POPULATION OF ALLOY NANOCRYSTALS, POPULATION OF CORE-SHELL NANOCRYSTALS, AND USE THEREOF AND SYNTHESIS METHOD THEREFOR

Organization Name

ZHEJIANG UNIVERSITY

Inventor(s)

Xiaogang Peng of Hangzhou, Zhejiang (CN)

Lin Huang of Hangzhou, Zhejiang (CN)

Jiongzhao Li of Hangzhou, Zhejiang (CN)

POPULATION OF ALLOY NANOCRYSTALS, POPULATION OF CORE-SHELL NANOCRYSTALS, AND USE THEREOF AND SYNTHESIS METHOD THEREFOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18277785 titled 'POPULATION OF ALLOY NANOCRYSTALS, POPULATION OF CORE-SHELL NANOCRYSTALS, AND USE THEREOF AND SYNTHESIS METHOD THEREFOR

The present disclosure introduces a population of alloy nanocrystals, core-shell nanocrystals, and a synthesis method, composition, and electronic device related to them.

• The population of alloy nanocrystals consists of multiple alloy nanocrystals, each containing two group II elements and one group VI element.
• These alloy nanocrystals exhibit a Raman peak with a full-width-at-half-maximum of 15 cm or less, showcasing excellent narrow full-width-at-half-maximum characteristics.
• The average size of the alloy nanocrystals is larger than the diameter of an exciton of a corresponding bulk alloy compound, indicating their unique properties.

Potential Applications: - These alloy nanocrystals could be used in advanced electronic devices, sensors, or catalysis applications. - They may also find applications in biomedical imaging or drug delivery systems due to their unique properties.

Problems Solved: - The alloy nanocrystals address the need for nanomaterials with specific size, composition, and optical properties for various applications. - They offer a solution for enhancing the performance of electronic devices and other technologies.

Benefits: - Improved efficiency and performance in electronic devices. - Enhanced sensitivity and selectivity in sensors and catalysis applications. - Potential for new advancements in biomedical imaging and drug delivery systems.

Commercial Applications: Title: Advanced Nanocrystals for Electronic Devices and Biomedical Applications This technology could be utilized in the development of high-performance electronic devices, sensors, and biomedical imaging tools, leading to advancements in various industries.

Prior Art: Readers can explore research articles, patents, and scientific databases related to alloy nanocrystals, core-shell nanocrystals, and their synthesis methods to understand the existing knowledge in this field.

Frequently Updated Research: Stay updated on the latest advancements in nanocrystal technology, materials science, and electronic device applications to leverage the full potential of this innovation.

Questions about Alloy Nanocrystals: 1. How do alloy nanocrystals differ from traditional bulk alloy compounds?

  Alloy nanocrystals exhibit unique optical and size-dependent properties not found in bulk materials due to their nanoscale dimensions.

2. What are the key factors influencing the Raman peak characteristics of alloy nanocrystals?

  The composition, size, and structure of the alloy nanocrystals play a crucial role in determining their Raman peak properties.

Original Abstract Submitted

The present disclosure provides a population of alloy nanocrystals, a population of core-shell nanocrystals, and a synthesis method therefor, a composition comprising same, and an electronic device. The population of alloy nanocrystals comprises a plurality of alloy nanocrystals, wherein each of the alloy nanocrystals comprises a first group II element, a second group II element, and a first group VI element, the population of alloy nanocrystals has a Raman peak with a full-width-at-half-maximum of less than or equal to 15 cm, and the alloy nanocrystals have an average size greater than a diameter of an exciton of a corresponding bulk alloy compound. The population of alloy nanocrystals has an excellent narrow full-width-at-half-maximum.