Waterborne Fluorine‐Free Superhydrophobic Surfaces Exhibiting Simultaneous CO2 and Humidity Sorption

Waterborne Fluorine‐Free Superhydrophobic Surfaces Exhibiting Simultaneous CO2 and Humidity Sorption

Recent progress in the field of superhydrophobic materials has proven their potential to solve many problems of the contemporary society. However, the use of such materials to capture moisture and CO2 from air, to help reduce the impact of global climate change is not explored. In addition, most of...

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Veröffentlicht in:Advanced materials interfaces 2019-12, Vol.6 (23), p.n/a
Hauptverfasser: Baidya, Avijit, Yatheendran, Anagha, Ahuja, Tripti, Sudhakar, Chennu, Das, Sarit Kumar, Ras, Robin H. A., Pradeep, Thalappil
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Carbon dioxide
Carbon sequestration
Climate change
environment‐friendly
Fluorine
Humidity
Hydrocarbons
Hydrophobic surfaces
Hydrophobicity
Moisture
moisture sorption and CO2 capture
Organic chemistry
robust
Room temperature
superhydrophobicity
Surface chemistry
Surface energy
Water chemistry
waterborne
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