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Academic Journal of Materials & Chemistry, 2024, 5(3); doi: 10.25236/AJMC.2024.050319.

Research Progress of Five Great Kilns Materials in Terahertz Biochemical Sensing Detection Technology

Author(s)

Zhuxu Zhang

Corresponding Author:
Zhuxu Zhang
Affiliation(s)

Shanghai New Epoch Bilingual School, Shanghai, 202163, China

Abstract

This paper summarizes the research progress of Five Great Kilns materials in terahertz (THz) biochemical sensing detection technology. Terahertz technology has shown great potential in the fields of biomolecule detection, disease diagnosis and environmental monitoring because of its unique non-ionization, strong penetration and molecular fingerprint spectrum characteristics. Five Great Kilnss, including Ru kiln, Guan kiln, Ge kiln, Ding kiln and Jun kiln, are considered to have potential applications in THz sensing technology because of their unique electromagnetic and optical characteristics. These traditional ceramic materials not only play an important role in the fields of art and materials science, but also show new application prospects in the fields of modern science and technology, especially in THz biochemical sensing detection technology. The research shows that the unique glaze color, texture and firing process of Five Great Kilns materials may have a special influence on the propagation of THz wave, thus improving the sensitivity and specificity of sensing. This paper discusses the application potential and advantages of Five Great Kilns materials in THz biochemical sensing detection technology, and provides useful reference and enlightenment for researchers in related fields. With the cross-integration of materials science, chemistry, physics and other disciplines, the research of Five Great Kilns materials will be more in-depth, and its application prospects in the new era will be broader.

Keywords

kiln materials; research progress; terahertz; biochemical sensing detection technology

Cite This Paper

Zhuxu Zhang. Research Progress of Five Great Kilns Materials in Terahertz Biochemical Sensing Detection Technology. Academic Journal of Materials & Chemistry (2024) Vol. 5, Issue 3: 125-129. https://doi.org/10.25236/AJMC.2024.050319.

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