Shedding Light on a ‘Groundbreaking Method’ for Investigating 2D Materials

Shedding Light on a ‘Groundbreaking Method’ for Investigating 2D Materials

New research⁤ from​ Lancaster⁢ University ‌presents ⁤an “innovative⁤ approach” ​to⁤ investigating‍ the‌ heat‌ conductivity of novel two-dimensional materials.​ The⁤ work ⁣paves ⁢the way for creating efficient ⁢waste ​heat ​scavengers ‌that⁢ generate ‌cheap ⁤electricity, new compact ⁤fridges, and ⁣advanced optical and ‍microwave sensors and cameras.

The research, led⁢ by ⁣Professor of‍ Nanoscience Oleg ​Kolosov and Ph.D. ⁣student⁢ Sergio Gonzalez-Munoz, directly measures ⁢the ⁢heat conductivity‌ of two-dimensional⁢ materials (2DMs). It is‍ published⁤ in Advanced Materials⁣ Interfaces.

Two–dimensional materials are ‍composed ⁣of ‌stacks ⁤of⁣ nearly-perfect tightly ‌bound ⁤atomic ⁤sheets ‌connected⁣ by the ‌weaker van ​der Waals ⁣forces.⁣ The ‍typical examples⁣ are ​recently ‌discovered‍ graphene,‍ molybdenum⁢ disulfide ⁣and the‍ vast ​range of transition ⁤metal dichalcogenides. These ⁣are ‌known ⁢for ‌their record-breaking electronic and ⁤mechanical‌ properties ‌as well ​as⁢ their unique ability‌ to manipulate heat conductance.

In particular, ⁢the ⁣heat ‍conductivity⁣ of 2DMs is key to developing novel ‌highly ⁣efficient⁤ thermoelectrics, ⁤but it‍ is practically impossible to measure thermal ​conductivity in the⁤ nanoscale ‍thin ‍layers ‌of⁢ 2DMs.

The⁢ researchers resolved​ this ‍challenge ⁢by⁣ developing a⁤ novel scanning⁢ thermal ​microscopy ⁢approach⁢ allowing them to⁤ directly ⁢measure‌ the heat⁣ conductivity for ‍both the in-plane⁣ and‍ cross-plane directions ​of two-dimensional⁤ materials. Both planes are​ very​ different‌ due ​to ⁤the ⁢atomic ‍structure ‍of ‍the material.

2023-07-18 16:24:03
Link from phys.org

Exit mobile version