Research

It is predicted that the printed andwearable functional electronics and devices will dominate the future. However,their development has been restricted by some critical issues including: shortof materials for functional ink formulating, lack of printable process forefficiency electronics and devices assembly and integration, trade-off betweenhigh performance and multifunctional. Our research group focuses on resolvingthe above interdisciplinary problems utilizing basic science and principle fromMaterials Science and Engineering, Chemistry, Polymer Chemistry and Physics,Rheology and Electrical Engineering to enable innovative applications onnext-generation printed and wearable functional electronics and devices throughgreen, scalable and novel technology. Our approaches include:

1. Design and develop polymer andnanocomposite based novel functional materials, study their structure-propertyrelationships, and understand their fundamental features for functional inkformulation.

2. Elucidate the basic relationships amongink property-printer parameter-substrate surface chemistry to enable thedevelopment of efficiency printable process for high-resolution, scalable,inexpensive, and high-yield electronics and devices integration.

3. Develop novel printed and wearabledevice applications with high performance and multifunction, includingthin-film transistor arrays, OPV, OLED, sensors, energy-storage devices,etc


PersonalProfile

2002.09-2006.06  Received B.Sc. degree, College of Chemistry, Nankai University.

2006.09-2011.06  Received Ph.D. degree under the supervision of Prof. Yongsheng Chen, College of Chemistry, Nankai University.


2011.09-2016.05  Postdoctoral associate & Assistant Engineer with Prof. Qibing Pei., Department of Materials Science and Engineering, University of California-Los Angeles, USA.

2014.09-2016.05  Senior R&D Engineer, Polyradiant Inc. USA.


2016.06-               Professor, Nankai University

Representative results

1.    Qi Wang, Xinyi Ji*, Xue Liu, Yang Liu, Jiajie Liang* “Viscoelastic Metal-in-Water Emulsion Gel via Host–Guest Bridging for Printed and Strain-Activated Stretchable Electrodes”, ACS Nano, 2022, 16, 12677.


2.    Jinhua Wu, Xiangqian Fan, Xue Liu, Xinyi Ji*, Xinlei Shi, Wenbin Wu, Zhao Yue, Jiajie Liang* “A Highly Sensitive Temperature-Pressure Bimodal Aerogel with Stimulus Discriminability for Human Physiological Monitoring”, Nano Letters, 2022, 22, 11, 4459.


3.    Yang Liu*, Xin Xu, Wei Yu, Yongsong Chen, Meng Gao, Zhengjian Zhang, Chuanling Si, Hongpeng Li, Xinyi Ji*, Jiajie Liang* “Tailoring silver nanowire nanocomposite interfaces to achieve superior stretchability, durability, and stability in transparent conductors”, Nano Letters, 2022, 22, 3784.


4.    Xinlei Shi, Yinbo Zhu, Xiangqian Fan, Heng-An Wu*, Peiqi Wu, Xinyi Ji, Yongsheng Chen, Jiajie Liang* “An Auxetic Cellular Structure as A Universal Design for Enhanced Piezoresistive Sensitivity”, Matter, 2022, 5, 1547.


5.    Xinlei Shi, Xiangqian Fan, Yinbo Zhu, Yang Liu, Peiqi Wu, Renhui Jiang, Bao Wu, Heng-An Wu, He Zheng, Jianbo Wang, Xinyi Ji, Yongsheng Chen*, Jiajie Liang* “Pushing Detectability and Sensitivity for Subtle Force to New Limits with Shrinkable Nanochannel Structured Aerogel”, Nature Communications, 2022, 13, 1119.


6.    Yang Liu, Xinyi Ji*, Jiajie Liang* “Rupture stress of liquid metal nanoparticles and their applications in stretchable conductors and dielectrics”, npj Flexible Electronics, 2021, 5, 11.


7.    Yang Liu, Xiangqian Fan, Weimin FengXinlei Shi, Fengchao Li, Jinhua Wu, Xinyi Ji, and Jiajie Liang* “An in-situ And Rapid Self-Healing Strategy Enabling Stretchable Nanocomposite with Extremely Durable and Highly Sensitive Sensing Features”, Materials Horizons., 2021, 8, 250.


8.    Xiaojuan Qian, Xiangqian FanYaling Peng, Pan Xue, Chuang Sun, Xinlei Shi, Chao Lai, and Jiajie Liang* “ Polysiloxane Cross-Linked Mechanically-Stable MXene-based Lithium Host For Ultrastable Lithium Metal Anodes with Ultrahigh Current Densities and Capacities”, Adv. Funct. Mater., 2021, 31, 2008044.


9.    Xiangqian FanYang YangXinlei Shi, Yang Liu, Hongpeng Li, Jiajie Liang*and Yongsheng Chen “A MXene-Based Hierarchical Design Enabling Highly Efficient and Stable Solar-Water Desalination with Good Salt Resistance”, Adv. Funct. Mater., 2020, 30, 2007110.


10.    Fengchao Li, Yang Liu, Xinlei Shi, Hongpeng Li, Conghui Wang, Quan Zhang, Rujun Ma, and Jiajie Liang* “A Printable and Stretchable Temperature-Strain Dual-Sensing Nanocomposite with High Sensitivity and Perfect Stimulus Discriminability”, Nano Letters, 2020, 20, 6176.


11.    Xiran Li, Hongpeng Li, Xiangqian Fan, Xinlei Shi, and Jiajie Liang* “3D-Printed Stretchable Micro-Supercapacitor with Remarkable Areal Performance”, Adv. Energy. Mater., 2020, 10, 1903794.


