A study of size-dependent properties of MoS2 monolayer nanoflakes using density-functional theory

Javaid, M.; Drumm, Daniel W.; Russo, Salvy P.; Greentree, Andrew D.

doi:10.1038/s41598-017-09305-y

Cited by 32 publications

(23 citation statements)

References 49 publications

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“…The theoretical results show that the bulk 2H-MoS 2 is a material that presents both direct and indirect band gaps with values very close to the experimentally reported [166][167][168], but also predict that the doping of this material with transition metals (or under pressure) could tailor their chemical, optical and electronic properties for the development of new interesting technological applications [169][170][171]. Also, a whole universe of possibilities arises with a reduction in dimensions of this kind of materials, which offers the possibilities of exploiting band-gap engineering [172][173][174][175][176][177][178][179][180] and of obtaining new magnetic properties [181][182][183].…”

Section: Theoretical Studiesmentioning

confidence: 61%

Recent Insights in Transition Metal Sulfide Hydrodesulfurization Catalysts for the Production of Ultra Low Sulfur Diesel: A Short Review

et al. 2019

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The literature from the past few years dealing with hydrodesulfurization catalysts to deeply remove the sulfur-containing compounds in fuels is reviewed in this communication. We focus on the typical transition metal sulfides (TMS) Ni/Co-promoted Mo, W-based bi- and tri-metallic catalysts for selective removal of sulfur from typical refractory compounds. This review is separated into three very specific topics of the catalysts to produce ultra-low sulfur diesel. The first issue is the supported catalysts; the second, the self-supported or unsupported catalysts and finally, a brief discussion about the theoretical studies. We also inspect some details about the effect of support, the use of organic and inorganic additives and aspects related to the preparation of unsupported catalysts. We discuss some hot topics and details of the unsupported catalyst preparation that could influence the sulfur removal capacity of specific systems. Parameters such as surface acidity, dispersion, morphological changes of the active phases, and the promotion effect are the common factors discussed in the vast majority of present-day research. We conclude from this review that hydrodesulfurization performance of TMS catalysts supported or unsupported may be improved by using new methodologies, both experimental and theoretical, to fulfill the societal needs of ultra-low sulfur fuels, which more stringent future regulations will require.

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Section: Theoretical Studiesmentioning

confidence: 61%

Recent Insights in Transition Metal Sulfide Hydrodesulfurization Catalysts for the Production of Ultra Low Sulfur Diesel: A Short Review

et al. 2019

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“…Using the two-band effective mass model the wave function of the exciton can be written as a factorization of the relative motion of charge carriers and their center-of-mass motion 38 , 39 : where is the valley index, is the radius vector of the electron (hole), is the normalization area, is the center-of-mass vector, is the effective mass of the electron (hole), , is the wave vector of the center-of-mass motion, is the wave function of the relative motion with coordinate , and and are the Bloch functions of the electron and hole in valley . For very small QDs (nanoflakes) the effective mass approach is not applicable, but it is possible to use ab-initio calculations to study their properties 40 .…”

Section: Model For Confined Excitonsmentioning

confidence: 99%

Valley-selective energy transfer between quantum dots in atomically thin semiconductors

Baimuratov

Högele

2020

Sci Rep

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In monolayers of transition metal dichalcogenides the nonlocal nature of the effective dielectric screening leads to large binding energies of excitons. Additional lateral confinement gives rise to exciton localization in quantum dots. By assuming parabolic confinement for both the electron and the hole, we derive model wave functions for the relative and the center-of-mass motions of electron–hole pairs, and investigate theoretically resonant energy transfer among excitons localized in two neighboring quantum dots. We quantify the probability of energy transfer for a direct-gap transition by assuming that the interaction between two quantum dots is described by a Coulomb potential, which allows us to include all relevant multipole terms of the interaction. We demonstrate the structural control of the valley-selective energy transfer between quantum dots.

