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.…”

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.…”

Multiple homologs of 16p12.1 genes contribute to neurodevelopmental defects in <i>Drosophila melanogaster</i> and <i>X</i>. <i>laevis</i>. by Lucilla Pizzo (2735491)

“…<i>laevis</i> represents controls injected with the highest amount of morpholino (50 ng, see <b><a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1009112#pgen.1009112.s005" target="_blank">S5 Fig</a></b>). …”

Spot assays and gene expression analyses after tannic acid exposure. by Ming-Feng Lin (768243)

“…Through increasing the tannic acid concentration to 100 μg/mL, expression of each gene decreased to levels without tannic acid exposure. …”

Scores of each variable in the main components. by Leila Vahdatiraad (17382718)

“…Those subjected to diazinon after receiving HSPi showed a significant decrease in cortisol levels. In conclusion, the study suggests that HSPi-mediated HSP70 induction may have a protective effect. …”

Group control-after intervention. by Nan Tang (642590)

“…The intervention group reported a satisfaction rate of 96.2% to 100% with the SFA.…”

Group SFA-before intervention. by Nan Tang (642590)

“…The intervention group reported a satisfaction rate of 96.2% to 100% with the SFA.…”

Lost cases. by Nan Tang (642590)

“…The intervention group reported a satisfaction rate of 96.2% to 100% with the SFA.…”