12.    Chuang Sun, Xinlei Shi, Yabo Zhang, Jiajie Liang*, Jie Qu*, Chao Lai* “Ti3C2Tx MXene Interface Layer Driving Ultra-Stable Lithium-Iodine Batteries with Both High Iodine-Content and Mass Loading”, ACS Nano2020, 14, 1176.


  

13.    Yang Liu, Xinlei Shi, Shuiren Liu, Hongpeng Li, Huailong Zhang, Conghui Wang, Jiajie Liang*, and Yongsheng Chen Biomimetic printable nanocomposite for healable, ultrasensitive, stretchable and ultradurable strain sensor, Nano Energy201963, 103898.


14.    Pan Xue, Chuang Sun, Hongpeng Li, Jiajie Liang*, and Chao Lai* Superlithiophilic Amorphous SiO2-TiO2 Distributed into Porous Carbon Skeleton Enabling Uniform Lithium Deposition for Stable Lithium Metal Batteries, Adv. Sci., 2019, 6, 190943.


15.    Xiangqian Fan, Yan Ding, Yang Liu, Jiajie Liang*, and Yongsheng Chen “Plasmonic Ti3C2Tx MXene Enables Highly Efficient Photothermal Conversion for Healable and Transparent Wearable Device”, ACS Nano2019, 13, 8124.


16.    Hongpeng Li, and Jiajie Liang*, Recent Development of Printed Micro-Supercapacitors: Printable Materials, Printing Technologies, and PerspectivesAdv. Mater. 2020, 32, 1805864 (invited review).


17.    Hongpeng Li, Xiran Li, Jiajie Liang*, and Yongsheng Chen, Hydrous RuO2 decorated MXene Coordinating with Silver Nanowire Inks Enabling Fully-Printed Micro-Supercapacitors with Extraordinary Volumetric PerformanceAdv. Energy. Mater. 2019, 9, 1803987.


18.    Xinlei Shi, Huike Wang, Xueting Xie, Qingwen Xue, Jingyu Zhang, Siqi Kang, Conghui Wang, Jiajie Liang*, Yongheng Chen, “Bioinspired Ultrasensitive and Stretchable MXene-based Strain Sensor via Nacre-Mimetic Microscale “Brick-and-Mortar” Architecture”, ACS Nano 2019, 13, 649.


19.  Pan Xue, Shuiren Liu, Xinlei Shi, Chuang Sun, Chao Lai*, Ying Zhou, Dong Sui, Yongsheng Chen*, Jiajie Liang*, “A Hierarchical Silver Nanowire-Graphene Host Enabling Ultrahigh Rates and Superior Long-Term Cycling of Lithium Metal Composite Anodes” Adv. Mater. 2018, 30, 1804165.


20.  Huike Wang, Honghao Tang, Jiajie Liang*, Yongsheng Chen, “Dynamic Agitation-Induced Centrifugal Purification of Nanowires Enabling Transparent Electrodes with 99.2% Transmittance” Adv. Funct. Mater. 2018, 28, 1804479.


21.  Xinlei Shi, Shuiren Liu, Yang Sun, Jiajie Liang*, Yongsheng Chen, “Lowering Internal Friction of 0D–1D–2D Ternary Nanocomposite-Based Strain Sensor by Fullerene to Boost the Sensing Performance” Adv. Funct. Mater. 2018, 28, 1800850.


22.   Liang, J.J., Tong, K., Pei, Q. B.* “A Water-Based Silver-Nanowire Screen-Print Ink for the Fabrication of Stretchable Conductors and Wearable Thin Film Transistors” Adv. Mater. 2016, 28, 5986.


23.   Liang, J. J., Li, L., Chen, D., Hajagos, T., Ren, Z., Chou, S-Y., Hu, W., Pei, Q. B.* “Intrinsically Stretchable and Transparent Thin Film Transistors Based on Printable Silver Nanowires, Carbon Nanotube and Elastomeric Dielectric” Nat. Commun. 2015, 6, 7647.


24.   Liang, J. J., Li, L., Tong, K., Ren, Z., Hu, W., Niu, X. F., Chen, Y. S., Pei., Q. B.* “Silver Nanowire Percolation Network Soldered with Graphene Oxide at Room Temperature and Its Application for Fully Stretchable Polymer Light-Emitting Diodes” ACS Nano 2014, 8, 1590.


25.   Liang, J. J., Li, L., Niu, X. F., Yu, Z. B., Pei., Q. B.* “Elastomeric polymer light emitting devices and displays” Nat. Photonics 2013, 7, 817.


26.   Liang, J. J., Huang, L., Li, N., Huang, Y.*, Wu,Y. P., Fang, S. L., Oh, J., Kozlov, M., Ma, Y. F., Li, F. F., Baughman, R., Chen. Y. S* “Electromechanical Actuator with Controllable Motion, Fast Response-Rate and High-Frequency Resonance Based on Graphene and Polydiacetylene” ACS Nano 2012, 6, 4508.


27.   Liang, J. J., Huang, Y.*, Oh, J., Kozlov, M., Sui, D., Zhang, L., Fang, S. L., Baughman, R., Ma, Y. F., Chen, Y. S.* “Electromechanical Actuators based on Graphene and Graphene/Fe3O4 Hybrid Paper” Adv. Funct. Mater. 2011, 21, 3778.


28.   Liang, J. J., Huang, Y.*, Zhang, L., Wang, Y., Ma, Y. F., Guo, T. Y., Chen, Y. S.* “Molecular-level Dispersion of Graphene into Poly(vinyl alcohol), and Effective Reinforcement of Their Nanocomposites” Adv. Funct. Mater. 2009, 19, 2297.