Publications by authors named "Chun-Hui Gong"

Effective capture and immobilization of volatile radioiodine from the off-gas of post-treatment plants is crucial for nuclear safety and public health, considering its long half-life, high toxicity, and environmental mobility. Herein, sulfur vacancy-rich Vs-BiS@C nanocomposites were systematically synthesized via a one-step solvothermal vulcanization of CAU-17 precursor. Batch adsorption experiments demonstrated that the as-synthesized materials exhibited superior iodine adsorption capacity (1505.

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Article Synopsis
  • * The proposed solution involves using Ag@Cu-based Metal-Organic Frameworks (MOFs) created by adding silver to a copper framework, showing promising results in lab tests.
  • * Results indicated that the best performing material (5% Ag@Cu-C) captured a significant amount of iodide ions, and the process involves chemical reactions that enhance the adsorption capability of the materials.
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This paper was aimed to explore the physics of Cherenkov radiation and its potential application in boron neutron capture therapy (BNCT). The Monte Carlo toolkit Geant4 was used to simulate the interaction between the epithermal neutron beam and the phantom containing boron-10. Results showed that Cherenkov photons can only be generated from secondary charged particles of gamma rays in BNCT, in which the 2.

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Optimization of the Compton camera for measuring prompt gamma rays (0.478MeV) emitted during boron neutron capture therapy (BNCT) was performed with Geant4. The parameters of the Compton camera were determined as follows: 3cm thick - 10cm wide scatter detector (Silicon), 10cm thick - 10cm wide absorber detector (Germanium), and 1cm distance between the scatter and absorber detectors.

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Synopsis of recent research by authors named "Chun-Hui Gong"

  • - Chun-Hui Gong's research primarily focuses on the development of advanced materials for capturing and immobilizing radioactive iodine, with the synthesis of sulfur vacancy-rich bismuth sulfide nanocomposites demonstrating a significant iodine adsorption capacity of 1505 mg/g.
  • - The author has also investigated silver-copper-based metal-organic frameworks as efficient adsorbents for removing iodide ions from aqueous solutions, highlighting the urgent need for rapid kinetic materials in aquatic environments.
  • - Additionally, Gong's work includes exploring the application of Cherenkov radiation in boron neutron capture therapy (BNCT) and optimizing Compton camera technology for measuring prompt gamma rays, enhancing the understanding of radiation interactions in therapeutic contexts.