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268 results on '"Tyagi, Avesh K."'

1. Soft Anharmonic Coupled Vibrations of Li and SiO4 Enable Li-ion Diffusion in Amorphous Li2Si2O5

Author

Kumar, Sajan, Gupta, Mayanak K., Goel, Prabhatasree, Mittal, Ranjan, Mukhopadhyay, Sanghamitra, Le, Manh Duc, Shukla, Rakesh, Achary, Srungarpu N., Tyagi, Avesh K., and Chaplot, Samrath L.

Subjects
Condensed Matter - Materials Science
Abstract

We present the investigations on atomic dynamics and Li+ diffusion in crystalline and amorphous Li2Si2O5 using quasielastic (QENS) and inelastic neutron scattering (INS) studies supplemented by ab-initio molecular dynamics simulations (AIMD). The QENS measurements in the amorphous phase of Li2Si2O5 show a narrow temperature window (700 < T < 775 K), exhibiting significant quasielastic broadening corresponding to the fast Li+ diffusion and relaxation of SiO4 units to the crystalline phase. Our INS measurements clearly show the presence of large phonon density of states (PDOS) at low energy (low-E) in the superionic amorphous phase, which disappear in the non-superionic crystalline phase, corroborating the role of low-E modes in Li+ diffusion. The frustrated energy landscape and host flexibility (due to random orientation and vibrational motion of SiO4 polyhedral units) play an essential role in diffusing the Li+. We used AIMD simulations to identify that these low-E modes involve a large amplitude of Li vibrations coupled with SiO4 vibrations in the amorphous phase. At elevated temperatures, these vibrational dynamics accelerate the Li+ diffusion via a paddle-wheel like coupling mechanism. Above 775 K, these SiO4 vibrational dynamics drive the system into the crystalline phase by locking SiO4 and Li+ into deeper minima of the free energy landscape and disappear in the crystalline phase. Both experiments and simulations provide valuable information about the atomic level stochastic and vibrational dynamics in Li2Si2O5 and their role in Li+ diffusion and vitrification., Comment: 31 pages, 7 Figures, Supplementary Materials

Published
2022

2. Sodium Diffusion and Dynamics in Na2Ti3O7: Neutron Scattering and Ab-initio Simulations

Author

Mittal, Ranjan, Kumar, Sajan, Gupta, Mayanak K., Mishra, Sanjay K., Mukhopadhyay, Sanghamitra, Le, Manh Duc, Shukla, Rakesh, Achary, Srungarpu N., Tyagi, Avesh K., and Chaplot, Samrath L.

Subjects
Condensed Matter - Materials Science
Abstract

We have performed quasielastic and inelastic neutron scattering (QENS and INS) measurements from 300 K to 1173 K to investigate the Na-diffusion and underlying host dynamics in Na2Ti3O7. The QENS data show that the Na atoms undergo localized jumps up to 1173 K. The ab-initio molecular dynamics (AIMD) simulations supplement the measurements and show 1-d long-ranged diffusion along the a-axis above 1500 K. The simulations indicate that the occupancy of the interstitial site is critical for long-range diffusion. The nudged-elastic-band (NEB) calculation confirmed that the activation energy barrier is lowest for diffusion along the a-axis. In the experimental phonon spectra the peaks at 10 and 14 meV are dominated by Na dynamics that disappear on warming, suggesting low-energy phonons significantly contribute to large Na vibrational amplitude at elevated temperatures that enhances the Na hopping probability. We have also calculated the mode Gr\"uneisen parameters of the phonons and thereby calculated the volume thermal expansion coefficient, which is found to be in excellent agreement with available experimental data., Comment: 22 Pages, 10 Figures

Published
2021

3. Stoichiometric Tuning of Lattice Flexibility and Na Diffusion in NaAlSiO4: Quasielastic Neutron Scattering Experiment and Ab-initio Molecular Dynamics Simulations

Author

Gupta, Mayanak K., Mittal, Ranjan, Kumar, Sajan, Singh, Baltej, Delaire, Niina H Jalarvo Olivier, Shukla, Rakesh, Achary, Srungarpu N., Kolesnikov, Alexander I., Tyagi, Avesh K., and Chaplot, Samrath L.

