de la Asuncion-Nadal, V.; Franco, C.; Veciana, A.; Ning, S.; Terzopoulou, A.; Sevim, S.; Chen, X. Z.; Gong; Cai, J.; Wendel-Garcia, P. D.; Jurado-Sanchez, B.; Escarpa, A.; Puigmarti-Luis, J.; Pane, S., MoSBOTs: Magnetically Driven Biotemplated MoS2 -Based Microrobots for Biomedical Applications. Small 2022, 18 (33), e2203821.

[15] Tang, Q.; Wu, J.; Kim, D.; Franco, C.; Terzopoulou, A.; Veciana, A.; Puigmartí‐Luis, J.; Chen, X. Z.; Nelson, B. J.; Pané, S., Enhanced Piezocatalytic Performance of BaTiO3 Nanosheets with Highly Exposed {001} Facets. Advacned Functional Materials 2022, 2202180.

[16] Kim, D.; Efe, I.; Torlakcik, H.; Terzopoulou, A.; Picazo, A. V.; Siringil, E.; Mushtaq, F.; Franco, C.; von Arx, D.; Sevim, S.; Puigmartí-Luis, J.; Nelson, B.; Spaldin, N. A.; Gattinoni, C.*; Chen, X.-Z.*; Pané, S.*, Magnetoelectric effect in hydrogen harvesting: magnetic field as a trigger of catalytic reactions. Advanced Materials 2022, 2110612.

[17] Lu, Y.; Wu, C.; Yang, Y.; Chen, X. Z.; Ge, F.; Wang, J.; Deng, J., Inhibition of tumor recurrence and metastasis via a surgical tumor-derived personalized hydrogel vaccine. Biomaterials Science 2022, 10 (5), 1352-1363.

[18] Mushtaq, F.;  Chen, X. Z.;  Veciana, A.;  Hoop, M.;  Nelson, B. J.; Pané, S., Magnetoelectric reduction of chromium(VI) to chromium(III). Applied Materials Today, 2022, 26, 101339.

[19] Terzopoulou, A.;  Palacios‐Corella, M.;  Franco, C.;  Sevim, S.;  Dysli, T.;  Mushtaq, F.;  Romero‐Angel, M.;  Martí‐Gastaldo, C.;  Gong, D.;  Cai, J.;  Chen, X. Z.;  Pumera, M.;  deMello, A. J.;  Nelson, B. J.;  Pané, S.; Puigmartí‐Luis, J., Biotemplating of Metal–Organic Framework Nanocrystals for Applications in Small‐Scale Robotics. Advanced Functional Materials, 2021, 2107421.

[20] Mattmann, M.; De Marco, C.; Briatico, F.; Tagliabue, S.; Colusso, A.; Chen, X. Z.; Lussi, J.; Chautems, S; Pané, S.; Nelson, B.; Thermoset Shape Memory Polymer Variable Stiffness 4D Robotic Catheters, Advanced Science 2021, 9, 2103277.

[21] Pané, S.;  Wendel-Garcia, P.;  Belce, Y.;  Chen, X.-Z.; Puigmartí-Luis, J., Powering and Fabrication of Small-Scale Robotics Systems. Current Robotics Reports 2021, Accepted.

[22] Llacer Wintle, J.; Rivas-Dapena, A.; Chen, X. Z.*; Pellicer, E.; Nelson, B.; Puigmartí-Luis, J.; Pané, S.; Biodegradable Small-Scale Swimmers for Biomedical Applications. Advanced Materials 2021, 2102049.

[23] Rahimi, E.;  Offoiach, R.;  Deng, S.;  Chen, X. Z.;  Pané, S.;  Fedrizzi, L.; Lekka, M., Corrosion mechanisms of magnetic microrobotic platforms in protein media. Applied Materials Today 2021, 24, 101135.

[24] Kim, D.; Rossell, M. D.; Campanini, M.; Erni, R.; Puigmartí-Luis, J.; Chen, X. Z.*; Pané, S.; Magnetoelectric coupling in micropatterned BaTiO3/CoFe2O4 epitaxial thin film structures: augmentation and site-dependency. Applied Physics Letters 2021,119, 012901.

[25] Wu, J.; Jang, B.; Harduf, Y.; Lehner, T.; Avci, B.; Chen, X. Z.; Puigmartí-Luis, J.; Ergeneman, O.; Nelson, B.J.; Or, Y.; Pané, S., Helical Klinotactic Locomotion of Two- Nanoswimmers with Dual-Function Drug-Loaded Soft Polysaccharide Hinges. Advanced Science 2021, 8 (8), 2004458.

