English

Nanoplasmon-enabled macroscopic thermal management

Optics 2013-01-22 v1

Abstract

In numerous applications of energy harvesting via transformation of light into heat the focus recently shifted towards highly absorptive materials featuring nanoplasmons. It is currently established that noble metals-based absorptive plasmonic platforms deliver significant light-capturing capability and can be viewed as super-absorbers of optical radiation. However, direct experimental evidence of plasmon-enabled macroscopic temperature increase that would result from these efficient absorptive properties is scarce. Here we derive a general quantitative method of characterizing light-capturing properties of a given heat-generating absorptive layer by macroscopic thermal imaging. We further monitor macroscopic areas that are homogeneously heated by several degrees with plasmon nanostructures that occupy a mere 8% of the surface, leaving it essentially transparent and evidencing significant heat generation capability of nanoplasmon-enabled light capture. This has a direct bearing to thermophotovoltaics and other applications where thermal management is crucial.

Keywords

Cite

@article{arxiv.1301.4700,
  title  = {Nanoplasmon-enabled macroscopic thermal management},
  author = {Gustav Edman Jonsson and Vladimir Miljkovic and Alexandre Dmitriev},
  journal= {arXiv preprint arXiv:1301.4700},
  year   = {2013}
}
R2 v1 2026-06-21T23:12:28.912Z