Subjects
Condensed Matter - Materials Science
Abstract

We have performed quasielastic neutron scattering (QENS) experiments up to 1243 K and ab-initio molecular dynamics (AIMD) simulations to investigate the Na diffusion in various phases of NaAlSiO4 (NASO), namely, low-carnegieite (L-NASO; trigonal), high-carnegieite (H-NASO; cubic) and nepheline (N-NASO; hexagonal) phases. The QENS measurements reveal Na ions localized diffusion behavior in L-NASO and N-NASO, but long-range diffusion behavior in H-NASO. The AIMD simulation supplemented the QENS measurements and showed that excess Na ions in H-NASO enhance the host network flexibility and activate the AlO4/SiO4 tetrahedra rotational modes. These framework modes enable the long-range diffusion of Na across a pathway of interstitial sites. The simulations also show Na diffusion in Na-deficient N-NASO through vacant Na sites along the hexagonal c-axis., Comment: 14 Pages, 5 Figures

Published
2021

4. Phonons and Lithium diffusion in LiAlO$_2$

Author

Gupta, Mayanak K., Mittal, Ranjan, Singh, Baltej, Delaire, Olivier, Achary, Srungarpu N., Rols, Stephane, Tyagi, Avesh K., and Chaplot, Samrath L.

Subjects
Condensed Matter - Materials Science
Abstract

We report on investigations of phonons and lithium diffusion in LiAlO$_2$ based on inelastic neutron scattering (INS) measurements of the phonon density of states (DOS) in {\gamma}-LiAlO$_2$ from 473 K to 1073 K, complemented with ab-initio molecular dynamics (AIMD) simulations. We find that phonon modes related to Li vibrations broaden on warming as reflected in the measured phonon DOS and reproduced in simulations. Further, the AIMD simulations probe the nature of lithium diffusion in the perfect crystalline phase ({\gamma}-LiAlO$_2$), as well as in a structure with lithium vacancies and a related amorphous phase. Almost liquid-like super-ionic diffusion is observed in AIMD simulations of the three structures at high temperatures; with predicted onset temperatures of 1800 K, 1200 K, and 600 K in the perfect structure, vacancy structure and the amorphous phase, respectively. In the ideal structure, the Li atoms show correlated jumps; while simple and correlated jumps are both seen in the vacancy structure, and a mix of jumps and continuous diffusion occur in the amorphous structure. Further, we find that the Li-diffusion is favored in all cases by a large librational amplitude of the neighbouring AlO4 tetrahedra, and that the amorphous structure opens additional diffusion pathways due to a broad distribution of AlO4 tetrahedra orientations., Comment: 31 Pages, 14 figures

Published
2020
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6. Dynamics of Na Ion in the Amorphous Na2Si2O5 Using Quasielastic Neutron Scattering and Molecular Dynamics Simulations

Author

Gupta, Mayanak K., Mishra, Sanjay K., Mittal, Ranjan, Singh, Baltej, Goel, Prabhatasree, Mukhopadhyay, Sanghamitra, Shukla, Rakesh, Achary, Srungarpu N., Tyagi, Avesh K., and Chaplot, Samrath L.

Subjects
Condensed Matter - Materials Science
Abstract

We have investigated the dynamics of Na ions in amorphous Na2Si2O5, a potential solid electrolyte material for Na-battery. We have employed quasielastic neutron scattering (QENS) technique in the amorphous Na2Si2O5 from 300 to 748 K to understand the diffusion pathways and relaxation timescales of Na atom dynamics. The microscopic analysis of the QENS data has been performed using ab-initio and classical molecular dynamics simulations (MD) to understand the Na-ion diffusion in the amorphous phase. Our experimental studies show that the traditional model, such as the Hall and Ross (H-R) model, fairly well describe the diffusion in the amorphous phase giving a mean jump length of ~3 {\AA} and residence time about 9.1 picoseconds. Our MD simulations have indicated that the diffusion of Na+ ions occurs in the amorphous phase of Na2Si2O5 while that is not observed in the crystalline orthorhombic phase even up to 1100 K. The MD simulations have revealed that in the amorphous phase, due to different orientations of silicon polyhedral units, accessible pathways are opened up for Na+ diffusions. These pathways are not available in the crystalline phase of Na2Si2O5 due to rigid spatial arrangement of silicon polyhedral units., Comment: 24 Pages, 12 figures

