S5 Dataset - by Devon England (21262225)

“…Surgical complications included a high incidence of laryngeal hemiplegia. Comparison of operated to non-operated sites within individuals radiographed years later showed consistent, mildly reduced APJ opacity at most operated sites without a consistent decrease in APJ height or area ratios. …”

(a) Concentration of total soluble solids (TSS; °Brix), (b) acid (%), and (c) °Brix:acid ratio of Redlands Joy strawberry fruit arising from unassisted self-pollination (Autogamy)... by Cao Dinh Dung (11401910)

Measuring results of Hela cells subjected to different durations of fluid shear stress by Atomic Force Microscopy (AFM) by Xinyao Zhao (5824427)

Gsdmd deficiency reduces myeloid cell recruitment to the liver during schistosome infection. by Madhusoodhanan Suresh Kumar Meena Kumari (20896666)

The ASP activity is closely related to destruction of intestinal epithelial barrier function. by Hidetomo Kobayashi (535837)

Progressive differentiation of wakefulness from sleep in terms of EEG fractal dimension from 2 to 17 years of age. by Francesco Colussi (22421582)

Dose-response curve of UV-B radiation on <i>M</i>. <i>polymorpha</i> spores. by Chloe Casey (14341756)

miR-1247-3p was downregulated in CRC resistant cells. by Dequan Wang (6007007)

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. Under these conditions, nanoparticle films with controlled thickness in the <100 nm regime can be printed using nanoporous stamp flexography, at speeds commensurate with industrial printing equipment.…”