Adsorption of ammonia on ZrOx-modified graphene nanoribbon: a first-principle investigation

Abstract: Ammonia (NH3) is a main environmental pollutant related to global warming, and reduction of its emission is the subject of multiple international agreements and regulations. Accordingly, the development of highly precise detectors to monitor its content in the environment is essential to track and limit its emission. This work examines the influence of modifying of armchair–graphene nanoribbon (AGNR) by zirconium (Zr) and its oxides on its adsorption for NH3 gas. Density functional theory (DFT) computations ar… Show more

“…Metal oxides, such as ZrO 2 , are frequently employed in the purication of gaseous pollutants, exhibiting high reaction stability and resistance to sulfur poisoning. [8][9][10] This property is conducive to the stability of the catalytic hydrolysis process of organic sulfur and the prolongation of catalyst service life. 11 Therefore, ZrO 2 can be considered a potential hydrolysis catalyst for the purication of organic sulfur.…”

Catalytic hydrolysis of methyl mercaptan and methyl thioether on hydroxyl-modified ZrO₂: a density functional theory study

“…Metal oxides, such as ZrO 2 , are frequently employed in the purication of gaseous pollutants, exhibiting high reaction stability and resistance to sulfur poisoning. [8][9][10] This property is conducive to the stability of the catalytic hydrolysis process of organic sulfur and the prolongation of catalyst service life. 11 Therefore, ZrO 2 can be considered a potential hydrolysis catalyst for the purication of organic sulfur.…”

Catalytic hydrolysis of methyl mercaptan and methyl thioether on hydroxyl-modified ZrO₂: a density functional theory study

Nanoresonator vibrational behaviour analysis of single- and double-layer graphene with atomic vacancy and pinhole defects

Investigation of BN modified graphene nanoribbon for gas adsorption applications: DFT study