Advanced Science (Nov 2023)

Printing Three‐Dimensional Refractory Metal Patterns in Ambient Air: Toward High Temperature Sensors

  • Jichuan Yu,
  • Chuxiong Hu,
  • Ze Wang,
  • Yuankong Wei,
  • Zhijin Liu,
  • Qingang Li,
  • Lei Zhang,
  • Qiulin Tan,
  • Xining Zang

DOI
https://doi.org/10.1002/advs.202302479
Journal volume & issue
Vol. 10, no. 31
pp. n/a – n/a

Abstract

Read online

Abstract Refractory metals offer exceptional benefits for high temperature electronics including high‐temperature resistance, corrosion resistance and excellent mechanical strength, while their high melting temperature and poor processibility poses challenges to manufacturing. Here this work reports a direct ink writing and tar‐mediated laser sintering (DIW‐TMLS) technique to fabricate three‐dimensional (3D) refractory metal devices for high temperature applications. Metallic inks with high viscosity and enhanced light absorbance are designed by utilizing coal tar as binder. The printed patterns are sintered into oxidation‐free porous metallic structures using a low‐power (<10 W) laser in ambient environment, and 3D freestanding architectures can be rapidly fabricated by one step. Several applications are presented, including a fractal pattern‐based strain gauge, an electrically small antenna (ESA) patterned on a hemisphere, and a wireless temperature sensor that can work up to 350 °C and withstand burning flames. The DIW‐TMLS technique paves a viable route for rapid patterning of various metal materials with wide applicability, high flexibility, and 3D conformability, expanding the possibilities of harsh environment sensors.

Keywords