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139 results on '"Assadi, M. Hussein N."'

1. Oxygen redox in battery cathodes: A brief overview

Author

Assadi, M. Hussein N. and Hanaor, Dorian A. H.

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

The participation of oxygen or other anionic species in redox activities in cathode materials for lithium and sodium-ion battery systems is known to play a role in governing the useful capacity of these batteries. Directly probing anionic redox mechanisms is not possible, rather the computational analysis by density functional theory poses the main approach towards gleaning insights into anionic redox activity and harnessing these effects to maximize capacity in future electrode materials. Here we showcase material systems exhibiting this mechanism of ion insertion and removal, and present the key computational considerations in studying anionic redox activities in battery materials. Aided by new computationally derived understandings of the role of anionic redox in emerging battery materials, increasingly greater levels of useable capacities can be extracted through informed materials design.

Published
2024
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2. Charging/discharging mechanism in Mg3Bi2 anode for Mg-ion batteries; The role of the spin-orbit coupling

Author

Assadi, M. Hussein N., Kirkham, Christopher J., Hamada, Ikutaro, and Hanaor, Dorian A. H.

Subjects
Condensed Matter - Materials Science, Physics - Computational Physics, Quantum Physics
Abstract

Using density functional calculations, we examine insertion/extraction of Mg ions in Mg3Bi2, an interesting Mg-ion battery anode. We found that a (1 1 0) facet is the most stable termination. Vacating a Mg2+ ion from the octahedral site is more favourable for both surface and bulk regions of the material. However, the diffusion barriers among the tetrahedral sites are around 3 times smaller than those among octahedral sites. Consequently, during the magnesiation/demagnesiation process, Mg ions first vacate the octahedral sites and then diffuse through the tetrahedral sites. The spin-orbit interaction lowers Mg's vacancy formation energy but has a minor effect on diffusion barriers.

Published
2022
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3. Recycling End-of-life Polycarbonate in Steelmaking; $\textit{Ab Initio}$ Study of Carbon Dissolution in Molten Iron

Author

Assadi, M. Hussein N. and Sahajwalla, Veena

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Condensed Matter - Soft Condensed Matter
Abstract

The scarcity of fossil fuels as carbon resources has motivated the steelmaking industry to search for new carbon sources such as end-of-life polymeric products. Using $\textit{ab initio}$ molecular dynamics simulation, we demonstrate that 41% of polycarbonate's carbon content is readily dissolved in molten iron's interface at $T$ = 1823 K which is comparable to graphite with $\sim$ 58% carbon content dissolution. More importantly, we demonstrate that polycarbonate's hydrogen content does not dissolve in molten iron but rather escape in gaseous form. Therefore, waste polycarbonate constitutes a feasible carbon source for steelmaking., Comment: 7 pages, 4 figures, 32 references

Published
2022
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4. High-Density Polyethylene Degradation into Low Molecular Weight Gases at 1823 K: An Atomistic Simulation

Author

Ramin, Leyla, Assadi, M. Hussein N., and Sahajwalla, Veena

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science
Abstract

Using molecular dynamics simulation, we present a comprehensive study of the volatile thermal degradation of high-density polyethylene (HDPE) across a temperature range of 300 K to 1823 K. We find that degradation at temperatures higher than $\sim$ 1373 K generates significant quantities of reducing gases such as CH$_{\text{n}}$ and hydrogen molecules which are beneficial to the steelmaking industry. Our results provide a new understanding of HDPE's phase transformation from solid to gas that occurs during superheating at steelmaking's electric arc furnace environment offering a new method for eliminating end-of-life HDPE from landfill., Comment: 6 pages, 2 figures, 1 table, 28 references

Published
2022
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5. Unusual ferrimagnetic ground state in rhenium ferrite

Author

Assadi, M Hussein N, Fronzi, Marco, and Hanaor, Dorian AH

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

Through comprehensive density functional calculations, we predict the stability of a rhenium-based ferrite

Published
2022
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6. Exceptionally high saturation magnetisation in Eu-doped magnetite stabilised by spin-orbit interaction

Author

Assadi, M. Hussein N., Moreno, José Julio Gutiérrez, Hanaor, Dorian A. H., and Katayama-Yoshida, Hiroshi