Published
2019
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7. Pressure impact on the stability and distortion of the crystal structure of CeScO3

Author

Errandonea, Daniel, Santamaria-Perez, David, Martinez-Garcia, Domingo, Gomis, Oscar, Shukla, Rakesh, Achary, S. Nagabhusan, Tyagi, Avesh K., and Popescu, Catalin

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Physics - Chemical Physics
Abstract

The effects of high pressure on the crystal structure of orthorhombic (Pnma) perovskite type cerium scandate have been studied in situ under high pressure by means of synchrotron x-ray powder diffraction, using a diamond anvil cell. We have found that the perovskite type crystal structure remains stable up to 40 GPa, the highest pressure reached in the experiments. The evolution of unit-cell parameters with pressure has indicated an anisotropic compression. The room-temperature pressure-volume equation of state is obtained from the experiments. From the evolution of microscopic structural parameters like bond distances and coordination polyhedra of cerium and scandium, the macroscopic behavior of CeScO3 under compression has been explained and reasoned for its large pressure stability. The reported results are discussed in comparison with high-pressure results from other perovskites., Comment: 39 pages, 1 table, 9 figures

Published
2017
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13. Evidence of Strong Orbital-Selective Spin-Orbital-Phonon Coupling in CrVO4

Author

Roy, Aditya Prasad, primary, SS, Jayakrishnan, additional, Dwij, Vivek, additional, Khandelwal, Ashish, additional, Chattopadhyay, M. K., additional, Sathe, Vasant, additional, Mittal, Ranjan, additional, Sastry, P. U., additional, Achary, Srungarpu N., additional, Tyagi, Avesh K., additional, Babu, Peram D., additional, Le, Manh Duc, additional, and Bansal, Dipanshu, additional

Published
2024
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25. Effect on structure, stability, and H+ irradiation on Nd3+/Ru4+‐loaded iron phosphate glass for nuclear applications.

Author

Joshi, Akhilesh C., Roy, Mainak, Dutta, Dimple P., Mishra, Raman K., Meena, Sher Singh, Kumar, Ravi, and Tyagi, Avesh K.

Subjects
PHOSPHATE glass, PROTON beams, IRON, RADIOACTIVE waste disposal, NUCLEAR energy, MOSSBAUER effect, IRRADIATION, X-ray absorption
Abstract

Nuclear energy generation technology is critically linked with the safe disposal of radioactive waste. In this context, iron phosphate glass (IPG) is gaining predominance as nuclear waste vitrification matrix that necessitates a thorough study on the effect of the loading of various nuclear fission waste materials in it. In this study, the effect of the loading of Nd3+ (which acts as a surrogate for radioactive curium (Cm)) and Ru4+ (which is a fission product of 235U) in IPG has been assessed. The optimum loading of Nd3+/Ru4+ leading to the formation of homogenous melt has been ascertained via powder X‐ray diffraction and scanning electron microscopy techniques. The modification in the Fe3+/Fe2+ ratio in IPG and the consequent change in its average coordination number with Nd3+/Ru4+ loading has been deduced from the Mössbauer studies. Local structure analysis has been done using X‐ray absorption spectroscopy at Nd/Ru/Fe K‐edge (as applicable) for all the single and co‐loaded IPG samples. All the co‐loaded samples show enhanced glass stability and glass forming ability compared to unloaded IPG which has been ascertained via detailed thermal studies. The variation in IPG network structure on the addition of Nd2O3 and RuO2 has been ascertained through spectroscopic techniques like Fourier transform infrared (FTIR) and Raman. The base glass and a few representative homogenous single and co‐loaded IPG samples have been irradiated with 4.5 MeV proton beam to simulate the hosting of radioactive elements and the radiation effect on glass structure has been ascertained using FTIR and Raman spectroscopies. The suitability of IPG as nuclear waste vitrification matrix for Nd3+ and Ru4+ is established through all the above analyses. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Soft anharmonic coupled vibrations of Li and SiO4 enable Li-ion diffusion in amorphous Li2Si2O5.

