A review of the colossal permittivity of electronic conductors, specifically metals and carbons

  title={A review of the colossal permittivity of electronic conductors, specifically metals and carbons},
  author={D. D. L. Chung and Xiang Xi},
  journal={Materials Research Bulletin},
4 Citations

New concept of electret-based capacitance, as shown for solder and other conductors

  • D. ChungXiang Xi
  • Physics
    Journal of Materials Science: Materials in Electronics
  • 2022

Dielectric Behavior of an Electrically Conductive Metal-Particle Thick Film

Electrically conductive metal-particle thick films made from paints upon volatile component evaporation are widely used for electrical contacts and interconnections. Prior work on the electrical

Pyropermittivity as an emerging method of thermal analysis, with application to carbon fibers

  • Xiang XiD. Chung
  • Physics, Materials Science
    Journal of Thermal Analysis and Calorimetry
  • 2022
Pyropermittivity refers to the effect of temperature on the electric permittivity of a material. It is an emerging thermoanalytical method that is relevant to materials characterization,



Pitfalls and Methods in the Measurement of the Electrical Resistance and Capacitance of Materials

  • D. Chung
  • Materials Science
    Journal of Electronic Materials
  • 2021
The measurement of electrical resistance, capacitance and impedance is central to the electrical characterization of materials, whether the materials are in bulk, thick film or thin film forms.

Dielectric behavior discovered in electrically conductive thick film

Electrically conductive thick films are used for electrical interconnections in electronic packaging. They also serve as functional coatings for materials and structures. Although the conduction

Electret behavior discovered in solder, specifically tin–silver

An electret is a permanent electric dipole exhibited by a material. This work provides the first report of the electret behavior of a solder, which is Sn–4Ag in the form of a fluxless unpoled wire of

First report of the ferroelectric behavior of a metal, as shown for solder

Ferroelectric behavior is well known for nonconductive dielectrics. This work provides the first report of this behavior in a metal, specifically a solder (Sn–4Ag), which is highly conductive. As

Correction to: Electric polarization and depolarization of solder, and their effects on electrical conduction

The authors regret a numerical error in calculating the fraction of electrons that participate in the polarization.