No current microfabrication technique exists for producing room-temperature, high-precision, point-to-point polymer micro- and sub-microscale fibers in three dimensions. The purpose of this work is to characterize a novel method for fabricating interconnected three-dimensional (3-D) structures of micron and sub- micron feature size. Poly(methyl methacrylate) (PMMA) micro- and sub- microscale fiber suspended bridges are fabricated at room temperature by drawing from pools of solvated polymer using a nano-tipped stylus that is precisely positioned by an ultra-high-precision micromilling machine. The fibers were drawn over a 1.8 mm silicon trench, and as the solvent in the solution bridge rapidly evaporates, a suspended, 3-D PMMA fiber remained between the two pools. The resulting fiber diameters were measured for solutions of PMMA in chlorobenzene with concentrations ranging from 15.5 to 23.0 wt% 495k g mol(-1) PMMA and 13.0 to 21.0 wt% 950k g mol(-1) PMMA. Fibers were found to increase in diameter from 450 nm to 50 mu m, roughly corresponding to the increase in concentration of PMMA. To minimize fiber diameter variance, different stylus materials were investigated, with a Parylene (R)-coated stylus producing fibers with the lowest variance in diameter. Overall, the fiber diameter was found to increase significantly as the solution concentration and polymer molecular weight increased.
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机译:目前尚不存在用于制造三维三维室温,高精度,点对点聚合物微和亚微米级纤维的微细加工技术。这项工作的目的是描述一种新颖的方法,用于制造微米和亚微米特征尺寸的互连三维(3-D)结构。聚甲基丙烯酸甲酯(PMMA)微米级和亚微米级纤维吊桥是在室温下通过使用纳米尖端的触控笔从溶剂化的聚合物池中拉出而制成的,该触控笔由超高精度微铣削机精确定位。将纤维拉过1.8毫米的硅沟槽,随着溶液桥中的溶剂快速蒸发,悬浮的3-D PMMA纤维保留在两个池之间。测量所得PMMA在氯苯中的溶液的纤维直径,浓度范围为15.5至23.0 wt%495k g mol(-1)PMMA和13.0至21.0 wt%950k g mol(-1)PMMA。发现纤维的直径从450nm增加到50μm,大致对应于PMMA浓度的增加。为了使纤维直径变化最小化,对不同的测针材料进行了研究,并用聚对二甲苯(R)涂层的测针生产了直径变化最小的纤维。总体而言,发现纤维直径随着溶液浓度和聚合物分子量的增加而显着增加。
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