Author

Kumar, Sajan, Gupta, Mayanak K., Goel, Prabhatasree, Mittal, Ranjan, Mukhopadhyay, Sanghamitra, Le, Manh Duc, Shukla, Rakesh, Achary, Srungarpu N., Tyagi, Avesh K., and Chaplot, Samrath L.

Abstract

We present investigations on atomic dynamics and Li+ diffusion in crystalline and amorphous Li2Si2O5 using quasielastic neutron scattering (QENS) and inelastic neutron scattering (INS) studies supplemented by ab initio molecular dynamics simulations (AIMD). The QENS measurements in the amorphous phase of Li2Si2O5 show a narrow temperature window (700 < T < 775 K), exhibiting significant quasielastic broadening corresponding to fast Li+ diffusion. Our INS measurements clearly show the presence of large phonon density of states (PDOS) at low energy (low-E) in the superionic amorphous phase, which disappear in the non-superionic crystalline phase, corroborating the role of low-E modes in Li+ diffusion. The frustrated energy landscape and host flexibility (due to random orientation and vibrational motion of SiO4 polyhedral units) play an essential role in diffusing Li+. We used AIMD simulations to identify that these low-E modes involve a large amplitude of Li vibrations coupled with SiO4 vibrations in the amorphous phase. At elevated temperatures, these vibrational dynamics accelerate Li+ diffusion. Above 775 K, these SiO4 vibrational dynamics drive the system into the crystalline phase by locking SiO4 and Li+ into deeper minima of the free energy landscape and making them disappear in the crystalline phase. Both experiments and simulations provide valuable information about the atomic level stochastic and vibrational dynamics in Li2Si2O5 and their role in Li+ diffusion and vitrification. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Equations of State and Crystal Structures of KCaPO4, KSrPO4, and K2Ce(PO4)2under High Pressure: Discovery of a New Polymorph of KCaPO4

Author

Errandonea, Daniel, Achary, Srungarpu N., Diaz-Anichtchenko, Daniel, Bandiello, Enrico, Marqueño, Tomas, Shukla, Rakesh, Tyagi, Avesh K., Popescu, Catalin, and Alabarse, Frederico G.

Abstract

We have studied by means of angle-dispersive powder synchrotron X-ray diffraction the structural behavior of KCaPO4, SrKPO4, and K2Ce(PO4)2under high pressure up to 26, 25, and 22 GPa, respectively. For KCaPO4, we have also accurately determined the crystal structure under ambient conditions, which differs from the structure previously reported. Arguments supporting our structural determination will be discussed. We have found that KCaPO4undergoes a reversible phase transition. The onset of the transition is at 5.6 GPa. It involves a symmetry decrease. The low-pressure phase is described by space group P3̅m1 and the high-pressure phase by space group Pnma. For KSrPO4and K2Ce(PO4)2, no evidence of phase transitions has been found up to the highest pressure covered by the experiments. For the three compounds, the linear compressibility for the different crystallographic axes and the pressure–volume equation of states are reported and compared with those of other phosphates. The three studied compounds are among the most compressible phosphates. The results of the study improve the knowledge about the high-pressure behavior of complex phosphates.

Published
2023
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34. Synthesis, characterization, and thermoluminescence‐based high‐dose neutron and gamma dosimetry study of Al5BO9: Mn, Li nanophosphor.

Author

Sen, Meghnath, Shukla, Rakesh, Pathak, Nimai, Ali, Kawsar, Sathian, Vilippalil, and Tyagi, Avesh K.

