Superhydrophobic surfaces with dual-scale roughness and water vapor-barrier property for sustainable liquid packaging applications

Aldhaleai A(2020)Evaporation dynamics of water droplets on superhydrophobic nanograss surfaces Int J Heat Mass Transf 160 4493-4507

Khan F(2017)Effect of coating weight and nanoclay content on functional and physical properties of bionanocomposite-coated paper Cellulose 24 74-79

Thundat T(2012)Cellulose nanofibers as binder for fabrication of superhydrophobic paper Chem Eng J 210 2001265-31566

Aloui H(2020)Regenerative superhydrophobic paper coatings by in situ formation of waxy nanostructures Adv Mater Interfaces 8 31559-7659

Khwaldia K(2020)Crude wood rosin and its derivatives as hydrophobic surface treatment additives for paper and packaging ACS Omega 5 7652-9848

Arbatan T(2015)On the modeling of droplet evaporation on superhydrophobic surfaces Langmuir 31 9843-70

Zhang L(2020)Evaporation-crystallization method to promote coalescence-induced jumping on superhydrophobic surfaces Langmuir 36 65-8545

Fang X(2009)Water resistance improvement of paper by superhydrophobic modification with microsized CaCO3 and fatty acid coating Colloids Surf A 351 8536-11288

Shen W(2020)Underwater writable and heat-insulated paper with robust florine-free superhydrophobic coatings Nanoscale 12 11280-516

Cordt C(2018)Superhydrophobic paper from nanostructured fluorinated cellulose esters Acs Appl Mater Interface 10 508-1246

Aldhaleai A(2020)Evaporation dynamics of water droplets on superhydrophobic nanograss surfaces Int J Heat Mass Transf 160 4493-4507

Khan F(2017)Effect of coating weight and nanoclay content on functional and physical properties of bionanocomposite-coated paper Cellulose 24 74-79

Thundat T(2012)Cellulose nanofibers as binder for fabrication of superhydrophobic paper Chem Eng J 210 2001265-31566

Aloui H(2020)Regenerative superhydrophobic paper coatings by in situ formation of waxy nanostructures Adv Mater Interfaces 8 31559-7659

Khwaldia K(2020)Crude wood rosin and its derivatives as hydrophobic surface treatment additives for paper and packaging ACS Omega 5 7652-9848

Arbatan T(2015)On the modeling of droplet evaporation on superhydrophobic surfaces Langmuir 31 9843-70

Zhang L(2020)Evaporation-crystallization method to promote coalescence-induced jumping on superhydrophobic surfaces Langmuir 36 65-8545

Fang X(2009)Water resistance improvement of paper by superhydrophobic modification with microsized CaCO3 and fatty acid coating Colloids Surf A 351 8536-11288

Shen W(2020)Underwater writable and heat-insulated paper with robust florine-free superhydrophobic coatings Nanoscale 12 11280-516

Cordt C(2018)Superhydrophobic paper from nanostructured fluorinated cellulose esters Acs Appl Mater Interface 10 508-1246