Exploring Shortwave Infrared Surface Plasmons in 2D MXene Structures
PCS Institute for Basic Science via YouTube
The Most Addictive Python and SQL Courses
Learn AI, Data Science & Business — Earn Certificates That Get You Hired
Overview
Google, IBM & Meta Certificates – 40% Off
One plan covers every Professional Certificate on Coursera.
Unlock All Certificates
Explore the groundbreaking research on shortwave infrared surface plasmons in 2D MXene structures in this 42-minute conference talk. Delve into the unique properties of MXenes, a rapidly expanding family of 2D materials with metallic conductivity, plasmonic properties, strength, and solubility. Discover the pivotal findings related to the optical properties of MXenes, particularly the pronounced plasmon resonance in the short-wave infrared spectrum exhibited by 2D Ti3C2Tx. Learn about the remarkable reduction in wavelength compared to free space and the impressive nonlinear absorption coefficient achieved at 1.56 μm wavelength. Gain insights into the factors contributing to MXene's exceptional performance, including its high plasma frequency and inherent optical nonlinearity. Understand the potential applications of these discoveries across various fields, from energy storage and telecommunications to electromagnetic shielding, sensing, and transparent electronics.
Syllabus
Myung Ki Kim: Exploring Shortwave Infrared Surface Plasmons in 2D MXene Structures
Taught by
PCS Institute for Basic Science