通过液体牺牲基底电场驱动喷射制备用于透明玻璃加热器的3D打印高性能银网

3D Printed High Performance Silver Mesh for Transparent Glass Heaters through Liquid Sacrificial Substrate Electric-Field-Driven Jet.

作者信息

Li Hongke, Li Zhenghao, Li Na, Zhu Xiaoyang, Zhang Yuan-Fang, Sun Luanfa, Wang Rui, Zhang Jinbao, Yang Zhongming, Yi Hao, Xu Xiaofeng, Lan Hongbo

机构信息

Shandong Engineering Research Center for Additive Manufacturing, Qingdao University of Technology, Qingdao, 266520, China.

Key Lab of Industrial Fluid Energy Conservation and Pollution Control (Qingdao University of Technology), Ministry of Education, Qingdao, 266520, China.

出版信息

Small. 2022 Apr;18(17):e2107811. doi: 10.1002/smll.202107811. Epub 2022 Feb 27.

DOI:10.1002/smll.202107811

PMID:35224846

Abstract

Transparent glass with metal mesh is considered a promising strategy for high performance transparent glass heaters (TGHs). However, the realization of simple, low-cost manufacture of high performance TGHs still faces great challenges. Here, a technique for the fabrication of high performance TGHs is proposed using liquid sacrificial substrate electric-field-driven (LS-EFD) microscale 3D printing of thick film silver paste. The liquid sacrificial substrate not only significantly improves the aspect ratio (AR) of silver mesh, but also plays a positive role in printing stability. The fabricated TGHs with a line width of 35 µm, thickness of 12.3 µm, and pitch of 1000 µm exhibit a desirable optoelectronic performance with sheet resistance (R ) of 0.195 Ω sq and transmittance (T) of 88.97%. A successful deicing test showcases the feasibility and practicality of the manufactured TGHs. Moreover, an interface evaporator is developed for the coordination of photothermal and electrothermal systems based on the high performance TGHs. The vapor generation rate of the device reaches 10.69 kg m h with a voltage of 2 V. The proposed technique is a promising strategy for the cost-effective and simple fabrication of high performance TGHs.

摘要

带有金属网格的透明玻璃被认为是实现高性能透明玻璃加热器（TGH）的一种很有前景的策略。然而，实现简单、低成本制造高性能TGH仍然面临巨大挑战。在此，提出了一种使用厚膜银浆的液体牺牲衬底电场驱动（LS-EFD）微尺度3D打印来制造高性能TGH的技术。液体牺牲衬底不仅显著提高了银网格的纵横比（AR），而且对打印稳定性也起到了积极作用。所制造的TGH线宽为35 µm，厚度为12.3 µm，间距为1000 µm，表现出理想的光电性能，方阻（R ）为0.195 Ω/sq，透过率（T）为88.97%。成功的除冰测试展示了所制造的TGH的可行性和实用性。此外，基于高性能TGH开发了一种用于光热和电热系统协调的界面蒸发器。该装置在2 V电压下的蒸汽产生速率达到10.69 kg m² h 。所提出的技术是一种经济高效且简单地制造高性能TGH的有前景的策略。

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通过液体牺牲基底电场驱动喷射制备用于透明玻璃加热器的3D打印高性能银网

3D Printed High Performance Silver Mesh for Transparent Glass Heaters through Liquid Sacrificial Substrate Electric-Field-Driven Jet.

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