Thick, three-dimensional nanoporous density-graded materials formed by optical exposures of photopolymers with controlled levels of absorption

Yun-Suk Nam; Sebkwoo Jeon; Daniel Jay-Lee Shir; Alex Hamza; John A. Rogers

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Thick, three-dimensional nanoporous density-graded materials formed by optical exposures of photopolymers with controlled levels of absorption

机译：厚的三维纳米多孔密度分级材料，由具有受控吸收水平的光聚合物经光学曝光形成

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摘要

Three-dimensional (3D) intensity distributions generated by light passing through conformal phase masks can be modulated by the absorption property of photosensitive materials. The intensity distributions have extremely long depth of focus, which is proportional to the size of the phase masks, and this enables one to pattern thick (～100 μm), nanoporous structures with precise control of grade density. Various density-graded 3D structures that result from computational modeling are demonstrated. Results of x-ray radiograph and the controlled absorption coefficient prove the dominant mechanism of the generated graded density is absorption of the photosensitive materials. The graded-density structures can be applied to a chemical reservoir for controlled release of chemicals and laser target reservoirs useful to shape shockless wave compression.

机译：可以通过光敏材料的吸收特性来调节由穿过保形相位掩模的光产生的三维（3D）强度分布。强度分布具有极长的焦点深度，与相位掩模的尺寸成正比，这使得人们可以对厚度（〜100μm）的纳米多孔结构进行图案化，并精确控制梯度密度。演示了由计算建模产生的各种密度渐变3D结构。 X射线照相和受控吸收系数的结果证明，产生的渐变密度的主要机理是光敏材料的吸收。渐变密度结构可以应用于化学药品的储库，以控制化学药品的释放；激光目标储库可用于无冲击波压缩。

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来源
《Applied Optics》 |2007年第25期|6350-6354|共5页
作者
Yun-Suk Nam; Sebkwoo Jeon; Daniel Jay-Lee Shir; Alex Hamza; John A. Rogers;
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作者单位

Department of Materials Science and Engineering, University of Illinois at Urbana/Champaign, 1304 Green Street, Urbana, 61801, USA;

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原文格式 PDF
正文语种 eng
中图分类光学;计量学;
关键词
microstructure fabrication; ultrafast nonlinear optics; diffraction and gratings;

机译：显微组织制造;超快非线性光学;衍射和光栅;

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1. Thick, three-dimensional nanoporous density-graded materials formed by optical exposures of photopolymers with controlled levels of absorption [J] . Yun-Suk Nam, Seokwoo Jeon, Daniel Jay-Lee Shir, Applied optics . 2007,第25期

机译：厚的三维纳米多孔密度分级材料，由具有受控吸收水平的光聚合物经光学曝光形成
2. Three dimensional nanoporous density graded materials formed by optical exposures through conformable phase masks [J] . Seokwoo Jeon, Yun-Suk Nam, Daniel Jay-Lee Shir, Applied Physics Letters . 2006,第25期

机译：三维纳米多孔密度梯度材料，其通过适形相位掩模的光学曝光形成
3. Efficient black silicon solar cell with a density-graded nanoporous surface: Optical properties, performance limitations, and design rules [J] . Hao-Chih Yuan, Vernon E. Yost, Matthew R. Page, Applied Physicsletters . 2009,第12期

机译：具有密度渐变的纳米多孔表面的高效黑硅太阳能电池：光学性质，性能限制和设计规则
4. Three-dimensional optical memory using photopolymer photorefractive crystals and photochromic materials [C] . Satoshi Kawata, Osaka Univ., Suita Osaka, Optical Data Storage 1997 Topical Meeting . 1997

机译：使用光聚合物光折变晶体和光致变色材料的三维光学存储器
5. Optical nanofabrication of photopolymer based photonic bandgap structures: Materials and applications. [D] . Hsiao, Vincent K.S. 2005

机译：基于光聚合物的光子带隙结构的光学纳米加工：材料和应用。
6. A Novel Micro-Displacement Sensor Based on Double Optical Fiber Probes Made through Photopolymer Materials [O] . Fuzheng Zhang, Qijing Lin, Liangquan Zhu, 2020

机译：一种基于光聚合物材料制造双光纤探针的新型微置换传感器
7. ABSTRACTudThe purpose of this research is to obtain an optimal formulations of Black mulberry leaves dried noodle product by using Design Expert Application with Design Mixture D-optimal method.udThis research was done with two phases. The preliminary procedures research is to determine levels of antioxidant activity, chlorophyll content, and the levels of tannin that was contained in black mulberry leaves, the black mulberry leaf flour, a pare fruits, and pare flour. Primary research is to determine the best formulation by using a Mixture Design Expert Design D-optimal method, for a purpose is to optimized the Black mulberry leaf dry noodle. Responses in this studies are a chemical analysis response by using a crude fiber analysis and protein analysis. Physical response is water absorption. Sensory response are color, flavor, and odor.udBlack mulberry leaves dried noodles was made from wheat flour, black mulberry leaf flour, and pare flour, other materials such as an eggs, water, salt, and sodium bicarbonate, of the 16 formulations that has offered to produce an optimal formulation based on desirability which contains 39.69 Flour,14.25 Black Mulberry Leaves flour, 3.06 Pare fruit and flour amounted, and other materials are 30 water, 10 eggs, 2 salt, and 1 sodium bicarbonate. The formulation has been result by program 11,05 crude fiber content, 12.93 protein, 274.31 water absorption, 4,31 for color attribute, 3,87 for taste attribute, and 3,71 for aroma attribute.ududKeyword: Black mulberry leaf dried noodles, optimization. [O] . Leti Nurlatifah Alumni, Yudi Garnida DS, Tantan Widiantara DS 2017

机译：抽象 ud本研究的目的是通过使用带有Design Mixture D-最优方法的Design Expert Application获得黑桑叶干面条产品的最佳配方。 ud这项研究分两个阶段进行。初步程序研究是确定抗氧化剂活性，叶绿素含量以及黑桑叶，黑桑叶粉，果皮和果皮中所含单宁的含量。首要研究是通过使用Mixture Design Expert Design D-optimal方法确定最佳配方，目的是优化黑桑叶干面条。本研究中的反应是通过使用粗纤维分析和蛋白质分析进行的化学分析反应。物理反应是吸水。感官反应是颜色，味道和气味。黑桑叶干面条由小麦粉，黑桑叶粉和削皮粉，鸡蛋，水，盐和碳酸氢钠等其他材料制成，这16种配方可根据需要提供最佳配方其中包含39.69％的面粉，14.25％的黑桑叶面粉，3.06％的去皮水果和面粉，其他材料是30％的水，10％的鸡蛋，2％的盐和1％的碳酸氢钠。该配方是通过程序11,05％的粗纤维含量，12.93％的蛋白质，274.31％的吸水率，4.31的颜色属性，3,87的味道属性和3,71的芳香属性得出的。 ud关键字：黑桑叶干面条，优化。
8. Understanding Energy Absorption Behaviors of Nanoporous Materials [R] . Qiao, Y. 2008

机译：了解纳米多孔材料的能量吸收行为

Thick, three-dimensional nanoporous density-graded materials formed by optical exposures of photopolymers with controlled levels of absorption

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