Theoretical studies on the BC<sub>2</sub>N monolayers with promising photoelectronic characteristics and remarkable environmental stabilities

Xu, Chengcheng; Huang, Xinyue; Xu, Xin; Zhang, Xiao; Zhang, Haijun

doi:10.1002/qua.26120

Cited by 6 publications

(7 citation statements)

References 71 publications

(75 reference statements)

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“…However, the electronegativity difference and hence the degree of localization is much less as compared to the h‐BN system. This justifies the band gap value to be intermediate to that of semimetallic graphene and insulating h‐BN (5.9 eV), [27] which is consistent with the electronic properties of most of the materials of this B‐C‐N class [31,38,39] …”

Section: Resultssupporting

confidence: 78%

“…So a uniform distribution of B,C and N can unveil new physics and broaden the range of applicability. From first principle calculations it is predicted that such systems, e. g. BC 2 N , [38] BC 6 N [39] have a promising prospect in photocatalysis. But a uniform distribution of B, C and N demands extremely controlled synthesis conditions and is difficult to achieve experimentally in general.…”

Section: Introductionmentioning

confidence: 99%

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g‐B₃C₂N₃: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

2023

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Based on hybrid density functional theory (DFT) calculations, we propose a new two-dimensional (2D) B-C-N material, graphitic-B 3 C 2 N 3 (g-B 3 C 2 N 3 ), with the promising prospect of metal-free photocatalysis. We find it to be a near ultraviolet (UV) absorbing direct band gap (3.69 eV) semiconductor with robust dynamical and mechanical stability. Estimating the band positions with respect to water oxidation and hydrogen reduction potential levels along with a detailed analysis of reaction mechanism of hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), we observe that g-B 3 C 2 N 3 monolayer can be efficiently used for hydrogen fuel generation over entire pH range as well as for spontaneous water splitting at basic pH range. Upon biaxial strain application, band positions get realigned along with the free energy change that is involved in HER and OER. Consequently, operational range of pH for OER gets broadened and the proposed material exhibits the ability to perform spontaneous and simultaneous oxidation and reduction even in neutral pH. The combination of pH variation and applied strain can be used as a key to control the reducing and/or oxidizing abilities precisely for diverse photocatalytic reactions to attain environmental sustainability.

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Section: Resultssupporting

confidence: 78%

Section: Introductionmentioning

confidence: 99%

g‐B₃C₂N₃: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

2023

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“…The environmental stability of the OsTe 2 monolayer with respect to oxidation and moisture is also tested by the AIMD simulation with added oxygen and water molecules in the vacuum space of the supercell. This method has been used to test the environmental stability of two-dimensional materials . The equilibrium of the OsTe 2 monolayer structure is obtained in Figure S2.…”

Section: Resultsmentioning

confidence: 99%

“…This method has been used to test the environmental stability of two-dimensional materials. 44 The equilibrium of the OsTe 2 monolayer structure is obtained in Figure S2. Apparently, oxygen and hydrogen atoms are only adsorbed on the surface of the OsTe 2 monolayer and could not destroy its framework.…”

Section: ■ Computational Detailsmentioning

confidence: 99%

Optical–Acoustic Phonon Hybridization Enhanced Thermoelectric Performance in a 1T′ Phase OsTe₂ Monolayer

Huang

Guo

Wang

et al. 2022

ACS Appl. Energy Mater.

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A comprehensive study for thermoelectric (TE) properties of the OsTe2 monolayer with a 1T′ phase structure is presented, which is a two-dimensional transition metal dichalcogenide (2D-TMD). We find that, at 300 K, the Seebeck coefficient of the OsTe2 monolayer is very high and can reach 739 μV K–1 at a hole concentration of 1 × 1011 cm–2. The ultrahigh Seebeck coefficient results from the high degeneracy of the electronic band structure. At the same time, the n-type OsTe2 monolayer along the y-axis has a larger electrical conductivity than the other cases. This is because the electron along the y-axis has the longest relaxation time. An excellent power factor (PF) of 27.44 m W m–1 K–2 along the y-axis for n-type doping is found, which is better than many well-known TE materials. Our calculation shows that lattice thermal conductivity of the 1T′ OsTe2 monolayer is much lower than typical 2D-TMDs. The calculation of phonon dispersion and phonon density of states (DOS) reveals that, different from typical TMD monolayers, the optical–acoustic phonon was strongly hybridized. The hybridization of the optical–acoustic phonon significantly reduces the lifetime of the phonon and then the lattice thermal conductivity. Combined with satisfactory thermal conductivity and Seebeck coefficient, the optimal ZT value of the OsTe2 monolayer is 1.83, which is several times higher than typical TMD monolayers. Our study suggests that the 1T′ phase OsTe2 monolayer is an excellent TE material in the TMD family.

