TPM1 protein expression in response to inflammatory cytokines. by Stuart A. Savill (3129060)

TPM1 and TPM4 expression in response to IL-1α. by Stuart A. Savill (3129060)

TPM1 and TPM4 expression in response to TNFα. by Stuart A. Savill (3129060)

TPM1 and TPM4 expression in response to glucose and insulin. by Stuart A. Savill (3129060)

TPM1 and TPM4 expression in response to IL-1α. by Stuart A. Savill (3129060)

Repeat sampling of individuals with Type 2 diabetes. by Stuart A. Savill (3129060)

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”

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. …”