Erratum: Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg3Sb2 (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520)

Xiao Yu Chong; Pin Wen Guan; Yi Wang; Shun Li Shang; Jorge Paz Soldan Palma; Fivos Drymiotis; Vilupanur A. Ravi; Kurt E. Star; Jean Pierre Fleurial; Zi Kui Liu

doi:10.1021/acsaem.9b02229

Erratum: Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg₃Sb₂ (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520)

Xiao Yu Chong, Pin Wen Guan, Yi Wang, Shun Li Shang, Jorge Paz Soldan Palma, Fivos Drymiotis, Vilupanur A. Ravi, Kurt E. Star, Jean Pierre Fleurial, Zi Kui Liu

Research output: Contribution to journal › Comment/debate › peer-review

1 Scopus citations

Abstract

We appreciate critical reading of our work by Gorai and Stevanovic and thank them for pointing out errors in our paper. The following additions and corrections are presented. 1. The band gap presented in the original paper was from the calculations from CASTEP instead of VASP; consequently, the defect energetics reported in Figure 4 in the original paper are not internally consistent. It is added in this Correction, indicating that more experimental and computational investigations of true band gaps of Mg₃Sb₂ are needed. 2. The (V_Mg(2) + Mg_I ) complex reported in the original paper is unstable and relaxes into a pristine Mg₃Sb₂ structure based on the results from NEB calculations. In addition, the penalty for the drifting of M_g(2) toward the Mg_I site is much lower than the formation energies of individual V_Mg(2) and Mg_I defects, indicating the higher probability of formation of an intermediate (V_Mg(2)+Mg_I) complex in comparison with the formation of VMg(2) and MgI, individually, which may contribute to the persistent p-type behavior for Mg-rich Mg₃Sb₂,.

Original language	English (US)
Pages (from-to)	1249-1252
Number of pages	4
Journal	ACS Applied Energy Materials
Volume	3
Issue number	1
DOIs	https://doi.org/10.1021/acsaem.9b02229
State	Published - Jan 27 2020

All Science Journal Classification (ASJC) codes

Chemical Engineering (miscellaneous)
Energy Engineering and Power Technology
Electrochemistry
Materials Chemistry
Electrical and Electronic Engineering

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Chong, X. Y., Guan, P. W., Wang, Y., Shang, S. L., Soldan Palma, J. P., Drymiotis, F., Ravi, V. A., Star, K. E., Fleurial, J. P., & Liu, Z. K. (2020). Erratum: Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg₃Sb₂ (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520). ACS Applied Energy Materials, 3(1), 1249-1252. https://doi.org/10.1021/acsaem.9b02229

@article{d3a4803b43dd4d179f383e2bec0e52b6,

title = "Erratum: Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg3Sb2 (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520)",

abstract = "We appreciate critical reading of our work by Gorai and Stevanovic and thank them for pointing out errors in our paper. The following additions and corrections are presented. 1. The band gap presented in the original paper was from the calculations from CASTEP instead of VASP; consequently, the defect energetics reported in Figure 4 in the original paper are not internally consistent. It is added in this Correction, indicating that more experimental and computational investigations of true band gaps of Mg3Sb2 are needed. 2. The (VMg(2) + MgI ) complex reported in the original paper is unstable and relaxes into a pristine Mg3Sb2 structure based on the results from NEB calculations. In addition, the penalty for the drifting of Mg(2) toward the MgI site is much lower than the formation energies of individual VMg(2) and MgI defects, indicating the higher probability of formation of an intermediate (VMg(2)+MgI) complex in comparison with the formation of VMg(2) and MgI, individually, which may contribute to the persistent p-type behavior for Mg-rich Mg3Sb2,.",

author = "Chong, {Xiao Yu} and Guan, {Pin Wen} and Yi Wang and Shang, {Shun Li} and {Soldan Palma}, {Jorge Paz} and Fivos Drymiotis and Ravi, {Vilupanur A.} and Star, {Kurt E.} and Fleurial, {Jean Pierre} and Liu, {Zi Kui}",