Subjects
Condensed Matter - Materials Science
Abstract

The significance of the spin-orbit interaction is very well known in compounds containing heavier elements such as the rare-earth Eu ion. Here, through density functional calculations, we investigated the effect of the spin-orbit interaction on the magnetic ground state of Eu doped magnetite ($\mathrm{Fe_3O_4:Eu_{Fe}}$). By examining all possible spin alignments between Eu and magnetite's Fe, we demonstrate that Eu, which is most stable when doped at the tetrahedral site, adapts a spin almost opposite the substituted Fe. Consequently, because of smaller spin cancellation between the cations on the tetrahedral site ($\mathrm{Fe_{Tet}}$ and $\mathrm{Eu_{Tet}}$) and the cations on the octahedral sites ($\mathrm{Fe_{Oct}}$), $\mathrm{Fe_3O_4:Eu_{Fe}}$ exhibits a maximum saturation magnetisation of 9.451 $\mu_B/$f.u. which is significantly larger than that of undoped magnetite (calculated to be 3.929 $\mu_B/$f.u.). We further show that this large magnetisation persists through additional electron doping. However, additional hole doping, which may unintentionally occur in Fe deficient magnetite, can reduce the magnetisation to values smaller than that of the undoped magnetite. The results presented here can aid in designing highly efficient magnetically recoverable catalysts for which both magnetite and rare earth dopants are common materials., Comment: 12 pages, 9 figures, 3 tables

Published
2022
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8. Na Site Doping a Pathway for Enhanced Thermoelectric Performance in $Na_{1-x}CoO_2$; The Case of Gd and Yb Dopants

Author

Assadi, M. Hussein N.

Subjects
Condensed Matter - Materials Science
Abstract

Doping is considered to be the main method for improving the thermoelectric performance of layered sodium cobaltate (Na$_{1-x}$CoO$_2$). However, in the vast majority of past reports, the equilibrium location of the dopant in the Na$_{1-x}$CoO$_2$'s complex layered lattice has not been confidently identified. Consequently, a universal strategy for choosing a suitable dopant for enhancing Na$_{1-x}$CoO$_2$'s figure of merit is yet to be established. Here, by examining the formation energy of Gd and Yb dopants in Na$_{0.75}$CoO$_2$ and Na$_{0.50}$CoO$_2$, we demonstrate that in an oxygen poor environment, Gd and Yb dopants reside in the Na layer while in an oxygen rich environment these dopants replace a Co in CoO$_2$ layer. When at Na layer, Gd and Yb dopants reduce the carrier concentration via electron-hole recombination, simultaneously increasing the Seebeck coefficient ($S$) and reducing electric conductivity ($\sigma$). Na site doping, however, improves the thermoelectric power factor (PF) only in Na$_{0.50}$CoO$_2$. When replacing a Co, these dopants reduce $S$ and PF. The results demonstrate how thermoelectric performance critically depends on the synthesis environment that must be fine-tuned for achieving any thermoelectric enhancement., Comment: Six figures and Supplementary Materials

Published
2021
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9. Polymers' surface interactions with molten iron: a theoretical study

Author

Assadi, M. Hussein N. and Sahajwalla, Veena

Subjects
Condensed Matter - Materials Science
Abstract

Environmental concerns are the chief drive for more innovative recycling techniques for end-of-life polymeric products. One attractive option is taking advantage of C and H content of polymeric waste in steelmaking industry. In this work, we examined the interaction of two high production polymers, i.e., polyurethane and polysulfide with molten iron using ab initio molecular dynamics simulation. We demonstrate that both polymers can be used as carburizers for molten iron. Additionally, we found that light weight H$_2$ and CH$_x$ molecules were released as by-products of the polymer-molten iron interaction. The outcomes of this study will have applications in the carburization of molten iron during ladle metallurgy and waste plastic injection in electric arc furnace., Comment: 4 figures and 1 table

Published
2021
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10. Cu Modified SrTiO3 Perovskites Toward Enhanced Water Gas Shift Catalysis: A Combined Experimental and Computational Study

Author

Coletta, Vitor C., Goncalves, Renato V., Bernardi, Maria I. B., Hanaor, Dorian A. H., Assadi, M. Hussein N., Marcos, Francielle C. F., Nogueira, Francisco G. E., Assaf, Elisabete M., and Mastelaro, Valmor R.

