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Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting

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Last updated 31 julho 2024
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Multilevel Hierarchical Topographies by Combined Photolithography
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Nanoimprint Lithography Processing of Inorganic-Based Materials
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Figure 5 from Fabrication of hierarchical pillar arrays from
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
AFM images of hierarchical PS patterns with a (A) 300 mesh hexagon
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Nanoimprint Lithography Processing of Inorganic-Based Materials
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
High-aspect-ratio nanoimprint process chains
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Laser field manipulation and laser damage resistance property of
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Wetting Models and Working Mechanisms of Typical Surfaces Existing
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Impact of surface topography on the bacterial attachment to micro
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Schematic illustration of the fabrication of the micro/nanoscale
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
PDF] Fabrication of hierarchical pillar arrays from thermoplastic
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Anisotropic Wetting of Micro–Micro Hierarchical Structures
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Anisotropic Wetting of Micro–Micro Hierarchical Structures
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Descripción: Multilevel Hierarchical Topographies by Combined
Multilevel Hierarchical Topographies by Combined Photolithography and Nanoimprinting Processes To Create Surfaces with Controlled Wetting
Impact of surface topography on the bacterial attachment to micro
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