TiNF and Related Analogues of TiO<sub>2</sub>: A Combined Experimental and Theoretical Study

Ayyub, Mohd Monis; Prasad, Suchitra; Rao, C. N. R.; Manjunath, K.; Waghmare, Umesh V.; Rao, C. N. R.

doi:10.1002/cphc.201800778

Cited by 8 publications

(3 citation statements)

References 38 publications

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“…The band widths of p orbitals of N and F at the top of valence band are 1.33 eV and 1.31 eV respectively. Earlier studies showed the VBM of TiNF and Cd 2 NF consists primarily of N‐2 p states and F‐2 p states lie around –2 eV with respect to VBM , . The p orbitals of N at the top of valence band has a band width of 0.68 eV in TiNF which is small compared to that in Hg 2 NF.…”

Section: Resultsmentioning

confidence: 94%

“…Materials such as Ca 2 NF, Sr 2 NF and Ba 2 NF have been reported, but the consequences of chemical ordering of N 3– and F – on the anion sublattice, structure and electronic properties have not been addressed . We have examined the change in the band gap with the substitution of N 3– and F – in ZnO and TiO 2 wherein the materials become colored and allow visible light excitation , . Substitution of sulfide anion in place of the oxide anion does not have such significant effects .…”

Section: Introductionmentioning

confidence: 99%

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Hg₂NF, Analogue of HgO

et al. 2019

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Substitution of aliovalent anions in metal oxides imparts significant changes to the electronic structure of the materials. We have been able to fully substitute N3– and F– in place of O2– to obtain Hg2NF. Hg2NF is isostructural with orthorhombic HgO (mineral montroydite). The bond lengths of Hg2NF obtained by Rietveld refinement are dissimilar and the optical band gap of Hg2NF (2.56 eV) is higher than that of HgO (2.2 eV). The elemental composition of Hg, N, and F were obtained by X‐ray photoelectron spectroscopy and found to be 2:1:1. First‐principles calculations show Hg2NF to be a direct band gap semiconductor with the valence band consisting mainly of N (2p) orbitals. The conduction band minimum (CBM) has a mixed contribution from Hg‐6s and N‐2p orbitals. The lowest energy band has a dominant contribution from Hg‐5d states in all the configurations.

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Section: Resultsmentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

Hg₂NF, Analogue of HgO

et al. 2019

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“…Aliovalent anion substitution in oxides and sulfides such as TiO 2 , ZnO, CdO, and CdS has already been shown to modify the band structure and electronic properties of these materials, making them suitable for catalysis applications . Anionic substitution by a simple solid-state synthesis, O by N and F in TiO 2 (e.g., TiNF), , ZnO (e.g., Zn 2 NF), and CdO (e.g., Cd 2 NF) and sulfur(S) by phosphorus (P) and chlorine (Cl) in CdS (e.g., Cd 2 PCl) gives rise to novel properties. Substitution changes the electronic structure and optical properties of the materials; therefore, this strategy would be interesting for the GaN to substitute C in place of N in the presence of O impurity.…”

Section: Introductionmentioning

confidence: 99%

An Experimental Study of Carbon-Doped GaN via Solid–Gas Reaction Route and Investigation of Its Defect-Related Luminescence

Singh

Roy

Rao

2022

ACS Appl. Electron. Mater.

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Carbon-doped gallium nitride (GaN) is a very interesting material with applications in optoelectronic devices, and studies related to their defects offer insights regarding possible transitions based on the nature of the defects. A simple solid−gas reaction route has yielded carbon-doped GaN. An isolated C N defect state has been observed by spectroscopic tools (Fourier transform infrared spectroscopy, Raman spectroscopy, and X-ray photoelectron spectroscopy) along with the C N −O N complex formation. In addition to the red shift in the fundamental absorption band, a transition band was observed at ∼3.05 eV. A complete quenching of blue luminescence (BL) related to an oxygen defect and the appearance of a carbon-related yellow luminescence (YL) is shown in strongly doped samples. The origin of this defect-related YL in Cdoped GaN is attributed to the carbon-defect C N (−1 charged) level transitions confirmed by absorption energy, photoluminescence (PL) peak position, and zero-phonon line.

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Structural Features and HER activity of Cadmium Phosphohalides

et al. 2019

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We have carried out a combined experimental and theoretical investigation of the structures and properties of a family of cadmium phosphochlorides with varying Cl/Cd and P/Cd ratios, Cd2P3Cl, Cd4P2Cl3, Cd3PCl3, and Cd7P4Cl6. Their optical band gaps are in the visible region and the values are sensitive to the Cl/Cd and P/Cd ratios, leading to an increase and decrease, respectively. First‐principles calculations were used to understand the bonding and electronic structures. All phosphochlorides except Cd2P3Cl possess direct band gaps. The calculated dielectric constants and Born effective charges illustrate the bonding, hybridization, and ionic character in these compounds. The band positions indicate the thermodynamic feasibility to perform water splitting. All systems can be used in the hydrogen evolution reaction (HER), where Cd7P4Cl6 has the highest activity and Cd3PCl3 the lowest. The apparent quantum yield is highest in Cd7P4Cl6 (20.1 %) even without the assistance of a co‐catalyst. The HER activity can be understood on the basis of photoelectrochemical measurements.

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TiNF and Related Analogues of TiO₂: A Combined Experimental and Theoretical Study

Cited by 8 publications

References 38 publications

Hg₂NF, Analogue of HgO

Hg₂NF, Analogue of HgO

An Experimental Study of Carbon-Doped GaN via Solid–Gas Reaction Route and Investigation of Its Defect-Related Luminescence

Structural Features and HER activity of Cadmium Phosphohalides

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TiNF and Related Analogues of TiO2: A Combined Experimental and Theoretical Study

Cited by 8 publications

References 38 publications

Hg2NF, Analogue of HgO

Hg2NF, Analogue of HgO

An Experimental Study of Carbon-Doped GaN via Solid–Gas Reaction Route and Investigation of Its Defect-Related Luminescence

Structural Features and HER activity of Cadmium Phosphohalides

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TiNF and Related Analogues of TiO₂: A Combined Experimental and Theoretical Study

Hg₂NF, Analogue of HgO

Hg₂NF, Analogue of HgO