Polymeric microlens array formed on a discontinuous wetting surface using a self-assembly technique

Author:

Xu MiaoORCID,Bian Zhenyao,Chen Qilong,Wang Haoran,Chen Cuifen,Lu Hongbo

Abstract

In this paper, we demonstrate a facile way to prepare polymeric microlens arrays (MLAs) based on a discontinuous wetting surface using a self-assembly technique. A patterned hydrophobic-octadecyltrichlorosilane (OTS) surface was prepared by UV/O3 irradiation through a shadow mask. The area exposed to UV/O3 irradiation turned highly hydrophilic, whereas the area protected by the mask remained highly hydrophobic, generating the patterned OTS surface. The surface energy of the OTS/glass surface changed from 23 to 72.8 mN/m after 17 min of UV/O3 treatment. The scribing of the optical glue-NOA 81 onto the microhole array enabled one to obtain the MLAs due to the generation of the NOA 81 droplet array via the surface tension. After UV light curing, the cured NOA 81 droplet array with uniform dimensions within a large area exhibited excellent MLA characteristics. Moreover, the method developed in this study is simple in operation, low-cost, and requires neither a clean room nor expensive equipment.

Funder

Fundamental Research Funds for the Central Universities

Publisher

Optica Publishing Group

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