Step 2: Draw the Molecular Orbital Diagram for H+2 1. Identify Atomic Orbitals: Similar to H2, we have two 1s atomic orbitals. 2. Construct Molecular Orbitals: The same BMO and ABMO are formed. 3. Fill the Electrons: H+2 has 1 electron (one electron is removed from H2), which will...
a–cThe evolution of surface Ga-H and Ga-OH over Ga2O3samples with contact time of H2at 350 °C.dH2adsorption energy by homolytic dissociation over α-Ga2O3(001). Red ball: O atom, gray ball: Ga atom, white ball: H atom.eProjected density of states of the Ga4porbital and H1...
On the other hand, H2 has a smaller molecular size but a smaller positive quadrupole moment (+0.651 × 10−26 esu.cm2) [98]. Thus, H2 adsorption can be strongly enhanced when the pores are small, enriched with cavities and free from electron functional groups, such as C=O··¨ and...
Fig. 11. (a) Energy diagram showing in-situ formation of Ni/NiO dual cocatalysts on NaTaO3 host perovskite at the initial stage of the photocatalytic water-splitting reaction and (b) energy diagram showing the functional role of Ni and NiO in photocatalytic water-splitting reactions and (c, ...
Figure 1. Schematic diagram of the catalyst preparation for the example of Pt/Co/Z. Table 1. Pt- and Co-modified HZSM-5 zeolites. 2.2. Catalyst Characterization Thermo iCE 3000 spectrometer (Thermo FisherScientific Inc., Intertech Corporation, Waltham, MA, USA) was used to analyze Pt and...
From Figure 11 (f), the 2p orbital of C atom, the 3d and 4s orbitals of Cr atom have a large range of strong overlap at −2eV to −4eV, and the PDOS diagram oofvHer-l1asp, Cat-2−p2, eCVr-t3od−, a4nedVC, arn-4ds tohrebPitDalOs bSadsiiacgalrlaymovoef rHla-p1sf...
Figure 1. Schematic diagram of the catalyst preparation for the example of Pt/Co/Z. Table 1. Pt- and Co-modified HZSM-5 zeolites. 2.2. Catalyst Characterization Thermo iCE 3000 spectrometer (Thermo FisherScientific Inc., Intertech Corporation, Waltham, MA, USA) was used to analyze Pt and...