[26] Gervasoni, S.; Terzopoulou, A.; Franco, C.; Veciana, A.; Pedrini, N.; Burri, J.; de Marco, C.; Siringil, E. C.; Chen, X. Z.*; Nelson, B. J.;  Puigmartí-Luis, J.; S. Pané., CANDYBOTS: A New Generation of 3D-Printed Sugar-based Transient Small-Scale Robots. Advanced Materials, 2020, 32 (52), e2005652.

[27] Terzopoulou, A.; Nicolas J.; Chen, X. Z.; Nelson, B. J.; Pané, S.; Puigmartí-Luis, J., FOCUS REVIEW – Metal-Organic Frameworks in Motion. Chemical Reviews 2020, 120 (20), 11175-11193.

[28] Terzopoulou, A.; Wang, X.; Chen, X. Z.*; Palacios-Corella, M.; Pujante, C.; Herrero-Martín, J.; Qin, X.-H.; Sort, J.; deMello, A. J.; Nelson, B. J.; Puigmartí-Luis, J.; Pané, S., Biodegradable MOFBOTs. Advanced Healthcare Materials, 2020, 9 (20), e2001031.

[29] Mushtaq, F.; Chen, X. Z.; Torlakcik, H.; Nelson, B. J.; Pané, S., Magnetoelectric Photocatalytic Nanoparticles Scavenging Energy from Three Sources for Enhanced Catalytic Degradation. Nano Research, 2020, 13 (8), 2183-2191. 

[30] Sevim, S.; Franco, C.; Chen, X. Z.; Sorrenti, A.; Rodríguez-San-Miguel, D.; Pané, S.; deMello, A. J.; Puigmartí-Luis, J., SERS Barcode Libraries: A Microfluidic Approach. Advanced Science 2020, 1903172. 

[31] Fernández-Barcia, M.; Jang, B.; Alcântara, C. C. J.; Wolff, U.; Gebert, A.; Uhlemann, M.; Chen, X. Z.; Puigmartí-Luis, J.; Sort, J.; Pellicer, E.; Pané, S., Exploiting electrolyte confinement effects for the electrosynthesis of two-engine micromachines. Applied Materials Today 2020, 19, 100629.

[32] Dong, M.; Wang, X. ; Chen, X. Z. *; Mushtaq, F.; Deng, S.; Zhu, C.; Torlakcik, H.; Terzopoulou, A.; Qin, X.-H.; Xiao, X.; Puigmarti-Luis, J.; Choi, H.; Pêgo A. P.; Shen, Q.-D.*; Nelson, B. J.; Pané, S.*, 3D-printed Biodegradable Soft Magnetoelectric Microswimmers for Delivery and Differentiation of Neuron-like Cells. Advanced Functional Materials, 2020, 1910323. 

[33] Zhou, Z.; Zhang, Q.; Yang, R.; Wu, H.; Zhang, M.; Qian, C.; Chen, X. Z.; Sun, M., ATP-Charged Nanoclusters Enable Intracellular Protein Delivery and Activity Modulation for Cancer Theranostics. iScience (cell press) 2020, 100872.

[34] Nicolenco, A.; Gómez, A.; Chen, X. Z.; Menéndez, E.; Fornell, J.; Pané, S.; Pellicer, E.; Sort, J., Strain gradient mediated magnetoelectricity in Fe-Ga/P(VDF-TrFE) multiferroic bilayers integrated on silicon. Applied Materials Today 2020, 19, 100579.

[35] Cui, J.; Huang, T.-Y.; Luo, Z.; Testa, P.; Gu, H.; Chen, X. Z.; Nelson, B. J.; Heyderman, L. J., Nanomagnetic Encoding of Shape-morphing Micromachines. Nature, 2019, 575 (7781), 164-168.

[36] Mushtaq, F.*; Chen, X. Z.*; Staufert, S.; Torlakcik, H.; Wang, X.; Hoop, M.; Gerber, A.; Li, X.; Cai, J.; Nelson, B. J.; Pané, S., On-the-fly catalytic degradation of organic pollutants using magneto-photoresponsive bacteria-templated microcleaners. Journal of Materials Chemistry A, 2019, 7 (43), 24847-24856. 

[37] Terzopoulou, A.; Hoop, M.; Chen, X. Z.*; Hirt, A. M.; Charilaou, M.; Shen, Y.; Mushtaq, F.; Pérez del Pino, A.; Logofatu, C.; Simonelli, L.; deMello, A. J.; Doonan, C. J.; Sort. J., Nelson, B. J.; Pané, S.*; Puigmartí-Luis, J.*, Mineralization-inspired synthesis of magnetic zeolitic imidazole frameworks. Angewandte Chemie International Edition, 2019, 58, 13550-13555.

