Photoluminescence and Raman spectroscopy of polycrystalline AgInTe2

“…The peaks at 122 cm -1 and 140 cm -1 proved to be the highest in the Raman spectrum. The former is easily assigned to totally symmetrical Te sublattice vibrations, the latter of even greater intensity being related to B 1 or E mode, as suggested in [22]. From the results of our calculations one can assume another possible interpretation of the experimental frequency 140 cm -1 .…”

“…Indeed, calculated frequencies of A 1 and A 2 modes in LAT and LGT (Table 4) are very close to the results for AgInTe 2 and though in the case of LIT the direct comparison seems to be poor, the shift of the A 2 mode from the A 1 one in LIT (16 cm -1 ) is almost the same as the difference between the experimental frequencies 122 cm -1 and 140 cm -1 . Hence, we can suppose that the peak at 140 cm -1 in AgInTe 2 Raman spectra can be assigned to the activated A 2 mode, in this case its significant height indicates the substantial disordering of the sample studied in [22]. In Raman LGT spectra presented in [6] the scattering intensity corresponding to 97 cm -1 and 142 cm -1…”

“…The intensity of the lines corresponding to the vibrations of A 2 symmetry can serve as a probe of the structural perfection of a sample. From this point of view it is interesting to compare the Raman data in [6] (LGT) with those in [22] for AgInTe 2 . In [22] Ag-containing polycrystalline AgInTe 2 , being a LIT analogue, has been synthesized.…”

“…From this point of view it is interesting to compare the Raman data in [6] (LGT) with those in [22] for AgInTe 2 . In [22] Ag-containing polycrystalline AgInTe 2 , being a LIT analogue, has been synthesized. The peaks at 122 cm -1 and 140 cm -1 proved to be the highest in the Raman spectrum.…”

Lattice dynamics of chalcopyrite semiconductors LiAlTe₂, LiGaTe₂ and LiInTe₂

“…The peaks at 122 cm -1 and 140 cm -1 proved to be the highest in the Raman spectrum. The former is easily assigned to totally symmetrical Te sublattice vibrations, the latter of even greater intensity being related to B 1 or E mode, as suggested in [22]. From the results of our calculations one can assume another possible interpretation of the experimental frequency 140 cm -1 .…”

“…Indeed, calculated frequencies of A 1 and A 2 modes in LAT and LGT (Table 4) are very close to the results for AgInTe 2 and though in the case of LIT the direct comparison seems to be poor, the shift of the A 2 mode from the A 1 one in LIT (16 cm -1 ) is almost the same as the difference between the experimental frequencies 122 cm -1 and 140 cm -1 . Hence, we can suppose that the peak at 140 cm -1 in AgInTe 2 Raman spectra can be assigned to the activated A 2 mode, in this case its significant height indicates the substantial disordering of the sample studied in [22]. In Raman LGT spectra presented in [6] the scattering intensity corresponding to 97 cm -1 and 142 cm -1…”

“…The intensity of the lines corresponding to the vibrations of A 2 symmetry can serve as a probe of the structural perfection of a sample. From this point of view it is interesting to compare the Raman data in [6] (LGT) with those in [22] for AgInTe 2 . In [22] Ag-containing polycrystalline AgInTe 2 , being a LIT analogue, has been synthesized.…”

“…From this point of view it is interesting to compare the Raman data in [6] (LGT) with those in [22] for AgInTe 2 . In [22] Ag-containing polycrystalline AgInTe 2 , being a LIT analogue, has been synthesized. The peaks at 122 cm -1 and 140 cm -1 proved to be the highest in the Raman spectrum.…”

Lattice dynamics of chalcopyrite semiconductors LiAlTe₂, LiGaTe₂ and LiInTe₂

“…In particular, recent implementation on electrical properties and phase transformation under high pressure shows that diamond anvil cell can exist up to several million atmospheres. Similar to those in the same group, AgInTe 2 is one of chalcopyrites which is utilized in a number of industrial applications [4][5][6] with the direct band gap reported to be 1.02 eV [7]. Our previous study has reported the structural phase transition of AgInTe 2 under pressure up to 26 GPa that is the highest pressure reached experimentally for this material.…”

Ab initio study of structural phase transformations and band gap of chalcopyrite phase in AgInTe2 under high pressure

References