Electronic components, Materials, Nanotechnology, News

New nanomesh production method for electronics

Was invented a new method for production of a semiconductor nanomesh, which will be used in new electronic components.

Source: Phys.org

A collaborative team led by researchers from City University of Hong Kong (CityU) recently invented an innovative method for synthesizing high-quality, semiconducting nanomesh at a lower temperature and production cost than conventional methods. The findings will help enable the large-scale production of nanomesh for next-generation electronics.

Nanomesh is a nano-scale material formed from a network of nanowires. For several decades, one-dimensional materials like nanowires made of crystalline inorganic materials have been widely explored as the main driver for emerging electronics, as they have features like mechanical flexibility, energy efficiency and optical transparency. However, the scalability, integrability and cost-effectiveness of nanowire semiconductors are insufficient, limiting their potential for large-area electronic and optoelectronic applications.

To overcome these shortcomings, a research team led by CityU scientists made a breakthrough, inventing a low-temperature vapor-phase growth method, which can achieve large-scale synthesis of semiconducting tellurium (Te) nanomesh for use in devices.

Nanomesh sample
A nanomesh sample with infrared photodetectors. The image is from the same news source.

“The use of tellurium nanomesh in electronics holds great promise for meeting the emerging technological demands of today’s Internet of Things (IoT) applications. The progress made in this research marks a significant step towards the large-scale production of functional tellurium nanomesh, enabling potential applications that are not achievable through other means,” said Professor Johnny Ho Chung-yin, Associate Head and Professor in the Department of Materials Science and Engineering (MSE) at CityU, who led the study.

nanomesh on many substrates
Telurium nanomesh can be put in many types of surfaces (a). Image is from the same news source.

To initiate the growth process, tellurium source powders were first vaporized and carried to growth substrates, and then heated at 100°C with a flow of argon gas. By employing the principle of multi-scale van der Waals interactions of the materials in designing this novel synthesis method, the research team successfully created nanomeshes composed of self-assembled and self-welding tellurium nanowires laterally vapor-grown on arbitrary surfaces at the low temperature of 100°C, which is impossible using conventional methods.

Since a much lower temperature than normal is required, and the nanomesh can be grown on various substrates, the production cost is lower. Also, the discovery of a self-welding process in the growth of tellurium nanomesh in the study is crucial for improving device performance and ensuring the mechanical robustness of flexible electronics.

The nanomesh’s growth in a shaphire substrate. The image on left are the nanowire. In one hour, nanowires laterally grow (central image). In 2 hours, nanowires start to self-wield (on right). From the same news source.

The experiments conducted by the team demonstrated multi-functional applications of tellurium nanomesh, including the capacity for micrometer-level patterning, the fabrication of high-mobility transistors, and the production of fast and sensitive infrared photodetectors (photoresponse time under 3 microseconds) on paper.

Maybe this method can be used to create flexible transistors, digital circuits and even processors.

About Pedro Ney Stroski

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