Nanotechnology Now – Press Release: When all details matter — Heat transport in energy materials

Home > Press > When all details matter — Heat transport in energy materials

Temporary formation of a defect pair in copper iodide. Although these defects only survive for a couple of picoseconds, i.e., for a trillionth of a second, they substantially influence macroscopic heat transport processes. CREDIT © Florian Knoop, NOMAD Laboratory

Abstract:
The NOMAD Laboratory researchers have recently elucidated on fundamental microscopic mechanisms that offer to tailor materials for heat insulation. This development advances the ongoing efforts to enhance energy efficiency and sustainability.

When all details matter — Heat transport in energy materials

Berlin, Germany | Posted on June 9th, 2023

The role of heat transport is crucial in various scientific and industrial applications, such as catalysis, turbine technologies, and thermoelectric heat converters that convert waste heat into electricity. Particularly in the context of energy conservation and the development of sustainable technologies, materials with high thermal insulation capabilities are of utmost importance. These materials allow to retain and utilize heat that would otherwise go to waste. Therefore, improving the design of highly insulating materials is a key research objective in enabling more energy-efficient applications.

However, designing strongly heat insulators is far from trivial, despite the fact that the underlying fundamental physical laws are known for nearly a century. At a microscopic level, heat transport in semiconductors and insulators was understood in terms of the collective oscillation of the atoms around their equilibrium positions in the crystal lattice. These oscillations, called “phonons” in the field, involve zillions of atoms in solid materials and hence cover large, almost macroscopic length- and time-scales.

In a recent joined publication in Physical Review B (Editors Suggestions) and Physical Review Letters, researchers from the NOMAD Laboratory at the Fritz Haber Institute have advanced the computational possibilities to compute thermal conductivities without experimental input at unprecedented accuracy. They demonstrated that for strong heat insulators the above-mentioned phonon picture is not appropriate. Using large-scale calculations on supercomputers at of the Max Planck Society, the North-German Supercomputing Alliance, and the Jülich Supercomputing Centre, they scanned over 465 crystalline materials, for which the thermal conductivity had not been measured yet. Besides finding 28 strong thermal insulators, six of which featuring an ultra-low thermal conductivity comparable to wood, this study shed light on a hitherto typically overseen mechanisms that allows to systematically lower the thermal conductivity. “We observed the temporary formation of defect structures that massively influences the atomic motion for an extremely short period of time”, says Dr. Florian Knoop (now Linköping University), first author of both publications. “Such effects are typically neglected in thermal-conductivity simulations, since these defects are so short-lived and so microscopically localised compared to typical heat-transport scales, that they are assumed to be irrelevant. However, the performed calculations showed that they trigger lower thermal conductivities”, adds Dr. Christian Carbogno, a senior author of the studies.

These insights may offer new opportunities to fine-tune and design thermal insulators on a nanoscale level through defect engineering, potentially contributing to advances in energy-efficient technology.

####

For more information, please click here

Contacts:
Media Contact

Jelena Tomovic
Fritz Haber Institute of the Max Planck Society
Office: 3084135122
Expert Contacts

Dr. Christian Carbogno
Fritz Haber Institute
Office: +49308413-4817
@fhi_mpg_de
Prof. Dr. Matthias Scheffler
Fritz Haber Institute
Office: +49308413-4711
@fhi_mpg_de

Copyright © Fritz Haber Institute of the Max Planck Society

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:

Related Links

ARTICLE TITLE

Related News Press

News and information

Single quantum bit achieves complex systems modeling June 9th, 2023

Quantum materials: Electron spin measured for the first time June 9th, 2023

Liquid metal sticks to surfaces without a binding agent June 9th, 2023

Graphene-based Carbocatalysts: Synthesis, Properties, and Applications—Beyond Boundaries June 9th, 2023

Possible Futures

USTC enhances fluorescence brightness of single silicon carbide spin color centers June 9th, 2023

Single quantum bit achieves complex systems modeling June 9th, 2023

Advances in nanotechnology application in biosafety materials A crucial response to COVID-19 pandemic June 9th, 2023

Researchers discover materials exhibiting huge magnetoresistance June 9th, 2023

Discoveries

Zinc transporter has built-in self-regulating sensor: New cryo-EM structure of a zinc-transporter protein reveals how this molecular machine functions to regulate cellular levels of zinc, an essential micronutrient June 9th, 2023

Advances in nanotechnology application in biosafety materials A crucial response to COVID-19 pandemic June 9th, 2023

Researchers discover materials exhibiting huge magnetoresistance June 9th, 2023

Breaking through the limits of stretchable semiconductors with molecular brakes that harness light June 9th, 2023

Announcements

Liquid metal sticks to surfaces without a binding agent June 9th, 2023

Graphene-based Carbocatalysts: Synthesis, Properties, and Applications—Beyond Boundaries June 9th, 2023

Zinc transporter has built-in self-regulating sensor: New cryo-EM structure of a zinc-transporter protein reveals how this molecular machine functions to regulate cellular levels of zinc, an essential micronutrient June 9th, 2023

Advances in nanotechnology application in biosafety materials A crucial response to COVID-19 pandemic June 9th, 2023

Interviews/Book Reviews/Essays/Reports/Podcasts/Journals/White papers/Posters

USTC enhances fluorescence brightness of single silicon carbide spin color centers June 9th, 2023

Single quantum bit achieves complex systems modeling June 9th, 2023

Advances in nanotechnology application in biosafety materials A crucial response to COVID-19 pandemic June 9th, 2023

Researchers discover materials exhibiting huge magnetoresistance June 9th, 2023

Environment

Temperature-sensing building material changes color to save energy January 27th, 2023

This new fabric coating could drastically reduce microplastic pollution from washing clothes: University of Toronto Engineering researchers are working on a fabric finish to prevent microplastic fibres from shedding during laundry cycles January 27th, 2023

Researchers create a new 3D extra-large pore zeolite that opens a new path to the decontamination of water and gas: A team of scientists with the participation of the CSIC develops an extra-large pore silica zeolite from a silicate chain January 20th, 2023

New nanowire sensors are the next step in the Internet of Things January 6th, 2023

Energy

Graphene-based Carbocatalysts: Synthesis, Properties, and Applications—Beyond Boundaries June 9th, 2023

Researchers at Purdue discover superconductive images are actually 3D and disorder-driven fractals May 12th, 2023

Channeling mechanical energy in a preferred direction April 14th, 2023

A universal HCl-assistant powder-to-powder strategy for preparing lead-free perovskites March 24th, 2023

• SEO Powered Content & PR Distribution. Get Amplified Today.
• EVM Finance. Unified Interface for Decentralized Finance. Access Here.
• Quantum Media Group. IR/PR Amplified. Access Here.
• PlatoAiStream. Web3 Data Intelligence. Knowledge Amplified. Access Here.
• Source: http://www.nanotech-now.com/news.cgi?story_id=57349