Subjects
Condensed Matter - Materials Science
Abstract

The water gas shift reaction (WGS) is important and widely applied in the production of H2. Cu modified perovskites are promising catalysts for WGS reactions in hydrogen generation. However, the structure-dependent stability and reaction pathways of such materials remain unclear. Herein, we report catalytically active Cu modified SrTiO3 (nominally SrTi1-xCuxO3) prepared by a modified polymeric precursor method. Microstructural analysis revealed a partially segregated CuO phase in the as-prepared materials. Operando X-ray diffraction and absorption spectroscopy showed the reduction of CuO into a stable metallic phase under conditions of WGS reactions for all compositions. Among the characterized materials, the x = 0.20 composition showed the highest turnover frequency, lowest activation energy, and the highest WGS rate at 300C. According to density functional calculations, the formation of CuO is energetically less favorable compared with SrTiO3, explaining why the segregated CuO phase on the SrTiO3 surface is reduced to Cu during the catalytic reaction, while SrTiO3 remains. For x = 0.20, the size of the segregated CuO phase is optimum for facilitating the catalytic reaction. In contrast, a higher Cu content (x = 0.3) results in an aggregation of smaller CuO particles, resulting in fewer surface active sites and a net decrease in catalytic performance.

Published
2021
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11. Bispropylurea bridged polysilsesquioxane: A microporous MOF-like material for molecular recognition

Author

Doustkhah, Esmail, Tahawy, Rafat, Simon, Ulla, Tsunoji, Nao, Hanaor, Yusuke Ide Dorian A. H., and Assadi, M. Hussein N.

Subjects
Condensed Matter - Materials Science
Abstract

Microporous organosilicas assembled from polysilsesquioxane (POSS) building blocks are promising materials that are yet to be explored in-depth. Here, we investigate the processing and molecular structure of bispropylurea bridged POSS (POSS-urea), synthesised through the acidic condensation of 1,3-bis(3-(triethoxysilyl)propyl)urea (BTPU). Experimentally, we show that POSS-urea has excellent functionality for molecular recognition toward acetonitrile with an adsorption level of 74 mmol/g, which compares favourably to MOFs and zeolites, with applications in volatile organic compounds (VOC). The acetonitrile adsorption capacity was 132-fold higher relative to adsorption capacity for toluene, which shows the pores are highly selective towards acetonitrile adsorption due to their size and arrangement. Theoretically, our tight-binding density functional and molecular dynamics calculations demonstrated that this BTPU based POSS is microporous with an irregular placement of the pores. Structural studies confirm maximal pore sizes of around 1 nm, with POSS cages possessing an approximate edge length of approximately 3.16 Angstrom

Published
2021
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12. High-Performance Thermoelectric Oxides Based on Spinel Structure

Author

Assadi, M. Hussein N., Moreno, J. Julio Gutiérrez, and Fronzi, Marco

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

High-performance thermoelectric oxides could offer a great energy solution for integrated and embedded applications in sensing and electronics industries. Oxides, however, often suffer from low Seebeck coefficient when compared with other classes of thermoelectric materials. In search of high-performance thermoelectric oxides, we present a comprehensive density functional investigation, based on GGA$+U$ formalism, surveying the 3d and 4d transition-metal-containing ferrites of the spinel structure. Consequently, we predict MnFe$_2$O$_4$ and RhFe$_2$O$_4$ have Seebeck coefficients of $\sim \pm 600$ $\mu$V K$^{-1}$ at near room temperature, achieved by light hole and electron doping. Furthermore, CrFe$_2$O$_4$ and MoFe$_2$O$_4$ have even higher ambient Seebeck coefficients at $\sim \pm 700$ $\mu$V K$^{-1}$. In the latter compounds, the Seebeck coefficient is approximately a flat function of temperature up to $\sim 700$ K, offering a tremendous operational convenience. Additionally, MoFe$_2$O$_4$ doped with $10^{19}$ holes/cm$^3$ has a calculated thermoelectric power factor of $689.81$ $\mu$W K$^{-2}$ m$^{-1}$ at $300$ K, and $455.67$ $\mu$W K$^{-2}$ m$^{-1}$ at $600$ K. The thermoelectric properties predicted here can bring these thermoelectric oxides to applications at lower temperatures traditionally fulfilled by more toxic and otherwise burdensome materials., Comment: 11 pages, 6 figures, 1 table, 2 supplementary files

Published
2020
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14. Theoretical insights into the hydrophobicity of low index CeO2 surfaces

Author

Fronzi, Marco, Assadi, M. Hussein N., and Hanaor, Dorian A. H.

