“Capture-Backdonation-Recapture” Mechanism for Promoting N<sub>2</sub> Reduction by Heteronuclear Metal-Free Double-Atom Catalysts

Wu, Yibo; He, Cheng; Zhang, W. X.

doi:10.1021/jacs.2c01245

Cited by 171 publications

(70 citation statements)

References 70 publications

(128 reference statements)

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“…The charge densities locate on bonds of 3d‐TM atom and Si atoms which suggest that covalent bond is formed between dopant and host layer. Similar discussion on charge transfer and type of bond formation has been seen in references [47, 48]. Moreover, for extension of this work in the future, one can extract the plane‐averaged charge density difference plots to comprehensively understand the charge transition between dopant and host layer.…”

Section: Resultssupporting

confidence: 57%

Geometric, spintronic, and opto‐electronic properties of 3d transition metals doped silicene: An ab initio study

Kalwar

Fangzong

Saeed

et al. 2022

J Chinese Chemical Soc

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This study shows density functional theory (DFT) investigations that 3d transition metals (TM) doping in silicene can greatly alter the geometric, spintronic, and optoelectronic properties of the pristine silicene (p‐Si) layer. Significant Bader charge transfer from 3d TM atoms to surrounding Si atoms ensures the tight bonding between dopant and substrate; hence, all the 3d transition metal‐doped silicene (3d TM‐Si) systems are said geometrically strong and stable. Sc‐ and Ti‐doped systems show the lowest formation energies of −84.72 and −84.21 eV, respectively, while Zn‐Si bears the highest (−70.89 eV). 3d TMs from V to Co doping induces magnetic moment (MM) in the silicene layer which mainly comes from d‐orbitals of 3d TM atoms and partly from p‐orbitals of Si atoms, meanwhile Mn‐Si has MM as high as 3.0 μB. Among 3d TM‐Si systems studied, Cr‐Si and Mn‐Si systems became half metals, Ti‐Si became indirect semiconductor, whereas rest others convert into metals. Sc and V doping is found to be p‐type doping as the Fermi level shifts into the valence band. Moreover, multiple and broader peaks in the absorption coefficient plot indicate the significant photoabsorption of 3d TM‐Si systems. The present study of electronic, magnetic, and optical properties of 3d TM‐Si systems extend a helpful proposal for further experimental work to fabricate silicene‐based single‐spin electron source and other nano‐electronic devices.

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Section: Resultssupporting

confidence: 57%

Geometric, spintronic, and opto‐electronic properties of 3d transition metals doped silicene: An ab initio study

Kalwar

Fangzong

Saeed

et al. 2022

J Chinese Chemical Soc

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“…The analysis of the Hamilton population of crystal orbitals (COHP) 64 would also be helpful, since it reflects well the changes in the crystal orbitals. 65 The results of COHP calculations for stable adhesion structures are shown in Fig. S9 (ESI †).…”

Section: Resultsmentioning

confidence: 99%

Shear adhesive strength between epoxy resin and copper surfaces: a density functional theory study

Sumiya

Tsuji

Yoshizawa

2022

Phys. Chem. Chem. Phys.

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“…The region with an ELF value closer to 0 has more non-covalent characteristics. 41,42 Obviously, the obtained ELF values are nearly equal to 0 at the interface areas for all the selected Ti 3 C 2 T 2 /SiC contacts. It is inferred that the F, O and H atoms are not bonded covalently with the corresponding C or Si atoms.…”

Section: Resultsmentioning

confidence: 82%

Modulating the Schottky barrier of MXenes/2D SiC contacts via functional groups and biaxial strain: a first-principles study

Huang

Deng

Pan

et al. 2022

Phys. Chem. Chem. Phys.

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“Capture-Backdonation-Recapture” Mechanism for Promoting N₂ Reduction by Heteronuclear Metal-Free Double-Atom Catalysts

Cited by 171 publications

References 70 publications

Geometric, spintronic, and opto‐electronic properties of 3d transition metals doped silicene: An ab initio study

Geometric, spintronic, and opto‐electronic properties of 3d transition metals doped silicene: An ab initio study

Shear adhesive strength between epoxy resin and copper surfaces: a density functional theory study

Modulating the Schottky barrier of MXenes/2D SiC contacts via functional groups and biaxial strain: a first-principles study

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“Capture-Backdonation-Recapture” Mechanism for Promoting N2 Reduction by Heteronuclear Metal-Free Double-Atom Catalysts

Cited by 171 publications

References 70 publications

Geometric, spintronic, and opto‐electronic properties of 3d transition metals doped silicene: An ab initio study

Geometric, spintronic, and opto‐electronic properties of 3d transition metals doped silicene: An ab initio study

Shear adhesive strength between epoxy resin and copper surfaces: a density functional theory study

Modulating the Schottky barrier of MXenes/2D SiC contacts via functional groups and biaxial strain: a first-principles study

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“Capture-Backdonation-Recapture” Mechanism for Promoting N₂ Reduction by Heteronuclear Metal-Free Double-Atom Catalysts