Table_1_Functional Network Changes After High-Frequency rTMS Over the Most Activated Speech-Related Area Combined With Speech Therapy in Chronic Stroke With Non-fluent Aphasia.docx by Won Kee Chang (12068138)

Image_2_Functional Network Changes After High-Frequency rTMS Over the Most Activated Speech-Related Area Combined With Speech Therapy in Chronic Stroke With Non-fluent Aphasia.TIFF by Won Kee Chang (12068138)

Long non-coding RNA HLA-F antisense RNA 1 inhibits the maturation of microRNA-613 in polycystic ovary syndrome to promote ovarian granulosa cell proliferation and inhibit cell apop... by Xiaohua Li (311008)

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.…”

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.…”