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“…Ademais, o processo de auto-sedimentação intrínseco a esta rota sintética é capaz de permitir a obtenção de nanoflocos 2H-MoS 2 e 1T(1T )-MoS 2 . [2,79] Como delineado experimental [48,117] e teoricamente, [118,119] 2 fora do plano da monocamada de Gr.…”

Section: Nanoflocos De Dicalcogenetos De Metais De Transição Adsorvidunclassified

“…Apesar das formações de dímeros em mínimos locais obtidos para estes nanoflocos, estas interações não foram suficientemente intensas para superarem a estabilidade proporcionada pela configuração da borda terminada em Q. Entre os pGMCs 1T observados, encontramse geometrias triangulares, Figura 6, as quais são reportadas na literatura para nanoflocos de tamanhos comparáveis àqueles investigados no presente capítulo. [118] Entretanto, os nanoflocos 1T para os n = 10 e 15 não são os mais estáveis para nenhuma espécie. Cabe notar que as distorções octaédricas de átomos Mo de centro indicam que a distorção de geometria octaédrica se configura como um mecanismo de estabilização dos pGMCs 2D, e , , , As diferenças de energias HOMO-LUMO nos nanoflocos estudados são observadas através de mecanismo análogo ao mecanismo de Peierls, [70] caracterizado como a abertura de um gap no nível de Fermi nos casos periódicos de monocamadas dos MoQ 2 , Q = S, Se, Te.…”

Section: Configurações De Mínimos Globais Putativosunclassified

“…A grande sensibilidade destas energias de acordo com a geometria do nanofloco ou cluster 1D é devida ao fato de que existe a contribuição de praticamente todos os átomos das estruturas para a formação dos orbitais HOMO e LUMO, Figura 14, um resultado também encontrado em outros estudos para nanoflocos 2H de tamanho similares aos investigados no presente estudo. [118] Uma vez que não existe mudanças de comportamento na determinação das energias HOMO e LUMO e suas diferenças de acordo com a morfologia dos pGMCs, não se pode traçar uma relação que se baseie somente em efeitos de estrutura eletrônica para que se possa explicar a transição 1D → 1T .…”

Section: Diferenças De Energia Homo-lumounclassified

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Investigação >i<ab initio>/i< dos mecanismos de formação de nanoflocos de dicalcogenetos de metais de transição

Caturello¹

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Agradeço ao Prof. Dr. Juarez L. F. Da Silva pela orientação, organização do trabalho e provisão de infra-estrutura, as quais permitiram o incremento do meu conhecimento e o acesso em detalhes da evolução de propriedades físico-químicas de dicalcogenetos de metais de transição. Agradeço profundamente a oportunidade que me foi dada de trabalhar no Grupo de Teoria Quântica de Nanomateriais (QTNano). Agradeço o apoio financeiro da CAPES (Código Financeiro 001), CNPq, FUSP, FAPESP, Shell e ANP (processos 2017/11631-2 e 2018/21401-7) e à infra-estrutura de computação fornecida pelo LNCC/MCTI (recursos HPC do SDumont) e HPC da Superintendência de Tecnologia e Informação da USP através dos clusters do grupo e do Águia. Ademais, agradeço a meus parceiros de pesquisa do QTNano e amigos, dos quais cito:

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A study of size-dependent properties of MoS2 monolayer nanoflakes using density-functional theory

Cited by 32 publications

References 49 publications

Recent Insights in Transition Metal Sulfide Hydrodesulfurization Catalysts for the Production of Ultra Low Sulfur Diesel: A Short Review

Recent Insights in Transition Metal Sulfide Hydrodesulfurization Catalysts for the Production of Ultra Low Sulfur Diesel: A Short Review

Valley-selective energy transfer between quantum dots in atomically thin semiconductors

Investigação >i<ab initio>/i< dos mecanismos de formação de nanoflocos de dicalcogenetos de metais de transição

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