Automated Nanopackaging using Cellulose Fibers Composition with Feasibility in SEM Environment

S. Shakya
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引用次数: 1

Abstract

By contributing to the system enhancement, the integration of Nano systems for nanosensors with biomaterials proves to be a unique element in the development of novel innovative systems. The techniques by which manipulation, handling, and preparation of the device are accomplished with respect to industrial use are a critical component that must be considered before the system is developed. The approach must be able to be used in a scanning electron microscope (SEM), resistant to environmental changes, and designed to be automated. Based on this deduction, the main objective of this research work is to develop a novel design of Nano electronic parts, which address the issue of packaging at a nanoscale. The proposed research work has used wood fibres and DNA as the bio material to develop nanoscale packaging. The use of a certain atomic force microscope (ATM) for handling DNA in dry circumstances is demonstrated with SCM wood fibrils/fibers manipulation in a scanning electron microscope (SEM).Keywords: Nano electronics, bioelectronics, scanning electron microscope (SEM), packaging, atomic force microscope (ATM)
利用纤维素纤维组成的自动纳米包装在扫描电镜环境下的可行性
通过促进系统的增强,纳米传感器的纳米系统与生物材料的集成被证明是新型创新系统发展的一个独特元素。在工业应用方面,设备的操作、处理和准备技术是在开发系统之前必须考虑的关键组成部分。该方法必须能够在扫描电子显微镜(SEM)中使用,能够抵抗环境变化,并且设计为自动化。基于此推断,本研究工作的主要目标是开发一种新颖的纳米电子部件设计,解决纳米级封装问题。提出的研究工作使用木纤维和DNA作为生物材料来开发纳米级包装。使用一定的原子力显微镜(ATM)处理DNA在干燥的情况下,与SCM木纤维/纤维操作在扫描电子显微镜(SEM)演示。关键词:纳米电子学,生物电子学,扫描电子显微镜,封装,原子力显微镜
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