[38] Chen, X. Z.; Liu, J.-H.; Dong, M.; Müller, L.; Chatzipirpiridis, G.; Hu, C.; Terzopoulou, A.; Torlakcik, H.; Wang, X.; Mushtaq, F.; Puigmartí-Luis, J.; Shen, Q.-D.; Nelson, B. J.; Pané, S., Magnetically Driven Piezoelectric Soft Microswimmers for Neuron-like Cell Delivery and Neuronal Differentiation. Materials Horizons, 2019, 6, 1512-1516.

[39] Mushtaq, F.; Torlakcik, H.; Vallmajo-Martin, Q.; Siringil, E.; Zhang, J.; Röhrig, C.; Shen, Y.; Yu, Y.; Chen, X. Z.*; Müller, R.; Nelson, B. J.; Pané, S., Magnetoelectric 3D Scaffolds for Enhanced Bone Cell Proliferation. Applied Materials Today, 2019, 16, 290-300.

[40] Mushtaq, F.*; Chen, X. Z.*; Torlakcik, H.; Steuer, C.; Hoop, M.; Siringil, E. C.; Marti, X.; Limburg, G.; Stipp, P.; Nelson, B. J.; Pané, S.*, Magnetoelectrically driven catalytic degradation of organics. Advanced Materials, 2019, 31, 1901378.

[41] Mushtaq, F.*; Torlakcik, H.; Hoop, M.; Jang, B.; Carlson, F.; Grunow, T.; Läubli, N.; Ferreira, A.; Chen, X. Z.*; Nelson, B. J.; Pané, S., Motile Piezoelectric Nanoeels for Targeted Drug Delivery. Advanced Functional Materials, 2019, 29, 1808135.

[42] de Marco, C.; Alcântara, C. C. J.; Kim, S.; Briatico, F.; Kadioglu, A.; de Bernardis, G.; Chen, X. Z.; Marano, C.; Nelson, B. J.; Pané, S., Indirect 3D and 4D Printing of Soft Robotic Microstructures. Advanced Materials Technologies, 2019, 1900332. 

[43] Bernasconi, R.; Carrara, E.; Hoop, M.; Mushtaq, F.; Chen, X. Z.; Nelson, B. J.; Pané, S.; Credi, C.; Levi, M.; Magagnin, L., Magnetically Navigable 3D Printed Multifunctional Microdevices for Environmental Applications. Additive Manufacturing, 2019, 28, 127-135.

[44] Wang, X.; Chen, X. Z.; Alcantara, C.; Sevim, S.; Hoop, M.; Terzopoulou, A.; de Marco, C.; Hu, C.; deMello, A. J.; Falcaro, P.; Furukawa, S.; Nelson, B. J.; Puigmartí-Luis, J.; Pané, S., MOFBOTS: Metal–Organic Framework-based Biomedical Microrobots. Advanced Materials, 2019, 1901592.

[45] Sevim, S.; Franco, C.; Liu, H.; Roussel, H.; Rapenne, L.; Rubio-Zuazo, J.; Chen, X. Z.; Pané, S.; Muñoz-Rojas, D.; deMello, A. J.; Puigmartí-Luis, J., In-Flow MOF Lithography. Advanced Materials Technologies 2019, 1800666.

[46] Pané, S.; Puigmartí-Luis, J.; Bergeles, C.; Chen, X. Z.; Pellicer, E.; Sort, J.; Počepcová, V; Ferreira, A.; Nelson, B. J., Imaging Technologies for Biomedical Micro- and Nano-swimmers. Advanced Materials Technologies, 2019, 1800575.

[47] Mushtaq, F.*; Chen, X. Z.*; Hoop, M.; Torlakcik, H.; Pellicer, E.; Sort, J.; Gattinoni, C.; Nelson, B. J.; Pané, S., Piezoelectrically Enhanced Photocatalysis with BiFeO3 Nanostructures for Efficient Water Remediation. iScience (cell press) 2018, 4, 236-246.

[48] Chen, X. Z.; Jang, B.; Ahmed, D.; Hu, C.; De Marco, C.; Hoop, M.; Mushtaq, F.; Nelson, B. J.; Pane, S., Small-Scale Machines Driven by External Power Sources. Advanced Materials. 2018, 30 (15), 1705061.

