The nanomaterials have game changing fascinating materials in the modern era. These having dimension from 1 nm to 100 nm. Nanomaterials have outstanding physical properties, by monitoring its physical structure by precisely controlling its morphologies like size, shape, width, dimension, and other counterparts the various methods of synthesis including top-down and bottom-up approaches are stated here. Apart from soft electronic materials are outstanding materials for realizing customised wearables, attachable and apply to stick-on affixable electronics. The improvement, development of stretchable, deformable nanostructured material plays a prime role for developing deformable, flexible and translucent soft electronic devices. In this review we focused on how nanostructured materials like graphene, CNTs and some organic, inorganic polymers can be converted to stretchable and deformable soft electronics to achieve electrical tenability, simple mechanical implementation and desirable chemical and optical properties. Here, we present, recent progress in design of stretchable, conducting material, including their fabrication and conductivity properties and the method involved in the enhancement of their performance.

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Nanotechtonics for Deformable Electronic and Energy Devices

  • G. Veeresha,
  • G. Krishnamurthy,
  • A. S. Santhosh Kumar

摘要

The nanomaterials have game changing fascinating materials in the modern era. These having dimension from 1 nm to 100 nm. Nanomaterials have outstanding physical properties, by monitoring its physical structure by precisely controlling its morphologies like size, shape, width, dimension, and other counterparts the various methods of synthesis including top-down and bottom-up approaches are stated here. Apart from soft electronic materials are outstanding materials for realizing customised wearables, attachable and apply to stick-on affixable electronics. The improvement, development of stretchable, deformable nanostructured material plays a prime role for developing deformable, flexible and translucent soft electronic devices. In this review we focused on how nanostructured materials like graphene, CNTs and some organic, inorganic polymers can be converted to stretchable and deformable soft electronics to achieve electrical tenability, simple mechanical implementation and desirable chemical and optical properties. Here, we present, recent progress in design of stretchable, conducting material, including their fabrication and conductivity properties and the method involved in the enhancement of their performance.