Subjects
Condensed Matter - Materials Science
Abstract

The hydrophobicity of CeO2 surfaces is examined here. Since wettability measurements are extremely sensitive to experimental conditions, we propose a general approach to obtain contact angles between water and ceria surfaces of specified orientations based on density functional calculations. In particular, we analysed the low index surfaces of this oxide to establish their interactions with water. According to our calculations, the CeO2 (111) surface was the most hydrophobic with a contact angle of {\Theta} = 112.53{\deg} followed by (100) with {\Theta} = 93.91{\deg}. The CeO2 (110) surface was, on the other hand, mildly hydrophilic with {\Theta} = 64.09{\deg}. By combining our calculations with an atomistic thermodynamic approach, we found that the O terminated (100) surface was unstable unless fully covered by molecularly adsorbed water. We also identified a strong attractive interaction between the hydrogen atoms in water molecules and surface oxygen, which gives rise to the hydrophilic behaviour of (110) surfaces. Interestingly, the adsorption of water molecules on the lower-energy (111) surface stabilises oxygen vacancies, which are expected to enhance the catalytic activity of this plane. The findings here shed light on the origin of the intrinsic wettability of rare earth oxides in general and CeO2 surfaces in particular and also explain why CeO2 (100) surface properties are so critically dependant on applied synthesis methods.

Published
2019
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15. The effects of copper doping on photocatalytic activity at (101) planes of anatase TiO2: A theoretical study

Author

Assadi, M. Hussein N. and Hanaor, Dorian A. H.

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

Copper dopants are varyingly reported to enhance photocatalytic activity at titanium dioxide surfaces through uncertain mechanisms. In order to interpret how copper doping might alter the performance of titanium dioxide photocatalysts in aqueous media we applied density functional theory methods to simulate surface units of doped anatase (101) planes. By including van der Waals interactions, we consider the energetics of adsorbed water at anatase surfaces in pristine and copper doped systems. Simulation results indicate that copper dopant at anatase (101) surfaces is most stable in a 2+ oxidation state and a disperse configuration, suggesting the formation of secondary CuO phases is energetically unfavourable. In agreement with previous reports, water at the studied surface is predicted to exhibit molecular adsorption with this tendency slightly enhanced by copper. Results imply that the enhancement of photoactivity at anatase surfaces through Cu doping is more likely to arise from electronic interactions mediated by charge transfer and inter-bandgap states increasing photoexcitation and extending surface-hole lifetimes rather than through the increased density of adsorbed hydroxyl groups.

Published
2018
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24. Theoretical study on copper's energetics and magnetism in TiO2 polymorphs

Author

Assadi, M. Hussein. N. and Hanaor, Dorian A. H.

Subjects
Condensed Matter - Materials Science
Abstract

We carried out density functional theory calculations to model the electronic structure and the magnetic interactions in copper doped anatase and rutile titanium dioxide in order to shed light on the potential of these systems as magnetic oxides using different density functional schemes. In both polymorphs copper dopant was found to be most stable in substitutional lattice positions. Ferromagnetism is predicted to be stable well above room temperature with long range interactions prevailing in the anatase phase while the rutile phase exhibits only short range superexchange interaction among nearest neighbouring Cu ions. Additionally, energetic evaluation of dopants in scattered and compact configurations reveals a dopant clustering tendency in anatase TiO2., Comment: 13 pages, five figures, one table

Published
2013
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30. Pd thickness optimization on silicate sheets for improving catalytic activity

