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Design and applications of stretchable and self-healable conductors for soft electronics
Benjamin C. K. Tee,Guanxiang Wan,Aeree Kim,Yue Zhao 나노기술연구협의회 2019 Nano Convergence Vol.6 No.25
Soft and conformable electronics are emerging rapidly and is envisioned as the future of next-generation electronic devices where devices can be readily deployed in various environments, such as on-body, on-skin or as a biomedical implant. Modern day electronics require electrical conductors as the fundamental building block for stretchable electronic devices and systems. In this review, we will study the various strategies and methods of designing and fabricating materials which are conductive, stretchable and self-healable, and explore relevant applications such as flexible and stretchable sensors, electrodes and energy harvesters.
Haili Zhang,Zhijin Jiang,Qingguang Li,Guanxiang Jiang 한국물리학회 2014 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.64 No.3
By using the revised Landau hydrodynamic model and taking into account the effect of leadingparticles, we discuss the pseudorapidity distributions of the charged particles produced in highenergyheavy-ion collisions. The leading particles are assumed to have the rapidity distributions withGaussian forms with the normalization constant being equal to the number of participants, whichcan be figured out in theory. The results from the revised Landau hydrodynamic model, togetherwith the contributions from leading particles, were found to be consistent with the experimentaldata obtained by the PHOBOS Collaboration on RHIC (Relativistic Heavy Ion Collider) at BNL(Brookhaven National Laboratory) in different centrality Cu+Cu and Au+Au collisions at highenergies.
Zou Bowen,Wang Wenlin,Liu Jian,Yan Zhenyu,Liu Gaojun,Wang Jun,Wei Guanxiang 한국원자력학회 2020 Nuclear Engineering and Technology Vol.52 No.8
A physical protection system (PPS) is used for the protection of critical facilities. This paper proposes a structure analytic hierarchy approach (SAHA) for the hierarchical evaluation of the PPS effectiveness in critical infrastructure. SAHA is based on the traditional analysis methods “estimate of adversary sequence interruption, EASI”. A community algorithm is used in the building of the SAHA model. SAHA is applied to cluster the associated protection elements for the topological design of complicated PPS with graphical vertexes equivalent to protection elements.