Design and application of flexible insert for microinjection compression molding polymer microlens arrays with tunable height

Abstract: A flexible insert is assembled using easily available porous plate and flexible polymer film. Then, applying microinjection compression molding technology, a fast and efficient method is proposed for successive, mass and one‐step replication of polymer microlens arrays (MLAs). Orderly MLAs with convex microlenses are successfully prepared without a given micro‐feature on the insert corresponding to that on the MLAs. Interestingly, the flexible films are deformed to arc‐like profiles that match with the shape o… Show more

“…As shown in Figure 1e, a porous plate with regular micropore arrays was designed to act as the primary microlens template for constructing a compound eye-inspired surface. 47 The pore diameter and center-to-center distance of the porous plate were ∼500 and ∼800 μm, respectively. Then, the as-prepared film for constructing the secondary compound eye-inspired nanostructure was assembled using the microlens template to form the micro/nanotemplate.…”

“…As shown in Figure e, a porous plate with regular micropore arrays was designed to act as the primary microlens template for constructing a compound eye-inspired surface . The pore diameter and center-to-center distance of the porous plate were ∼500 and ∼800 μm, respectively.…”

Bioinspired Micro/Nanostructured Polyethylene/Poly(Ethylene Oxide)/Graphene Films with Robust Superhydrophobicity and Excellent Antireflectivity for Solar–Thermal Power Generation, Thermal Management, and Afterheat Utilization

“…As shown in Figure 1e, a porous plate with regular micropore arrays was designed to act as the primary microlens template for constructing a compound eye-inspired surface. 47 The pore diameter and center-to-center distance of the porous plate were ∼500 and ∼800 μm, respectively. Then, the as-prepared film for constructing the secondary compound eye-inspired nanostructure was assembled using the microlens template to form the micro/nanotemplate.…”

“…As shown in Figure e, a porous plate with regular micropore arrays was designed to act as the primary microlens template for constructing a compound eye-inspired surface . The pore diameter and center-to-center distance of the porous plate were ∼500 and ∼800 μm, respectively.…”

Bioinspired Micro/Nanostructured Polyethylene/Poly(Ethylene Oxide)/Graphene Films with Robust Superhydrophobicity and Excellent Antireflectivity for Solar–Thermal Power Generation, Thermal Management, and Afterheat Utilization

Investigation on a novel in-mould microcompression system for the precision replication of microlens arrays