Multi-layer coated nanorobot end-effector for efficient drug delivery

2016 IEEE 16th International Conference on Nanotechnology (IEEE-NANO) Pub Date : 2016-11-21 DOI:10.1109/NANO.2016.7751526

Jing Yu, Yongliang Yang, K. Seiffert-Sinha, I. Lee, N. Xi, A. Sinha, Ruiguo Yang, Bo Song, Liangliang Chen, Zhiyong Sun

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Abstract

A multi-layer coating enabled drug delivery method has been developed here to augment AFM based nanorobot technology. Being developed for over a decade, the AFM based nanorobot has been established as a key concept of nanorobotics, and has been applied in nanomaterial and biomedical related research. In these AFM based nanorobots, however, the AFM tip was mainly used as a mechanical end-effector to execute pushing and cutting in previous development. With its strong application potential in drug discovery and cell biology, AFM based nanorobots carrying functionalized end-effector are in a strong demand. Previous functionalization of AFM tip was aimed for single molecular interaction measurement. It cannot meet the high volume drug loading for localized drug delivery. Here, we developed a multi-layer coating method to load a large amount of protein on AFM tip for long-time release (~ 40 hours). Combined with the AFM based nanorobot previously developed in our lab, this technology would enable scientists to study mechanical cellular response to protein stimulations.

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用于高效给药的多层涂层纳米机器人末端执行器

本文开发了一种多层涂层给药方法，以增强基于AFM的纳米机器人技术。经过十多年的发展，基于AFM的纳米机器人已成为纳米机器人的核心概念，并已在纳米材料和生物医学相关研究中得到应用。然而，在这些基于AFM的纳米机器人中，AFM尖端在以前的发展中主要用作机械末端执行器来执行推动和切割。携带功能化末端执行器的基于AFM的纳米机器人在药物发现和细胞生物学方面具有巨大的应用潜力。先前的原子力显微镜尖端功能化是针对单分子相互作用的测量。它不能满足局部给药的大容量载药。在此，我们开发了一种多层包膜方法，可以在AFM针尖上加载大量蛋白质，使其长时间释放(~ 40小时)。结合我们实验室先前开发的基于AFM的纳米机器人，这项技术将使科学家能够研究细胞对蛋白质刺激的机械反应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE 16th International Conference on Nanotechnology (IEEE-NANO)

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