[49] Wang, X.; Qin, X.-H.; Hu, C.; Terzopoulou, A.; Chen, X. Z.; Huang, T.-Y.; Maniura-Weber, K.; Pané, S.; Nelson, B. J., 3D Printed Enzymatically Biodegradable Soft Helical Microswimmers. Advanced Functional Materials, 2018, 28, 1804107.

[50] Wang, X.; Hu, C.; Schurz, L.; De Marco, C.; Chen, X. Z.; Pane, S.; Nelson, B. J., Surface Chemistry-Mediated Control of Individual Magnetic Helical Microswimmers in a Swarm. ACS Nano 2018, 12, 6210–6217.

[51] Bernasconi, R.; Cuneo, F.; Carrara, E.; Chatzipirpiridis, G.; Hoop, M.; Chen, X. Z.; Nelson, B. J.; Pané, S.; Credi, C.; Levi, M.; Magagnin, L., Hard-magnetic cell microscaffolds from electroless coated 3D printed architectures. Materials Horizons, 2018, 5, 699-707.

[52] Hoop, M.; Ribeiro, A. S.; Rösch, D.; Weinand, P.; Mendes, N.; Mushtaq, F.; Chen, X. Z.; Shen, Y.; Pujante, C. F.; Puigmartí-Luis, J.; Paredes, J.; Nelson, B. J.; Pêgo, A. P.; Pané, S., Mobile Magnetic Nanocatalysts for Bioorthogonal Targeted Cancer Therapy. Advanced Functional Materials. 2018, 28, 1705920.

[53] Hoop, M.; Walde, C. F.; Riccò, R.; Mushtaq, F.; Terzopoulou, A.; Chen, X. Z.; deMello, A. J.; Doonan, C. J.; Falcaro, P.; Nelson, B. J.; Puigmartí-Luis, J.; Pané, S., Biocompatibility characteristics of the metal organic framework ZIF-8 for therapeutical applications. Applied Materials Today 2018, 11, 13-21.

[54] Chen, X. Z.; Hoop, M.; Mushtaq, F.; Siringil, E.; Hu C. Z.; Nelson, B. J.; Pané, S., Recent developments in magnetically driven micro- and nanorobots. Applied Materials Today, 2017, 9, 37-48. (Invited Review)

[55] Hoop, M.; Chen, X. Z.*; Ferrari, A.*; Mushtaq, F.; Ghazaryan, G.; Tervoort, T. A.; Poulikakos, D.; Nelson, B. J.; Pané, S.*, Ultrasound-mediated piezoelectric differentiation of neuron-like PC12 cells on PVDF membranes. Scientific Reports, 2017, 7, 4028.

[56] Chen, X. Z.; Hoop, M.; Shamsudhin, N.; Huang, T.; Özkale, B.; Li, Q.; Siringil, E.; Mushtaq, F.; Tizio, L. D.; Nelson, B. J.; Pané, S., Hybrid magnetoelectric nanowires for nanorobotic applications: fabrication, magnetoelectric coupling and magnetically-assisted targeted drug delivery. Advanced Materials 2017, 29, 1605458.  (This work has been reported in Advanced Science News, etc..)

[57] Hu, C.; Aeschlimann, F.; Chatzipirpiridis, G.; Pokki, J.; Chen, X. Z.; Puigmarti-Luis, J.; Nelson, B. J.; Pané, S., Spatiotemporally controlled electrodeposition of magnetically driven micromachines based on the inverse opal architecture. Electrochemistry Communications, 2017, 81, 97-101.

[58] Chen, X. Z.; Shamsudhin, N.; Hoop, M.; Pieters, R.; Siringil, E.; Sakar, M. S.; Nelson, B. J.; Pané, S., Magnetoelectric micromachines with wirelessly controlled navigation and functionality. Materials Horizons, 2016, 3 (2), 113-118. (This work has been showcased in renowned channels such as The Times, Mirror Online, ETH News, Phys.org, etc..)

[59] Mushtaq, F.; Asani, A.; Hoop, M.; Chen, X. Z.*; Ahmed D., Nelson, B. J.; Pané, S.*, Highly efficient coaxial tio2-ptpd tubular nanomachines for photocatalytic water purification with multiple locomotion strategies. Advanced Functional Materials, 2016, 26 (38), 6995-7002.

[60] Hoop, M.; Mushtaq, F.; Hurter, C.; Chen, X. Z.*; Nelson, B. J.; Pané, S.*, A smart multifunctional drug delivery nanoplatform for targeting cancer cells. Nanoscale, 2016, 8 (25), 12723-12728. (This article is part of themed collection: 2016 Nanoscale HOT Article Collection.)