Author

Doustkhah, Esmail, Tsunoji, Nao; Assadi, M. Hussein N.; Ide, Yusuke, Koç University Tüpraş Energy Center (KUTEM) / Koç Üniversitesi Tüpraş Enerji Merkezi (KÜTEM), College of Sciences, Department of Chemistry, Doustkhah, Esmail, Tsunoji, Nao; Assadi, M. Hussein N.; Ide, Yusuke, Koç University Tüpraş Energy Center (KUTEM) / Koç Üniversitesi Tüpraş Enerji Merkezi (KÜTEM), College of Sciences, and Department of Chemistry

Abstract

Maximizing surface-to-body ratio demands ever smaller metallic palladium (Pd) nanoparticles for catalytic applications. The quest for miniaturization is now reaching the single-atom limit. However, if the supported Pd is below a critical size, the Pd hybridization with the supporting material can detrimentally reduce the labile electrons that facilitate the catalytic reactions. Thus, the smallest attainable size, i.e., single-atom Pd, may not offer the best efficiency. Here, it is demonstrated that Pd with at least six atomic layers (or thickness of approximate to 1 nm) on the silicate sheets, synthesized via the partial exfoliation of a layered silicate, exhibits a metallic-like electronic property, yielding an excellent catalytic activity (e.g., turnover frequency) for dehydrogenating formic acid higher than both isotropic Pd nanoparticles and single-atom Pd., Scientific and Technological Research Council of Turkey (TÜBİTAK); European Union (EU); Horizon 2020; Marie Sklodowska Curie; Co-Funded Brain Circulation Program Framework; This work was supported by the JSPS KAKENHI (grant Nos. 21F20040 and 21H02034). Moreover, the authors gratefully acknowledge the funding of this project by computing time provided by the Paderborn Center for Parallel Computing (PC2).

Published
2023

32. Feeble Single-Atom Pd Catalysts for H2Production from Formic Acid

Author

Doustkhah, Esmail, Tsunoji, Nao, Mine, Shinya, Toyao, Takashi, Shimizu, Ken-ichi, Morooka, Tetsuro, Masuda, Takuya, Assadi, M. Hussein N., and Ide, Yusuke

Abstract

Single-atom catalysts are thought to be the pinnacle of catalysis. However, for many reactions, their suitability has yet to be unequivocally proven. Here, we demonstrate why single Pd atoms (PdSA) are not catalytically ideal for generating H2from formic acid as a H2carrier. We loaded PdSAon three silica substrates, mesoporous silicas functionalized with thiol, amine, and dithiocarbamate functional groups. The Pd catalytic activity on amino-functionalized silica (SiO2–NH2/PdSA) was far higher than that of the thiol-based catalysts (SiO2–S–PdSAand SiO2–NHCS2–PdSA), while the single-atom stability of SiO2–NH2/PdSAagainst aggregation after the first catalytic cycle was the weakest. In this case, Pd aggregation boosted the reaction yield. Our experiments and calculations demonstrate that PdSAin SiO2–NH2/PdSAloosely binds with amine groups. This leads to a limited charge transfer from Pd to the amine groups and causes high aggregability and catalytic activity. According to the density functional calculations, the loose binding between Pd and N causes most of Pd’s 4d electrons in amino-functionalized SiO2to remain close to the Fermi level and labile for catalysis. However, PdSAchemically binds to the thiol group, resulting in strong hybridization between Pd and S, pulling Pd’s 4d states deeper into the conduction band and away from the Fermi level. Consequently, fewer 4d electrons were available for catalysis.

Published
2024
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35. Interface-Driven Multiferroicity in Cubic BaTiO3-SrTiO3 Nanocomposites

Author

Shirsath, Sagar E., primary, Assadi, M. Hussein N., additional, Zhang, Ji, additional, Kumar, Nitish, additional, Gaikwad, Anil S., additional, Yang, Jack, additional, Maynard-Casely, Helen E., additional, Tay, Yee Yan, additional, Du, Jianhao, additional, Wang, Haoyu, additional, Yao, Yin, additional, Chen, Zibin, additional, Zhang, Jinxing, additional, Zhang, Shujun, additional, Li, Sean, additional, and Wang, Danyang, additional

Published
2022
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43. Cu-Modified SrTiO 3 Perovskites Toward Enhanced Water-Gas Shift Catalysis: A Combined Experimental and Computational Study

