论文信息 - Three-dimensional SU-8 structures by reversal UV imprint

Three-dimensional SU-8 structures by reversal UV imprint

In this work, three-dimensional (3D) SU-8 micro- and nanostructures were fabricated using a reversal UV imprint process at low temperature and low pressure. The SU-8 polymer was coated on a patterned glass mold and then transferred onto various substrates by reversal UV imprint at a typical temperature of 50°C, pressure of 1MPa, and UV exposure of 1s. The lower temperature and pressure used compared to conventional thermal imprint shorten the imprint time and alleviate pattern distortion. A combination of silanes was used to generate a medium surface energy on the imprint molds to enable polymer spin coating and mold release after imprint. In addition, an O2 plasma was used for glass mold treatment to improve uniformity of silane coating and to increase substrate surface energy for better polymer adhesion. Using this technology, 100nm–1μm wide SU-8 gratings were fabricated on flat or patterned substrates with good fidelity. By repeating this process, multiple-level nanochannels, cavities, or air-bridging ...

[1] A. Yee,et al. Nanoimprinting over topography and multilayer three-dimensional printing , 2002 .

[2] John A. Rogers,et al. Three-Dimensional and Multilayer Nanostructures Formed by Nanotransfer Printing , 2003 .

[3] A. Yee,et al. Reversal imprinting by transferring polymer from mold to substrate , 2002 .

[4] R. Misra,et al. Biomaterials , 2008 .

[5] F J Blanco,et al. Fabrication of SU-8 multilayer microstructures based on successive CMOS compatible adhesive bonding and releasing steps. , 2005, Lab on a chip.

[6] A. S. Holmes,et al. SU8 resist plasma etching and its optimisation , 2003, DTIP 2003.

[7] M. Okubo,et al. Improvement on Hydrophilic and Hydrophobic Properties of Glass Surface Treated by Nonthermal Plasma Induced by Silent Corona Discharge , 2004 .

[8] Stella W. Pang,et al. Duo-mold imprinting of three-dimensional polymeric structures , 2004 .

[9] Andrew S. Holmes,et al. SU8 resist plasma etching and its optimisation , 2004 .

[10] Shang-Tian Yang,et al. Fabrication of well-defined PLGA scaffolds using novel microembossing and carbon dioxide bonding. , 2005, Biomaterials.

[11] Masaya Notomi,et al. Superprism Phenomena in Photonic Crystals , 1998 .

[12] D. K. Owens,et al. Estimation of the surface free energy of polymers , 1969 .

[13] Payman Zarkesh-Ha,et al. Interconnect opportunities for gigascale integration , 2002, IBM J. Res. Dev..