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Nanoimprint Lithography (NIL) has been an interesting and growing field in recent years since its beginnings in the mid-1990s. During that time, nanoimprinting has undergone significant changes and developments and nowadays is a technology used in R&D labs and industrial production processes around the world. One of the exciting things about nanoimprinting process is its remarkable versatility and the broad range of applications. This reprint includes ten articles, which represent a small glimpse of the challenges and possibilities of this technology. Six contributions deal with nanoimprint processes aiming at specific applications, while the other four papers focus on more general aspects of nanoimprint processes or present novel materials. Several different types of nanoimprint processes are used: plate-to-plate, roll-to-plate, and roll-to-roll. Plate-to-plate NIL here also includes the use of soft and flexible stamps. The application fields in this reprint are broad and can be identified as plasmonics, superhydrophibicity, biomimetics, optics/datacom, and life sciences, showing the broad applicability of nanoimprinting. The sections on the nanoimprint process discuss filling and wetting aspects during nanoimprinting as well as materials for stamps and imprinting.

Technology: general issues --- nanoimprint lithography --- polymer --- formulation development --- surface chemistry --- click chemistry --- plasmons --- Bragg SPPs --- angle of incidence --- grating --- organic solar cell --- ultraviolet nanoimprint lithography --- durability --- anisotropy --- contact angle --- line and space --- high aspect ratio micro-structure --- roll-to-plate nanoimprint lithography --- superhydrophobic --- oleophobic --- biomimetic surface --- large-area patterning --- negligible residual layer --- partial cavity filling --- guiding chart --- defect avoidance --- hydrodynamic instabilities --- T-NIL --- UV-NIL --- el-UV-NIL --- el-T-NIL --- optical planar waveguides --- roll-to-plate R2P nanoimprinting --- UV-curable polymers --- inorganic-organic hybrid polymer --- optical losses --- SmartNIL --- R2R UV-NIL --- neuronal cell assay --- nanoimprint lithography (NIL) --- undercut features --- master --- Blu-Ray patterning --- reactive ion etching --- biomimetics --- morpho butterfly --- n/a

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Nanoimprint Lithography (NIL) has been an interesting and growing field in recent years since its beginnings in the mid-1990s. During that time, nanoimprinting has undergone significant changes and developments and nowadays is a technology used in R&D labs and industrial production processes around the world. One of the exciting things about nanoimprinting process is its remarkable versatility and the broad range of applications. This reprint includes ten articles, which represent a small glimpse of the challenges and possibilities of this technology. Six contributions deal with nanoimprint processes aiming at specific applications, while the other four papers focus on more general aspects of nanoimprint processes or present novel materials. Several different types of nanoimprint processes are used: plate-to-plate, roll-to-plate, and roll-to-roll. Plate-to-plate NIL here also includes the use of soft and flexible stamps. The application fields in this reprint are broad and can be identified as plasmonics, superhydrophibicity, biomimetics, optics/datacom, and life sciences, showing the broad applicability of nanoimprinting. The sections on the nanoimprint process discuss filling and wetting aspects during nanoimprinting as well as materials for stamps and imprinting.

Technology: general issues --- nanoimprint lithography --- polymer --- formulation development --- surface chemistry --- click chemistry --- plasmons --- Bragg SPPs --- angle of incidence --- grating --- organic solar cell --- ultraviolet nanoimprint lithography --- durability --- anisotropy --- contact angle --- line and space --- high aspect ratio micro-structure --- roll-to-plate nanoimprint lithography --- superhydrophobic --- oleophobic --- biomimetic surface --- large-area patterning --- negligible residual layer --- partial cavity filling --- guiding chart --- defect avoidance --- hydrodynamic instabilities --- T-NIL --- UV-NIL --- el-UV-NIL --- el-T-NIL --- optical planar waveguides --- roll-to-plate R2P nanoimprinting --- UV-curable polymers --- inorganic-organic hybrid polymer --- optical losses --- SmartNIL --- R2R UV-NIL --- neuronal cell assay --- nanoimprint lithography (NIL) --- undercut features --- master --- Blu-Ray patterning --- reactive ion etching --- biomimetics --- morpho butterfly