Topic
Fabrication
About: Fabrication is a research topic. Over the lifetime, 20475 publications have been published within this topic receiving 235676 citations.
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14 Oct 2011TL;DR: In this article, a substantially transparent elastomeric material may be disposed between the substantially transparent substrates to increase the optical performance of underlying displays, and the material can be used to improve optical performance.
Abstract: Fabrication methods for combined sensor devices include substantially transparent substrates and materials to increase the optical performance of underlying displays. A substantially transparent elastomeric material may be disposed between the substantially transparent substrates. Some fabrication processes utilize flexible substrates for at least a portion of the sensor device, and lend themselves to roll-to-roll processing for low cost.
99 citations
TL;DR: In this article, a thermal evaporation-deposition approach using microwave energy was employed for the fabrication of ZnO micro-and nano-structures, including microtubes, microrods, nanowires and nanobelts.
99 citations
TL;DR: In this paper , the main preparation methods of cellulose nanopaper including filtration method and casting method as well as the newly developed technology are systematically elaborated and compared, and the prospects and ongoing challenges of cellulosophane nanopaper are summarized.
Abstract: Cellulose nanopaper has shown great potential in diverse fields including optoelectronic devices, food packaging, biomedical application, and so forth, owing to their various advantages such as good flexibility, tunable light transmittance, high thermal stability, low thermal expansion coefficient, and superior mechanical properties. Herein, recent progress on the fabrication and applications of cellulose nanopaper is summarized and discussed based on the analyses of the latest studies. We begin with a brief introduction of the three types of nanocellulose: cellulose nanocrystals, cellulose nanofibrils and bacterial cellulose, recapitulating their differences in preparation and properties. Then, the main preparation methods of cellulose nanopaper including filtration method and casting method as well as the newly developed technology are systematically elaborated and compared. Furthermore, the advanced applications of cellulose nanopaper including energy storage, electronic devices, water treatment, and high-performance packaging materials were highlighted. Finally, the prospects and ongoing challenges of cellulose nanopaper were summarized.
99 citations
TL;DR: In this paper, the authors describe the fabrication of different micro-optical structures on top of optical fibers using two-photon polymerization and show the convenience of this approach to quickly create generic 3D shapes using a single setup by comparison to previous shape-dependent methods.
Abstract: We describe the fabrication of different micro-optical structures on top of optical fibers using two-photon polymerization. We show the convenience of this approach to quickly create generic three-dimensional shapes using a single setup by comparison to previous shape-dependent methods. A set of different structures, designed for different optical functions, are fabricated and characterized to demonstrate the versatility of this approach and their high optical quality.
99 citations
TL;DR: In this article, the first time, the fabrication of a periodically reversed domain structure for LiNbO3 has been achieved at room temperature and the domain boundary is perpendicular to the positive c-face and is very deep which is advantageous for quasiphasematching SHG.
Abstract: For the first time, the fabrication of a periodically reversed domain structure for LiNbO3 has been achieved at room temperature. The domain boundary is perpendicular to the positive c-face and is very deep which is advantageous for quasiphasematching SHG.
99 citations