Patents by Inventor Chongyang BA

Chongyang BA has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 12421579
    Abstract: Six-membered high-entropy foam for hydrogen production by water splitting and preparation method are provided. The foam consists of Ni, Fe, Cu, Co, Mo, and Pt, comprising 10 at %-25 at % of Ni, 10 at %-25 at % of Fe, 10 at %-25 at % of Cu, 10 at %-25 at % of Co, 10 at %-25 at % of Mo, and 10 at %-25 at % of Pt. Catalyst loading of the foam can reach a range of 0.8 mg/cm2-3.2 mg/cm2, which is much higher than the effective catalyst loading of most nano-catalysts. When used as catalyst for hydrogen production by water splitting, the hydrogen evolution overpotential of the surface of the six-membered high-entropy foam is within a range of 36 mV-60 mV, and the foam operates stably at industrial-level current density (500 mA/cm2). The preparation method does not require harsh environment such as high temperature or high vacuum, making the method simple and easy to implement, with low-cost raw materials.
    Type: Grant
    Filed: November 7, 2024
    Date of Patent: September 23, 2025
    Assignee: SOUTHEAST UNIVERSITY
    Inventors: Xuhai Zhang, Tongheng Wang, Yuqiao Zeng, Peng Cui, Chongyang Ba, Feng Fang, Qiyue Shao, Haoran Zheng, Pengcheng Zhao, Jianqing Jiang
  • Publication number: 20250122633
    Abstract: Six-membered high-entropy foam for hydrogen production by water splitting and preparation method are provided. The foam consists of Ni, Fe, Cu, Co, Mo, and Pt, comprising 10 at %-25 at % of Ni, 10 at %-25 at % of Fe, 10 at %-25 at % of Cu, 10 at %-25 at % of Co, 10 at %-25 at % of Mo, and 10 at %-25 at % of Pt. Catalyst loading of the foam can reach a range of 0.8 mg/cm2-3.2 mg/cm2, which is much higher than the effective catalyst loading of most nano-catalysts. When used as catalyst for hydrogen production by water splitting, the hydrogen evolution overpotential of the surface of the six-membered high-entropy foam is within a range of 36 mV-60 mV, and the foam operates stably at industrial-level current density (500 mA/cm2). The preparation method does not require harsh environment such as high temperature or high vacuum, making the method simple and easy to implement, with low-cost raw materials.
    Type: Application
    Filed: November 7, 2024
    Publication date: April 17, 2025
    Applicant: SOUTHEAST UNIVERSITY
    Inventors: Xuhai ZHANG, Tongheng WANG, Yuqiao ZENG, Peng CUI, Chongyang BA, Feng FANG, Qiyue SHAO, Haoran ZHENG, Pengcheng ZHAO, Jianqing JIANG