Strain-tunable optical properties of the promising infrared detector AsP monolayer: A first-principles study

“…23 The increase and decrease of phonon frequency in lattice dynamics actually reflect the enhancement and weakening of the interaction between atoms. 24,25 Obviously, the phonon frequency in PdZn dispersion curve increases and the corresponding lattice constant decreases (Fig. 1O–Q and Table S1†).…”

“…weakening of the interaction between atoms. 24,25 Obviously, the phonon frequency in PdZn dispersion curve increases and the corresponding lattice constant decreases (Fig. 1O-Q and Table S1 †).…”

Tuning the selectivity of benzene hydroalkylation over PdZn/HBeta catalysts: identification of lattice contraction and electronic properties

“…23 The increase and decrease of phonon frequency in lattice dynamics actually reflect the enhancement and weakening of the interaction between atoms. 24,25 Obviously, the phonon frequency in PdZn dispersion curve increases and the corresponding lattice constant decreases (Fig. 1O–Q and Table S1†).…”

“…weakening of the interaction between atoms. 24,25 Obviously, the phonon frequency in PdZn dispersion curve increases and the corresponding lattice constant decreases (Fig. 1O-Q and Table S1 †).…”

Tuning the selectivity of benzene hydroalkylation over PdZn/HBeta catalysts: identification of lattice contraction and electronic properties

“…15 The exceptional solar absorption properties of AsP in the visible and UV spectrum, coupled with the added flexibility of strain-tunability for electronic and optical properties, position it as a standout candidate for design and integration purposes. 16 Further, β-AsP is also found to be a promising anode material in lithium and sodium ion batteries. 17,18 While β-AsP emerged as a promising candidate for applications in photocatalysis and photovoltaics in previous studies, 19−22 a deep dive into its excitonic features remains an open frontier for researchers.…”

“…Among them, arsenic–phosphorus (AsP) has attracted considerable attention, with the experimental synthesis of black arsenic–phosphorus (b-AsP) − and computational predictions indicating the increased stability of blue-AsP over black-AsP. , Notably, Cai et al have presented blue-AsP as an extremely promising material for high-efficiency solar cells, projecting a photovoltaic efficiency of around 12% and ultrahigh carrier mobility (∼7.4 × 10 4 cm 2 V –1 s –1 ) for AsP-based solar cells . The exceptional solar absorption properties of AsP in the visible and UV spectrum, coupled with the added flexibility of strain-tunability for electronic and optical properties, position it as a standout candidate for design and integration purposes . Further, β-AsP is also found to be a promising anode material in lithium and sodium ion batteries. , While β-AsP emerged as a promising candidate for applications in photocatalysis and photovoltaics in previous studies, − a deep dive into its excitonic features remains an open frontier for researchers .…”

Probing 2D Exciton Dynamics of Non-Hydrogenic Anisotropic Rydberg Spectra in Anomalous Screening Regime

A systematic review of data fusion techniques for optimized structural health monitoring