High-K dielectric sulfur-selenium alloys

Sandhya Susarla; Thierry Tsafack; Peter Samora Owuor; Anand B. Puthirath; Jordan A. Hachtel; Ganguli Babu; Amey Apte; Ben Maan I. Jawdat; Martin S. Hilario; Albert Lerma; Hector A. Calderon; Francisco C.Robles Hernandez; David W. Tam; Tong Li; Andrew R. Lupini; Juan Carlos Idrobo; Jun Lou; Bingqing Wei; Pengcheng Dai; Chandra Sekhar Tiwary; Pulickel M. Ajayan

doi:10.1126/sciadv.aau9785

High-K dielectric sulfur-selenium alloys

Sandhya Susarla
, Thierry Tsafack
, Peter Samora Owuor
, Anand B. Puthirath
, Jordan A. Hachtel
, Ganguli Babu
, Amey Apte
, Ben Maan I. Jawdat
, Martin S. Hilario
, Albert Lerma
, Hector A. Calderon
, Francisco C.Robles Hernandez
, David W. Tam
, Tong Li
, Andrew R. Lupini
, Juan Carlos Idrobo
, Jun Lou
, Bingqing Wei
, Pengcheng Dai
, Chandra Sekhar Tiwary

Pulickel M. Ajayan

electron Microscopy and Microanalysis

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Upcoming advancements in flexible technology require mechanically compliant dielectric materials. Current dielectrics have either high dielectric constant, K (e.g., metal oxides) or good flexibility (e.g., polymers). Here, we achieve a golden mean of these properties and obtain a lightweight, viscoelastic, high-K dielectric material by combining two nonpolar, brittle constituents, namely, sulfur (S) and selenium (Se). This S-Se alloy retains polymer-like mechanical flexibility along with a dielectric strength (40 kV/mm) and a high dielectric constant (K = 74 at 1MHz) similar to those of established metal oxides. Our theoretical model suggests that the principal reason is the strong dipole moment generated due to the unique structural orientation between S and Se atoms. The S-Se alloys can bridge the chasm between mechanically soft and high-K dielectric materials toward several flexible device applications.

Original language	English
Article number	eaau9785
Journal	Science Advances
Volume	5
Issue number	5
DOIs	https://doi.org/10.1126/sciadv.aau9785
State	Published - 2019

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Susarla, S., Tsafack, T., Owuor, P. S., Puthirath, A. B., Hachtel, J. A., Babu, G., Apte, A., Jawdat, B. M. I., Hilario, M. S., Lerma, A., Calderon, H. A., Hernandez, F. C. R., Tam, D. W., Li, T., Lupini, A. R., Idrobo, J. C., Lou, J., Wei, B., Dai, P., ... Ajayan, P. M. (2019). High-K dielectric sulfur-selenium alloys. Science Advances, 5(5), Article eaau9785. https://doi.org/10.1126/sciadv.aau9785

@article{46f39725be4d45018ff3e6a225648112,

title = "High-K dielectric sulfur-selenium alloys",

abstract = "Upcoming advancements in flexible technology require mechanically compliant dielectric materials. Current dielectrics have either high dielectric constant, K (e.g., metal oxides) or good flexibility (e.g., polymers). Here, we achieve a golden mean of these properties and obtain a lightweight, viscoelastic, high-K dielectric material by combining two nonpolar, brittle constituents, namely, sulfur (S) and selenium (Se). This S-Se alloy retains polymer-like mechanical flexibility along with a dielectric strength (40 kV/mm) and a high dielectric constant (K = 74 at 1MHz) similar to those of established metal oxides. Our theoretical model suggests that the principal reason is the strong dipole moment generated due to the unique structural orientation between S and Se atoms. The S-Se alloys can bridge the chasm between mechanically soft and high-K dielectric materials toward several flexible device applications.",

author = "Sandhya Susarla and Thierry Tsafack and Owuor, \{Peter Samora\} and Puthirath, \{Anand B.\} and Hachtel, \{Jordan A.\} and Ganguli Babu and Amey Apte and Jawdat, \{Ben Maan I.\} and Hilario, \{Martin S.\} and Albert Lerma and Calderon, \{Hector A.\} and Hernandez, \{Francisco C.Robles\} and Tam, \{David W.\} and Tong Li and Lupini, \{Andrew R.\} and Idrobo, \{Juan Carlos\} and Jun Lou and Bingqing Wei and Pengcheng Dai and Tiwary, \{Chandra Sekhar\} and Ajayan, \{Pulickel M.\}",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors.",

year = "2019",

doi = "10.1126/sciadv.aau9785",

language = "English",

volume = "5",

journal = "Science Advances",

issn = "2375-2548",

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T1 - High-K dielectric sulfur-selenium alloys

AU - Susarla, Sandhya

AU - Tsafack, Thierry

AU - Owuor, Peter Samora

AU - Puthirath, Anand B.

AU - Hachtel, Jordan A.

AU - Babu, Ganguli

AU - Apte, Amey

AU - Jawdat, Ben Maan I.

AU - Hilario, Martin S.

AU - Lerma, Albert

AU - Calderon, Hector A.

AU - Hernandez, Francisco C.Robles

AU - Tam, David W.

AU - Li, Tong

AU - Lupini, Andrew R.

AU - Idrobo, Juan Carlos

AU - Lou, Jun

AU - Wei, Bingqing

AU - Dai, Pengcheng

AU - Tiwary, Chandra Sekhar

AU - Ajayan, Pulickel M.

PY - 2019

Y1 - 2019

N2 - Upcoming advancements in flexible technology require mechanically compliant dielectric materials. Current dielectrics have either high dielectric constant, K (e.g., metal oxides) or good flexibility (e.g., polymers). Here, we achieve a golden mean of these properties and obtain a lightweight, viscoelastic, high-K dielectric material by combining two nonpolar, brittle constituents, namely, sulfur (S) and selenium (Se). This S-Se alloy retains polymer-like mechanical flexibility along with a dielectric strength (40 kV/mm) and a high dielectric constant (K = 74 at 1MHz) similar to those of established metal oxides. Our theoretical model suggests that the principal reason is the strong dipole moment generated due to the unique structural orientation between S and Se atoms. The S-Se alloys can bridge the chasm between mechanically soft and high-K dielectric materials toward several flexible device applications.

AB - Upcoming advancements in flexible technology require mechanically compliant dielectric materials. Current dielectrics have either high dielectric constant, K (e.g., metal oxides) or good flexibility (e.g., polymers). Here, we achieve a golden mean of these properties and obtain a lightweight, viscoelastic, high-K dielectric material by combining two nonpolar, brittle constituents, namely, sulfur (S) and selenium (Se). This S-Se alloy retains polymer-like mechanical flexibility along with a dielectric strength (40 kV/mm) and a high dielectric constant (K = 74 at 1MHz) similar to those of established metal oxides. Our theoretical model suggests that the principal reason is the strong dipole moment generated due to the unique structural orientation between S and Se atoms. The S-Se alloys can bridge the chasm between mechanically soft and high-K dielectric materials toward several flexible device applications.

UR - https://www.scopus.com/pages/publications/85065624243

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DO - 10.1126/sciadv.aau9785

M3 - Article

C2 - 31093523

AN - SCOPUS:85065624243

SN - 2375-2548

VL - 5

JO - Science Advances

JF - Science Advances

IS - 5

M1 - eaau9785

ER -

High-K dielectric sulfur-selenium alloys

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