Author

Coletta, Vitor, Gonçalves, Renato, Bernardi, Maria, Hanaor, Dorian, Assadi, M. Hussein N., Marcos, Francielle, Nogueira, Francisco, Assaf, Elisabete, Mastelaro, Valmor, Sao Carlos Institute of Physics, University of São Paulo (USP), and Institut für Werkstoffwissenschaften und technologien, Technische Universitaet Berlin, Germany

Subjects
Cu doping, CuO formation, perovskite catalysts, operando XAS, XRD, SrTiO3, [CHIM.CRIS]Chemical Sciences/Cristallography, [PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci], [CHIM]Chemical Sciences, water-gas shift, [CHIM.CATA]Chemical Sciences/Catalysis, [CHIM.MATE]Chemical Sciences/Material chemistry, DFT calculations
Abstract

International audience; The water-gas shift reaction (WGS) is important and widely applied in the production of H2. Cu-modified perovskites are promising catalysts for WGS reactions in hydrogen generation. However, the structure-dependent stability and reaction pathways of such materials remain unclear. Herein, we report catalytically active Cu-modified SrTiO3 (nominally SrTi1−xCuxO3) prepared by a modified polymeric precursor method. Microstructural analysis revealed a partially segregated CuO phase in the as-prepared materials. Operando X-ray diffraction and absorption spectroscopy showed the reduction of CuO into a stable metallic phase under conditions of WGS reactions for all compositions. Among the characterized materials, the x = 0.20 composition showed the highest turnover frequency, lowest activation energy, and the highest WGS rate at 300 °C. According to density functional calculations, the formation of CuO is energetically less favorable compared with, SrTiO3, explaining why the segregated CuO phase on the SrTiO3 surface is reduced to Cu during the catalytic reaction, while SrTiO3 remains. For x = 0.20, the size of the segregated CuO phase is optimum for facilitating the catalytic reaction. In contrast, a higher Cu content (x = 0.3) results in an aggregation of smaller CuO particles, resulting in fewer surface active sites and a net decrease in catalytic performance.

Published
2021
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44. A review of recent progress in thermoelectric materials through computational methods

Author

Barcelona Supercomputing Center, Gutiérrez Moreno, J. Julio, Cao, Jiang, Fronzi, Marco, Assadi, M. Hussein N., Barcelona Supercomputing Center, Gutiérrez Moreno, J. Julio, Cao, Jiang, Fronzi, Marco, and Assadi, M. Hussein N.

Abstract

Reducing our overwhelming dependence on fossil fuels requires groundbreaking innovations in increasing our efficiency in energy consumption for current technologies and moving towards renewable energy sources. Thermoelectric materials can help in achieving both goals. Moreover, because of recent advances in high-performance computing, researchers more increasingly rely on computational methods in discovering new thermoelectric materials with economically feasible performance. In this article, significant thermoelectric materials discovered through these computational methods are systematically reviewed. Furthermore, the primary computational tools that aid the design of the next-generation thermoelectric materials are introduced and discussed. These techniques include various levels of density functional theory, electronic transport simulations, and phonon calculations., This work was supported by the Japanese Society for Promotion of Science. J.J.G.M. acknowledges financial support from the Postdoctoral Science Foundation of China under Grant no. 2018M643152. J.C. acknowledges the financial support from the Natural Science Foundation of Jiangsu Province under Grant number BK20180456., Peer Reviewed, Postprint (published version)

Published
2020

50. Assembly of cerium-based coordination polymer into variant polycrystalline 2D–3D CeO2−x nanostructures

Author

S. Mofarah, Sajjad, primary, Adabifiroozjaei, Esmaeil, additional, Wang, Yuan, additional, Arandiyan, Hamidreza, additional, Pardehkhorram, Raheleh, additional, Yao, Yin, additional, Assadi, M. Hussein N., additional, Mehmood, Rashid, additional, Chen, Wen-Fan, additional, Tsounis, Constantine, additional, Scott, Jason, additional, Lim, Sean, additional, Webster, Richard, additional, Zhong, Vicki, additional, Xu, Yuwen, additional, Koshy, Pramod, additional, and Sorrell, Charles C., additional

Published
2020
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