J
Jiajie Liang
Researcher at Nankai University
Publications - 107
Citations - 14082
Jiajie Liang is an academic researcher from Nankai University. The author has contributed to research in topics: Graphene & Polymer. The author has an hindex of 42, co-authored 93 publications receiving 11073 citations. Previous affiliations of Jiajie Liang include University of California & University of California, Los Angeles.
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In situ identification of the metallic state of Ag nanoclusters in oxidative dispersion.
Rongtan Li,Xiaoyan Xu,Beien Zhu,Xiaoyan Li,Yanxiao Ning,Rentao Mu,Pengfei Du,Pengfei Du,Mengwei Li,Huike Wang,Jiajie Liang,Yongsheng Chen,Yi Gao,Bing Yang,Qiang Fu,Xinhe Bao +15 more
TL;DR: In this paper, a new adsorption-induced dispersion mechanism in a typical oxidative dispersion process is presented, where the strong gas-metal interaction achieved by chemisorption of oxygen on nearly-metallic silver nanoclusters is the internal driving force for dispersion.
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Ultrahigh-energy-density dielectric materials from ferroelectric polymer/glucose all-organic composites with a cross-linking network of hydrogen bonds
Rui Wang,Hu-ping Xu,Sang Cheng,Jiajie Liang,Bin Gou,JianGang Zhou,Jing Fu,Cong-Xin Xie,Jinliang He,Qi Li +9 more
TL;DR: In this paper , a scalable all-organic composite based on a ferroelectric polymer incorporated with an abundant, cost-effective organic molecule, i.e., glucose is reported, exhibiting record dischargeable energy density (37.7 J/cm3).
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Intrinsically stretchable conductors and interconnects for electronic applications
TL;DR: In this article, the authors summarize the recent progress in intrinsically stretchable conductors and interconnects as well as their applications in stretchable electronics, including wearable devices, energy harvesters and biomedical devices.
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An in situ and rapid self-healing strategy enabling a stretchable nanocomposite with extremely durable and highly sensitive sensing features
TL;DR: In this article, the authors proposed an in situ and rapid self-healing strategy through nano-confining a dynamic host-guest supramolecular polymer network in a graphene-based multilevel nanocomposite matrix to fabricate a mechanically stretchable and structurally healable sensing nanocomposition which is provided with intriguing sensing durability and sensitivity simultaneously.
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Direct patterning on reduced graphene oxide nanosheets using femtosecond laser pulses
TL;DR: In this paper, micro-and nanostructures were fabricated directly on graphene nanosheets by controlling the conditions of femtosecond laser pulse etching, which can pave the way for the integration of graphene-based electronic microdevices.