Insight into the effect of coexistence of CO2 and H2 on stoichiometric and defective PuO2 surfaces hydriding from first-principles study

Abstract: Studying the effect of coexistence of CO2 and H2 on plutonium hydriding is of great significance for nuclear safety storage and disposal. In this work, we studied the microscopic adsorption morphology of CO2 and H2 molecules with low and high coverage on stoichiometric PuO2 (111) and (110) surfaces. The adsorption energy results showed that both CO2 and H2 have relatively strong reactivity with the (110) surface. The CO2 molecule may be dominant in competitive adsorption with H2. The influences of the coexiste… Show more

“…They can be used as bipolar junction transistor due to formation of the hole (i.e., p-type) and electron (i.e., n-type) polaron levels in the band gap in the presence of oxygen defects in the interstitial space, or in the case of oxygen vacancies [8][9][10][11][12][13][14][15][16][17][18][19].…”

Generating and Grading 34 Optimised Norm-Conserving Vanderbilt Pseudopotentials for Actinides and Super Heavy Elements in the Pseudodojo

“…They can be used as bipolar junction transistor due to formation of the hole (i.e., p-type) and electron (i.e., n-type) polaron levels in the band gap in the presence of oxygen defects in the interstitial space, or in the case of oxygen vacancies [8][9][10][11][12][13][14][15][16][17][18][19].…”

Generating and Grading 34 Optimised Norm-Conserving Vanderbilt Pseudopotentials for Actinides and Super Heavy Elements in the Pseudodojo

Generating and grading 34 optimised norm-conserving Vanderbilt pseudopotentials for actinides and super-heavy elements in the PseudoDojo