Impact of CVD chemistry on band alignment at the MoS2/SiO2 interface

Pinaka Pani Tummala; G. Delie; A. Cataldo; S. Ghomi; C. Martella; Gabriele Ferrini; A. Molle; A. Lamperti; V. V. Afanas'ev

doi:10.1016/j.sse.2023.108782

Impact of CVD chemistry on band alignment at the MoS2/SiO2 interface

Pinaka Pani Tummala^*
, G. Delie
, A. Cataldo
, S. Ghomi
, C. Martella
, Gabriele Ferrini
, A. Molle
, A. Lamperti
, V. V. Afanas'ev

^*Autore corrispondente per questo lavoro

Risultato della ricerca: Contributo in rivista › Articolo

Abstract

Reliable knowledge of energy alignment of electronic bands at interfaces of few layered Molybdenum Disulfide (MoS2) is crucial for designing MoS2 based electronic devices. In this work, we have applied internal photoemission spectroscopy (IPE) to characterize this band alignment. MoS2 films grown on SiO2(50 nm)/Si using two different methods have been analyzed by IPE to determine the energy position of the semiconductor valence band (VB) relative to the reference level of the insulator conduction band (CB). We found that changing the MoS2 growth method from Vapor Phase Reaction (VPR) of MoO3 and sulfur, to Solid Precursor Film (SPF) of sulfurized AHM-NaOH spin coated MoS2 film, results in significant (approximate to 600 meV) enhancement in the electron barrier. Such effects are ascribed to the interaction of hydroxy groups from NaOH and AHM promoters with the SiO2 surface leading to interface dipole modification.

Lingua originale	Inglese
pagine (da-a)	108782-N/A
Rivista	Solid-State Electronics
Volume	209
Numero di pubblicazione	N/A
DOI	https://doi.org/10.1016/j.sse.2023.108782
Stato di pubblicazione	Pubblicato - 2023

All Science Journal Classification (ASJC) codes

Materiali Elettronici, Ottici e Magnetici
Fisica della Materia Condensata
Chimica dei Materiali
Ingegneria Elettrica ed Elettronica

Keywords

2D materials
Band alignment
CVD
Interface
Internal photoemission
MoS2

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10.1016/j.sse.2023.108782

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title = "Impact of CVD chemistry on band alignment at the MoS2/SiO2 interface",

abstract = "Reliable knowledge of energy alignment of electronic bands at interfaces of few layered Molybdenum Disulfide (MoS2) is crucial for designing MoS2 based electronic devices. In this work, we have applied internal photoemission spectroscopy (IPE) to characterize this band alignment. MoS2 films grown on SiO2(50 nm)/Si using two different methods have been analyzed by IPE to determine the energy position of the semiconductor valence band (VB) relative to the reference level of the insulator conduction band (CB). We found that changing the MoS2 growth method from Vapor Phase Reaction (VPR) of MoO3 and sulfur, to Solid Precursor Film (SPF) of sulfurized AHM-NaOH spin coated MoS2 film, results in significant (approximate to 600 meV) enhancement in the electron barrier. Such effects are ascribed to the interaction of hydroxy groups from NaOH and AHM promoters with the SiO2 surface leading to interface dipole modification.",

keywords = "2D materials, Band alignment, CVD, Interface, Internal photoemission, MoS2, 2D materials, Band alignment, CVD, Interface, Internal photoemission, MoS2",

author = "Tummala, \{Pinaka Pani\} and G. Delie and A. Cataldo and S. Ghomi and C. Martella and Gabriele Ferrini and A. Molle and A. Lamperti and Afanas'ev, \{V. V.\}",

year = "2023",

doi = "10.1016/j.sse.2023.108782",

language = "English",

volume = "209",

pages = "108782--N/A",

journal = "Solid-State Electronics",

issn = "0038-1101",

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T1 - Impact of CVD chemistry on band alignment at the MoS2/SiO2 interface

AU - Tummala, Pinaka Pani

AU - Delie, G.

AU - Cataldo, A.

AU - Ghomi, S.

AU - Martella, C.

AU - Ferrini, Gabriele

AU - Molle, A.

AU - Lamperti, A.

AU - Afanas'ev, V. V.

PY - 2023

Y1 - 2023

N2 - Reliable knowledge of energy alignment of electronic bands at interfaces of few layered Molybdenum Disulfide (MoS2) is crucial for designing MoS2 based electronic devices. In this work, we have applied internal photoemission spectroscopy (IPE) to characterize this band alignment. MoS2 films grown on SiO2(50 nm)/Si using two different methods have been analyzed by IPE to determine the energy position of the semiconductor valence band (VB) relative to the reference level of the insulator conduction band (CB). We found that changing the MoS2 growth method from Vapor Phase Reaction (VPR) of MoO3 and sulfur, to Solid Precursor Film (SPF) of sulfurized AHM-NaOH spin coated MoS2 film, results in significant (approximate to 600 meV) enhancement in the electron barrier. Such effects are ascribed to the interaction of hydroxy groups from NaOH and AHM promoters with the SiO2 surface leading to interface dipole modification.

AB - Reliable knowledge of energy alignment of electronic bands at interfaces of few layered Molybdenum Disulfide (MoS2) is crucial for designing MoS2 based electronic devices. In this work, we have applied internal photoemission spectroscopy (IPE) to characterize this band alignment. MoS2 films grown on SiO2(50 nm)/Si using two different methods have been analyzed by IPE to determine the energy position of the semiconductor valence band (VB) relative to the reference level of the insulator conduction band (CB). We found that changing the MoS2 growth method from Vapor Phase Reaction (VPR) of MoO3 and sulfur, to Solid Precursor Film (SPF) of sulfurized AHM-NaOH spin coated MoS2 film, results in significant (approximate to 600 meV) enhancement in the electron barrier. Such effects are ascribed to the interaction of hydroxy groups from NaOH and AHM promoters with the SiO2 surface leading to interface dipole modification.

KW - 2D materials

KW - Band alignment

KW - CVD

KW - Interface

KW - Internal photoemission

KW - MoS2

KW - 2D materials

KW - Band alignment

KW - CVD

KW - Interface

KW - Internal photoemission

KW - MoS2

UR - https://publicatt.unicatt.it/handle/10807/255894

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U2 - 10.1016/j.sse.2023.108782

DO - 10.1016/j.sse.2023.108782

M3 - Article

SN - 0038-1101

VL - 209

SP - 108782-N/A

JO - Solid-State Electronics

JF - Solid-State Electronics

IS - N/A

ER -

Impact of CVD chemistry on band alignment at the MoS2/SiO2 interface

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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