In this paper the investigation devoted to study and development of the optimized ITO conducting layers are presented and discussed under the conditions of the materials surfaces laser structuration in order to apply the modified conducting materials in the optoelectronics, virus protection, solar energy, microscopy, biomedicine, etc. area. Based on our knowledge and expertise it is established the dramatic change of the main characteristics of the ITO matrix, which surface is modified by the carbon nanotubes (CNTs), and additionally treated by surface electromagnetic waves (SEW) as well. The transmittance and reflection spectral change, increase of the micro hardness and laser strength as well as the increase of the wetting angle and refraction change are discussed due to the covalent bonding between the carbon nanotubes and the near-surface atoms of the matrix materials. As the unique point of the study the effective decrease of the resistivity is established and presented. Quantum chemical simulations are supported the data presented.

本文介绍并讨论了在材料表面激光结构化条件下研究和开发优化的ITO导电层的研究，以便将改性的导电材料应用于光电，病毒防护，太阳能，显微镜，生物医学等区域。根据我们的知识和专业知识，可以确定ITO矩阵主要特征的戏剧性变化，该表面通过碳纳米管（CNT）进行了修饰，并且还通过表面电磁波（SEW）进行了处理。透射率和反射光谱变化，由于碳纳米管和基体材料的近表面原子之间的共价键合，讨论了显微硬度和激光强度的增加，以及润湿角和折射率变化的增加。建立并提出了有效降低电阻率作为研究的独特观点。所提供的数据支持量子化学模拟。