[61] Hoop, M.; Shen, Y.; Chen, X. Z.*; Mushtaq, F.; Sakar, M. S.; Petruska, A.; Loessner, M. J.; Nelson, B. J.; Pané, S.*, Magnetically driven silver-coated helical nanorobots for efficient bacterial contact killing. Advanced Functional Materials, 2016, 26 (7), 1063-1069.

[62] Jang, B.; Wang, W.; Wiget, S.; Petruska, A. J.; Chen, X. Z.; Hu, C.; Hong, A.; Folio, D.; Ferreira, A.; Pané, S.; Nelson, B. J., Catalytic locomotion of coreshell nanowire motors. ACS Nano, 2016, 10 (11), 9983-9991.

[63] Jang, B.; Chen, X. Z.*; Siegfried, R.; Montero Montero, J. M.; Özkale, B.; Nielsch, K.; Nelson, B. J.; Pané, S., Silicon-supported aluminum oxide membranes with ultrahigh aspect ratio nanopores. RSC Advances 2015, 5 (114), 94283-94289.

[64] Mushtaq, F.; Guerrero, M.; Sakar, M. S.; Hoop, M.; Lindo, A.; Sort, J.; Chen, X. Z.; Nelson, B. J.; Pellicer, E.; Pané, S., Magnetically driven Bi2O3/BiOCl-based hybrid microrobots for photocatalytic water remediation. Journal of Materials Chemistry A 2015, 3 (47), 23670-23676.

[65] Ozkale, B.; Shamsudhin, N.; Chatzipirpiridis, G.; Hoop, M.; Gramm, F.; Chen, X. Z.; Marti, X.; Sort, J.; Pellicer E.; Pane S., Multisegmented FeCo/Cu nanowires: electrosynthesis, characterization, and magnetic control of biomolecule desorption. ACS Applied Materials & Interfaces 2015, 7(13): 7389-7396.

[66] Chen, X.; Tang, X.; Chen, X. Z.; Chen, Y. L.; Guo X.; Ge, H. X.; Shen, Q. D., Nonvolatile data storage using mechanical force-induced polarization switching in ferroelectric polymer. Applied Physics Letters 2015, 106 (4), 042903.

[67] Chen, X. Z.; Chen, X.; Guo, X.; Cui, Y. S.; Shen, Q. D.; Ge, H. X., Ordered arrays of defect-modified ferroelectric polymer for non-volatile memory with minimized energy consumption. Nanoscale 2014, 6 (22), 13945-13951.

[68] Jang, B.; Pellicer, E.; Guerrero, M.; Chen, X. Z.; Choi, H.; Nelson, B. J.; Sort, J.; Pané, S., Fabrication of segmented Au/Co/Au nanowires: insights in the quality of co/au junctions. ACS Applied Materials & Interfaces 2014, 6 (16), 14583-14589.

[69] Chen, X. Z.; Li, X. Y.; Qian, X. S.; Wu, S.; Lin, M. R.; Shen, Q. D.; Zhang, Q. M., A nanocomposite approach to tailor electrocaloric effect in ferroelectric polymer. Polymer 2013, 54 (20), 5299-5302.

[70] Chen, X. Z.; Cheng, Z. X.; Liu L.; Yang X. D.; Shen, Q. D.; Hu W. B.; Li, H. T., Evolution of nano-polar phases, interfaces and increased dielectric energy storage capacity in photoinitiated cross-ed Poly(vinylidene fluoride)-based copolymers. Colloid and Polymer Science 2013, 291 (8), 1989-1997.

[71] Chen, X. Z.; Li, Q.; Chen, X.; Guo, X.; Ge, H. X.; Liu, Y.; Shen, Q. D., Nano-imprinted ferroelectric polymer nanodot arrays for high density data storage. Advanced Functional Materials 2013, 23 (24), 3124-3129.

[72] Chen, X. Z.; Li, X. Y.; Qian, X. S.; Wu, S.; Lu, S. G.; Gu, H. M.; Lin, M. R.; Shen, Q. D.; Zhang, Q. M., A polymer blend approach to tailor the ferroelectric responses in P(VDF-TrFE) based copolymers Polymer. Polymer 2013, 54, 2373-2381.

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参与/主持项目

1. 瑞士国家科学基金会Project Funding(69万瑞法,约合520万人民币),2023,共同主持

2. 瑞士国家科学基金会,Sino-Swiss 合作项目(35万瑞法,约合240万人民币), 2022,共同主持



国际专利

[1]     Mushtaq, F.; Pané, S.; Chen, X. Z.; Nelson, B. J., A method for treating water containing pollutants, water cleaning reactors, and water cleaning assemblies, WO2020089672A1.