人工纳米粒子路径的计算模拟

2020 IEEE Third International Conference on Artificial Intelligence and Knowledge Engineering (AIKE) Pub Date : 2020-12-01 DOI:10.1109/AIKE48582.2020.00045

H. Nieto-Chaupis

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引用次数: 0

摘要

本文对纳米药物中纳米颗粒的传递过程进行了计算模拟。为此，量子力学的使用最终描述了纳米粒子从发生器到具体目标的不同路径。离子的存在可能违背靶向给药技术的目的，该技术假定纳米粒子不会同时存在任何噪音。本文给出了布朗动力学改变纳米粒子路径的模拟。从结果中我们发现，依赖于能量的相互作用，这将是纳米粒子沿着它们到达预期目标的路径产生误差和偏差的原因。

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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Computational Simulation of Artificial Nanoparticles Paths

In this paper the action to deliver nanoparticles in prospective Nanomedicine is computationally simulated. For this end, the usage of quantum mechanics has as end to describe the different paths that nanoparticles travel from a generator to a concrete target. The presence of ions might be against the purpose of the technique of Drug Delivery Targeted by which assumes that not any noise might coexist together to the nanoparticles. This paper presents simulations by which the Brownian dynamics would alter the nanoparticles paths. From the results one finds that depending on the energy interactions it would be a cause for errors and deviation of nanoparticles along their path to the desired target.

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2020 IEEE Third International Conference on Artificial Intelligence and Knowledge Engineering (AIKE)

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