当前位置: X-MOL 学术Matter › 论文详情
Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)
Printed Built-In Power Sources
Matter ( IF 18.9 ) Pub Date : 2020-02-05 , DOI: 10.1016/j.matt.2019.11.015
Kwon-Hyung Lee , David B. Ahn , Jung-Hui Kim , Ju-Won Lee , Sang-Young Lee

The forthcoming smart and ubiquitous electronics era presents significant interest in wireless interconnectivity and shape aesthetics. To fulfill this demand, a new class of advanced power sources with various form factors that are different from existing commercial ones is needed. Printed power sources have recently garnered substantial attention because of their design diversity, shape and performance compatibility with electronics, and scalable and low-cost processability. They are fabricated directly on complex-structured objects via application-customized printing techniques, enabling monolithic integration and electrochemical coupling with target devices. In this Perspective, we describe the current status and challenges of printed power sources, focusing on their role as built-in power sources. Various printing techniques and ink materials and chemistry of electrodes and electrolytes are discussed as key enabling factors. Noteworthy progress in printed built-in power sources is reviewed to highlight their design diversity and electrochemical superiority. Finally, development direction and outlook of printed built-in power sources are discussed in conjunction with their application fields.



中文翻译:

印刷内置电源

即将到来的智能无处不在的电子时代引起了人们对无线互连性和外形美观的浓厚兴趣。为了满足该需求,需要具有与现有的商业形式不同的各种形状因数的新型的高级功率源。由于印刷电源的设计多样性,形状和与电子设备的性能兼容性以及可扩展和低成本的可加工性,最近已引起了广泛的关注。它们可以通过应用定制的印刷技术直接在复杂结构的物体上制造,从而实现单片集成以及与目标器件的电化学耦合。在此“观点”中,我们将介绍印刷电源的当前状态和面临的挑战,重点是其作为内置电源的作用。各种印刷技术和油墨材料以及电极和电解质的化学性质被讨论为关键的促成因素。本文对印刷内置电源的显着进展进行了回顾,以突出其设计多样性和电化学优势。最后,结合印刷内置电源的应用领域,讨论了其发展方向和前景。

更新日期:2020-02-05
down
wechat
bug