Epoxy resin mold and PDMS microfluidic devices through photopolymer flexographic printing plate

“…Then, an epoxy resin mold (ERmold) was manufactured. 40 The photopolymer Flexcel NX and Thermal Imaging Layer (TIL) used in the mold fabrication were supplied by Eastman Kodak. Furthermore, the epoxy resin and curing agent were supplied by Cristal-Tack, Novarchem -Argentina.…”

“…2a). The PDMS was mixed with curing agent in a 10 : 1 weight ratio (Sylgard 184 Silicone Elastomer Kit), as previously described by Olmos et al 40 Then, the mixture was placed under vacuum for 30 min to remove air bubbles, poured onto the ERmold and cured in an oven at 40 C overnight.…”

Hybrid microchannel-solid state micropore device for fast and optical cell detection

“…Then, an epoxy resin mold (ERmold) was manufactured. 40 The photopolymer Flexcel NX and Thermal Imaging Layer (TIL) used in the mold fabrication were supplied by Eastman Kodak. Furthermore, the epoxy resin and curing agent were supplied by Cristal-Tack, Novarchem -Argentina.…”

“…2a). The PDMS was mixed with curing agent in a 10 : 1 weight ratio (Sylgard 184 Silicone Elastomer Kit), as previously described by Olmos et al 40 Then, the mixture was placed under vacuum for 30 min to remove air bubbles, poured onto the ERmold and cured in an oven at 40 C overnight.…”

Hybrid microchannel-solid state micropore device for fast and optical cell detection

“…However, these materials are brittle and expensive, so they often meet constraints in practical applications. To address these limitations, a large variety of alternative polymer materials, such as thermoplastic polymers (PMMA, PC, polyethylene), solidified polymers (PDMS, epoxy resin, PU) and solvent volatile polymers, have been explored for the large‐scale fabrication of microfluidic devices due to their diversity, ease of processing and molding, low cost.…”

Recent Progress of Microfluidic Devices for Hemodialysis

“…18,20,28,29 Recently, we reported the manufacture of PDMS microuidic devices by employing a exographic photopolymer as mold. 30,31 Advantages related to resolution, mold size, aspect ratio, roughness, availability, scalability and costs were demonstrated. 30 It is possible to obtain minimum channel widths lower than non-traditional techniques such as CO 2 laser ablation, 32 building blocks, 33 laser ablation, 34 laser swelling, 35 semicontact writing, 36 3D printing, 37,38 WAX mold.…”

“…30,31 Advantages related to resolution, mold size, aspect ratio, roughness, availability, scalability and costs were demonstrated. 30 It is possible to obtain minimum channel widths lower than non-traditional techniques such as CO 2 laser ablation, 32 building blocks, 33 laser ablation, 34 laser swelling, 35 semicontact writing, 36 3D printing, 37,38 WAX mold. 39 In regard to roughness, the Fmold present smoother structures in contrast to techniques such as CO 2 laser ablation, 32 laser ablation 34 and 3D printing.…”

Cost-effective fabrication of photopolymer molds with multi-level microstructures for PDMS microfluidic device manufacture