note = "Publisher Copyright: Copyright {\textcopyright} 2020 American Chemical Society.",

year = "2020",

month = jan,

day = "27",

doi = "10.1021/acsaem.9b02229",

language = "English (US)",

volume = "3",

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Chong, XY, Guan, PW, Wang, Y, Shang, SL, Soldan Palma, JP, Drymiotis, F, Ravi, VA, Star, KE, Fleurial, JP & Liu, ZK 2020, 'Erratum: Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg₃Sb₂ (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520)', ACS Applied Energy Materials, vol. 3, no. 1, pp. 1249-1252. https://doi.org/10.1021/acsaem.9b02229

Erratum: Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg₃Sb₂ (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520). / Chong, Xiao Yu; Guan, Pin Wen; Wang, Yi et al.
In: ACS Applied Energy Materials, Vol. 3, No. 1, 27.01.2020, p. 1249-1252.

Research output: Contribution to journal › Comment/debate › peer-review

TY - JOUR

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T2 - Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg3Sb2 (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520)

AU - Chong, Xiao Yu

AU - Guan, Pin Wen

AU - Wang, Yi

AU - Shang, Shun Li

AU - Soldan Palma, Jorge Paz

AU - Drymiotis, Fivos

AU - Ravi, Vilupanur A.

AU - Star, Kurt E.

AU - Fleurial, Jean Pierre

AU - Liu, Zi Kui

PY - 2020/1/27

Y1 - 2020/1/27

N2 - We appreciate critical reading of our work by Gorai and Stevanovic and thank them for pointing out errors in our paper. The following additions and corrections are presented. 1. The band gap presented in the original paper was from the calculations from CASTEP instead of VASP; consequently, the defect energetics reported in Figure 4 in the original paper are not internally consistent. It is added in this Correction, indicating that more experimental and computational investigations of true band gaps of Mg3Sb2 are needed. 2. The (VMg(2) + MgI ) complex reported in the original paper is unstable and relaxes into a pristine Mg3Sb2 structure based on the results from NEB calculations. In addition, the penalty for the drifting of Mg(2) toward the MgI site is much lower than the formation energies of individual VMg(2) and MgI defects, indicating the higher probability of formation of an intermediate (VMg(2)+MgI) complex in comparison with the formation of VMg(2) and MgI, individually, which may contribute to the persistent p-type behavior for Mg-rich Mg3Sb2,.

AB - We appreciate critical reading of our work by Gorai and Stevanovic and thank them for pointing out errors in our paper. The following additions and corrections are presented. 1. The band gap presented in the original paper was from the calculations from CASTEP instead of VASP; consequently, the defect energetics reported in Figure 4 in the original paper are not internally consistent. It is added in this Correction, indicating that more experimental and computational investigations of true band gaps of Mg3Sb2 are needed. 2. The (VMg(2) + MgI ) complex reported in the original paper is unstable and relaxes into a pristine Mg3Sb2 structure based on the results from NEB calculations. In addition, the penalty for the drifting of Mg(2) toward the MgI site is much lower than the formation energies of individual VMg(2) and MgI defects, indicating the higher probability of formation of an intermediate (VMg(2)+MgI) complex in comparison with the formation of VMg(2) and MgI, individually, which may contribute to the persistent p-type behavior for Mg-rich Mg3Sb2,.

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U2 - 10.1021/acsaem.9b02229

DO - 10.1021/acsaem.9b02229

M3 - Comment/debate

AN - SCOPUS:85079375283

SN - 2574-0962

VL - 3

SP - 1249

EP - 1252

JO - ACS Applied Energy Materials

JF - ACS Applied Energy Materials

IS - 1

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Erratum: Understanding the Intrinsic P-Type Behavior and Phase Stability of Thermoelectric α-Mg₃Sb₂ (ACS Applied Energy Materials (2018) 1:11 (6600−6608) DOI: 10.1021/acsaem.8b01520)

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