SCALABLE METHOD FOR ACHIEVING SHAPE CONTROL OF DIAMOND MICRO-NANOPARTICLES

Organization Name

Versitech Limited

Inventor(s)

Zhiqin Chu of Hong Kong (CN)

Tongtong Zhang of Hong Kong (CN)

Qi Wang of Dongguan (CN)

Zhongqiang Wang of Dongguan (CN)

Kwai Hei Li of Shenzhen (CN)

SCALABLE METHOD FOR ACHIEVING SHAPE CONTROL OF DIAMOND MICRO-NANOPARTICLES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240240311 titled 'SCALABLE METHOD FOR ACHIEVING SHAPE CONTROL OF DIAMOND MICRO-NANOPARTICLES

The present invention introduces a scalable method for controlling the shape of diamond micro-nanoparticles through air oxidation treatment.

• Achieves controllable morphology transformation of diamond micro-nanoparticles.
• Unique shapes like "flower," "hollow," "pyramid," and "boomerang" can be achieved.
• Different shapes are produced by altering air oxidation parameters like temperature and duration.
• Significantly advances scientific understanding and commercial value.
• Enables cost-effective production of diamond particles for various applications.

1. 1. 1. Potential Applications:

The technology can be applied in nanophotonics, quantum computing, quantum optics, and more.

1. 1. 1. Problems Solved:

The method addresses the challenge of achieving specific shapes in diamond micro-nanoparticles efficiently.

1. 1. 1. Benefits:

- Simplified and cost-effective production process - Enables tailored diamond particles for diverse applications - Removes obstacles in utilizing diamonds for practical purposes

1. 1. 1. Commercial Applications:
         1. Scalable Production of Shaped Diamond Micro-Nanoparticles

This innovation opens up opportunities in industries requiring specialized diamond particles for advanced technologies.

1. 1. 1. Prior Art:

Readers can explore prior research on diamond micro-nanoparticles, air oxidation treatment, and shape control methods in materials science literature.

1. 1. 1. Frequently Updated Research:

Stay updated on the latest advancements in diamond nanoparticle technology and shape control methods to enhance your understanding of this field.

1. 1. 1. 1. Questions about Diamond Micro-Nanoparticles:

1. What are the potential environmental impacts of producing diamond micro-nanoparticles in large quantities?

  - The environmental impacts of large-scale production of diamond micro-nanoparticles are a subject of ongoing research. Factors such as energy consumption, waste management, and resource depletion are important considerations in assessing the sustainability of this technology.

2. How do the unique shapes achieved in diamond micro-nanoparticles impact their properties and applications?

  - The unique shapes obtained through air oxidation treatment can influence the optical, mechanical, and chemical properties of diamond micro-nanoparticles, opening up new possibilities for tailored applications in various fields.

Original Abstract Submitted

the present invention provides a scalable method for achieving shape control of diamond micro-nanoparticles, comprising air oxidizing diamond micro-nanoparticles grown by chemical vapor deposition and/or diamond micro-nanoparticles grown by high pressure and high temperature. the present invention achieves the controllable morphology transformation of diamond micro-nanoparticles via air oxidation treatment. it has been demonstrated that a series of unique shapes, including “flower” shaped, “hollow” structured, “pyramid” patterned on the surface, and “boomerang” shaped, can be achieved by altering the air oxidation parameters, i.e., temperature and duration. the scalable production of these differently shaped diamond micro-nanoparticles represents a significant scientific breakthrough together with a high commercial value. the ability to produce diamond particles with desired shapes simply and cost-effectively will remove many obstacles to using diamonds for practical applications in nanophotonics, quantum computing, quantum optics, etc.