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“…For instance, the B x C y N z nanosheets such as N- and B-doped graphene showed good performance in an electrochemical hydrogen evolution reaction (HER) but are not ideal photocatalysts for overall water spilling because their valence band minimum is located above the redox potentials for O 2 /H 2 O . The stability of 2D ternary B x C y N z compounds has been studied theoretically, and their properties depending on both the stoichiometry and the arrangement of the B, C, and N atoms have been predicted. ,− Although these theoretical studies suggest that 2D B x C y N z may have a tunable bandgap, strong visible-light adsorption, and high carrier mobility, , only few 2D B x C y N z materials, such as B,N co-doped graphdiyne, are predicted to be effective photocatalysts for water spilling.…”

Section: Introductionmentioning

confidence: 99%

Square-Octagon Structure of a BCN Monolayer: Near-Zero Poisson’s Ratio, High Carrier Mobility, and Excellent Photocatalytic Activity for Overall Water Splitting

Chen

Lin

et al. 2023

ACS Appl. Electron. Mater.

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We predicted a square-octagon structure of a BCN monolayer with fantastic mechanical properties, high carrier mobility, and excellent photocatalytic activity for overall water splitting. The BCN monolayer has unique mechanical properties with a very small negative value of Poisson's ratio of −0.0058 and −0.0045 along the x-and y-direction, respectively, and remarkable flexibility under tensile strain. The electronic structure calculation suggests that the BCN monolayer has a direct bandgap of 2.82 eV and its band edges straddle the redox potentials for H + /H 2 and O 2 /H 2 O. Additionally, the BCN monolayer exhibits a high intrinsic conductivity with an exceptional high hole mobility of ∼2.8 × 10 5 cm 2 V −1 s −1 . The drastically different mobilities of electrons and holes in the BCN monolayer may reduce the rate of electron−hole recombination, resulting in improved photocatalytic activity. With excellent stability, ideal band edge positions, high conductivity, and efficient visible-light absorption, the BCN monolayer well satisfies the strict requirements for ideal photocatalytic overall water splitting. The unique mechanical and electronic properties of the BCN monolayer also make it an attractive material for use in advanced nanomechanical and electronic devices.

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Theoretical studies on the BC₂N monolayers with promising photoelectronic characteristics and remarkable environmental stabilities

Cited by 6 publications

References 71 publications

g‐B₃C₂N₃: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

g‐B₃C₂N₃: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

Optical–Acoustic Phonon Hybridization Enhanced Thermoelectric Performance in a 1T′ Phase OsTe₂ Monolayer

Square-Octagon Structure of a BCN Monolayer: Near-Zero Poisson’s Ratio, High Carrier Mobility, and Excellent Photocatalytic Activity for Overall Water Splitting

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Theoretical studies on the BC2N monolayers with promising photoelectronic characteristics and remarkable environmental stabilities

Cited by 6 publications

References 71 publications

g‐B3C2N3: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

g‐B3C2N3: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

Optical–Acoustic Phonon Hybridization Enhanced Thermoelectric Performance in a 1T′ Phase OsTe2 Monolayer

Square-Octagon Structure of a BCN Monolayer: Near-Zero Poisson’s Ratio, High Carrier Mobility, and Excellent Photocatalytic Activity for Overall Water Splitting

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Theoretical studies on the BC₂N monolayers with promising photoelectronic characteristics and remarkable environmental stabilities

g‐B₃C₂N₃: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

g‐B₃C₂N₃: A Potential Two Dimensional Metal‐free Photocatalyst for Overall Water Splitting**

Optical–Acoustic Phonon Hybridization Enhanced Thermoelectric Performance in a 1T′ Phase OsTe₂ Monolayer