Smart materials have an important role in modern applications. They have contributed to improving various applications in several fields. One of the areas most affected by the improvement of smart materials is nanostructures. These materials are created by basic techniques, such as arrangement manipulation. Significant efforts have been made to enhance smart materials so that they resemble natural materials in terms of accuracy, design, and utility. Here, a review of the latest research on smart materials that can alter the electrical properties of nanostructures is presented. The main objective of this review is to introduce the role of smart materials in controlling the electrical performance of nanostructures. Furthermore, this review proposes an analysis of the integration and cooperation of previous research, such as the use of a piezoelectric motor in the design of structural magnetic nanodevices to control these devices. Piezoelectric actuators can also be used to develop a new method for controlling PV modulators for fabricating a single-wall nanotube. This new proposal could alter the properties of many nanoscale systems serving several medical and engineering fields. Moreover, this review proposes a novel methodology for nanocoating by introducing an antireflective coating with multiple layers. This method can effectively enhance the functions of the nanoscale coating.

智能材料在现代应用中具有重要作用。他们为改善多个领域的各种应用做出了贡献。受智能材料改进影响最大的领域之一是纳米结构。这些材料是通过基本技术（例如排列操作）创建的。在增强智能材料方面已经做出了巨大的努力，以使它们在准确性，设计和实用性方面类似于天然材料。在这里，对可以改变纳米结构电特性的智能材料的最新研究进行了综述。这篇综述的主要目的是介绍智能材料在控制纳米结构的电性能中的作用。此外，本文还对先前研究的整合与合作进行了分析，例如在结构磁性纳米器件的设计中使用压电马达来控制这些器件。压电致动器还可以用于开发一种新方法，用于控制用于制造单壁纳米管的PV调制器。这项新提议可能会改变服务于医疗和工程领域的许多纳米系统的特性。而且，该综述提出了一种通过引入具有多层的抗反射涂层来进行纳米涂层的新颖方法。该方法可以有效地增强纳米级涂层的功能。这项新提议可能会改变服务于医疗和工程领域的许多纳米系统的特性。而且，该综述提出了一种通过引入具有多层的抗反射涂层来进行纳米涂层的新颖方法。该方法可以有效地增强纳米级涂层的功能。这项新提议可能会改变服务于医疗和工程领域的许多纳米系统的特性。而且，该综述提出了一种通过引入具有多层的抗反射涂层来进行纳米涂层的新颖方法。该方法可以有效地增强纳米级涂层的功能。