Subjects
THERMOLUMINESCENCE, RADIATION dosimetry, FOOD irradiation, THERMAL neutrons, NEUTRONS, GAMMA rays, EXCITATION spectrum
Abstract

A near tissue equivalent (Zeff = 10.8) and wide bandgap (Eg = 5.95 eV) Al5BO9: Mn, Li nanophosphor was synthesized by facile gel‐combustion (GC) method, and structural characterizations were performed by XRD, infra‐red, transmission electron microscopy, energy‐dispersive spectra, diffuse reflectance UV–visible spectra, and PL studies. Thermoluminescence (TL) study of Al5BO9: Mn, Li revealed the dosimetry glow peak at 542 K, which was absent in undoped Al5BO9 indicating the importance of Mn dopant. The highest TL response was obtained for the lowest studied dopant concentration (0.1 mol% Mn) that was attributed to the concentration quenching phenomenon. The material is highly reusable with low fading (<10%) up to 110 days. TL response for both thermal neutron and gamma radiations showed excellent linearity within 5 × 109–3 × 1011 n/cm2 and 30–5000 Gy, respectively. These studies suggested promising potential of Al5BO9: Mn, Li nanophosphor in clinical neutron dosimetry and food irradiation dosimetry applications. Based on the variation of calcination temperature, strategy toward dual application, namely, radiation dosimeter and red‐light emitting phosphor of the material was established. For a better understanding of the TL process, various kinetic parameters like activation energy (E), order of kinetics (b), and frequency factor (s) were evaluated using different methodologies, and the results were found to be in good agreement. [ABSTRACT FROM AUTHOR]

Published
2022
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41. Phonons and lithium diffusion in LiAlO2

Author

Gupta, Mayanak K., primary, Mittal, Ranjan, additional, Singh, Baltej, additional, Delaire, Olivier, additional, Achary, Srungarpu N., additional, Rols, Stephane, additional, Tyagi, Avesh K., additional, and Chaplot, Samrath L., additional

Published
2021
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44. Stoichiometric tuning of lattice flexibility and Na diffusion in NaAlSiO4: quasielastic neutron scattering experiment and ab initio molecular dynamics simulations

Author

Gupta, Mayanak K., primary, Mittal, Ranjan, additional, Kumar, Sajan, additional, Singh, Baltej, additional, Jalarvo, Niina H., additional, Delaire, Olivier, additional, Shukla, Rakesh, additional, Achary, Srungarpu N., additional, Kolesnikov, Alexander I., additional, Tyagi, Avesh K., additional, and Chaplot, Samrath L., additional

Published
2021
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46. Polysulfone-Gd2Zr2O7 mixed-matrix membranes with superior radiation resistant properties: Fabrication and application of a membrane device for radioactive effluent treatment

Author

Pal, Avishek, primary, Mandal, Balaji P., additional, Dubey, Kumar A., additional, Jain, Dheeraj, additional, Bedar, Amita, additional, Kumar, Aniruddha, additional, Goswami, N., additional, Nailwal, B.C., additional, Rath, Bibhu N., additional, Debnath, Anil K., additional, Singha, Amit K., additional, Kumar, Naveen N., additional, Jain, Ratnesh D., additional, Tyagi, Avesh K., additional, Bindal, Ramesh C., additional, and Kar, Soumitra, additional

Published
2020
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49. Stoichiometric tuning of lattice flexibility and Na diffusion in NaAlSiO4: quasielastic neutron scattering experiment and ab initio molecular dynamics simulations.

Author

Gupta, Mayanak K., Mittal, Ranjan, Kumar, Sajan, Singh, Baltej, Jalarvo, Niina H., Delaire, Olivier, Shukla, Rakesh, Achary, Srungarpu N., Kolesnikov, Alexander I., Tyagi, Avesh K., and Chaplot, Samrath L.

Abstract

We have performed quasielastic neutron scattering (QENS) experiments up to 1243 K and ab initio molecular dynamics (AIMD) simulations to investigate the Na diffusion in various phases of NaAlSiO4 (NASO), namely, low-carnegieite (L-NASO; trigonal), high-carnegieite (H-NASO; cubic) and nepheline (N-NASO; hexagonal) phases. The QENS measurements reveal Na ions localized diffusion behavior in L-NASO and N-NASO, but long-range diffusion behavior in H-NASO. The AIMD simulation supplemented the QENS measurements and showed that excess Na ions in H-NASO enhance the host network flexibility and activate the AlO4/SiO4 tetrahedra rotational modes. These framework modes enable the long-range diffusion of Na across a pathway of interstitial sites. The simulations also show Na diffusion in Na-deficient N-NASO through vacant Na sites along the hexagonal c-axis. [ABSTRACT FROM AUTHOR]

Published
2021
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