	US 12,420,264 B1
	Nanocomposite material
Mohamed Khairy Abdel Fattah Omran, Riyadh (SA); and Babiker Yagoub Elhadi Abdulkhair, Riyadh (SA)
Assigned to IMAM MOHAMMAD IBN SAUD ISLAMIC UNIVERSITY, Riyadh (SA)
Filed by IMAM MOHAMMAD IBN SAUD ISLAMIC UNIVERSITY, Riyadh (SA)
Filed on Jun. 2, 2025, as Appl. No. 19/225,576.
Int. Cl. B01J 21/06 (2006.01); B01J 21/18 (2006.01); B01J 23/02 (2006.01); B01J 35/45 (2024.01); B01J 35/51 (2024.01); B01J 35/61 (2024.01); B01J 35/63 (2024.01); B01J 35/64 (2024.01); B01J 35/66 (2024.01); B01J 37/00 (2006.01); B01J 37/04 (2006.01); B01J 37/06 (2006.01); B01J 37/08 (2006.01); B01J 37/34 (2006.01)

CPC B01J 21/066 (2013.01) [B01J 21/18 (2013.01); B01J 23/02 (2013.01); B01J 35/45 (2024.01); B01J 35/51 (2024.01); B01J 35/613 (2024.01); B01J 35/633 (2024.01); B01J 35/647 (2024.01); B01J 35/695 (2024.01); B01J 37/009 (2013.01); B01J 37/04 (2013.01); B01J 37/06 (2013.01); B01J 37/084 (2013.01); B01J 37/088 (2013.01); B01J 37/346 (2013.01)]

20 Claims

1. A ZrO₂/CaSiO₃/g-C₃N₄nanocomposite material, comprising:

spherical metal oxide nanoparticles comprising a ZrO₂phase and a CaSiO₃phase dispersed on a matrix of g-C₃N₄nanosheets,

wherein the spherical metal oxide nanoparticles have an average particle diameter in a range from 3 to 18 nm, and

wherein the ZrO₂/CaSiO₃/g-C₃N₄nanocomposite material has a BET surface area greater than or equal to 55 m²·g⁻¹.