Carbonaceous Materials‐Based Photothermal Process in Water Treatment: From Originals to Frontier Applications

Abstract: The photothermal process has attracted considerable attention in water treatment due to its advantages of low energy consumption and high efficiency. In this respect, photothermal materials play a crucial role in the photothermal process. Particularly, carbonaceous materials have emerged as promising candidates for this process because of exceptional photothermal performance. While previous research on carbonaceous materials has primarily focused on photothermal evaporation and sterilization, there is now a gr… Show more

“…These variations are attributed to the presence of surface groups and π-conjugated structures in their carbon cores . Notably, graphene exhibits exceptional light absorption capabilities, absorbing 2.3% of light across a wide spectrum due to its unique electronic structure known as “Dirac cones.” , For comparison, plasmonic localized heating occurs when these nanomaterials absorb light, leading to the conversion of light energy into heat via plasmonic oscillations of free electrons. , Similarly, in semiconductor materials, nonradiative relaxation takes place as absorbed photons generate electron–hole pairs, with the excess energy dissipating as heat through nonradiative pathways instead of being emitted as light . In contrast, thermal vibration in molecules, observed in carbonaceous and organic polymer materials, is triggered by the absorption of light energy, prompting the atoms within the molecules to vibrate and produce heat due to frictional forces .…”

Cost Effective Photothermal Materials Selection for Direct Solar-Driven Evaporation

“…These variations are attributed to the presence of surface groups and π-conjugated structures in their carbon cores . Notably, graphene exhibits exceptional light absorption capabilities, absorbing 2.3% of light across a wide spectrum due to its unique electronic structure known as “Dirac cones.” , For comparison, plasmonic localized heating occurs when these nanomaterials absorb light, leading to the conversion of light energy into heat via plasmonic oscillations of free electrons. , Similarly, in semiconductor materials, nonradiative relaxation takes place as absorbed photons generate electron–hole pairs, with the excess energy dissipating as heat through nonradiative pathways instead of being emitted as light . In contrast, thermal vibration in molecules, observed in carbonaceous and organic polymer materials, is triggered by the absorption of light energy, prompting the atoms within the molecules to vibrate and produce heat due to frictional forces .…”

Cost Effective Photothermal Materials Selection for Direct Solar-Driven Evaporation

Biomimetic Multifunctional Graphene‐Based Coating for Thermal Management, Solar De‐Icing, and Fire Safety: Inspired from the Antireflection Nanostructure of Compound Eyes

A holistic review on alternate sustainable energy source embracing photo-thermo-electric and photo-thermoelectric effect: Phonetically similar with dissimilar working principle