Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712))

Yanghan Su; Junjie Shen; Xing Chen; Xiaobin Xu; Shaojun Shi; Xiaolin Wang; Fei Zhou; Xinyan Huang

doi:10.1016/j.est.2024.114837

Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712))

Yanghan Su, Junjie Shen, Xing Chen, Xiaobin Xu, Shaojun Shi, Xiaolin Wang, Fei Zhou, Xinyan Huang

Research output: Journal article publication › Comment/debate/erratum

Abstract

The authors regret that the printed version of the above article contained a number of errors. The correct and final version follows. The authors would like to apologise for any inconvenience caused. In the previous Table 1, due to our carelessness, we gave the wrong [Formula presented] value of capric acid (CA) and lauric acid (LA), which are not the correct value measured by our DSC tests. Table 1 is corrected to: [Table presented] Because the theoretical [Formula presented] value of the binary PCM in Table 3 are calculated based on Table 1, there are some calculation mistakes in previous Table 3. According to Table 1 in the revision, the data in Table 3 are also corrected as: [Table presented] On page 4, in Section 3.1, line 10 to 12, the sentence “the phase change point of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 19.68 °C, 24.80 °C, 28.54 °C, 34.45 °C, 38.57 °C and 48.21 °C.” should be revised as “the phase change points of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 20.16 °C, 24.87 °C, 28.54 °C, 34.45 °C, 38.57 °C and 47.21 °C.”. On page 4, in Section 3.1, line 13 to 18, and the sentence “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 153.59J/g, 154.21J/g, 154.56J/g, 172.15J/g, 168.45J/g and 178.73J/g. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57°C) and sufficient latent heat (168.45J/g)” should be revised as “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 152.29 J/g, 155.35 J/g, 156.20 J/g, 167.98 J/g, 170.71 J/g, 182.28 J/g, respectively. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57 °C) and sufficient latent heat (170.71 J/g).”.

Original language	English
Article number	114837
Journal	Journal of Energy Storage
Volume	106
DOIs	https://doi.org/10.1016/j.est.2024.114837
Publication status	Published - 15 Jan 2025

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
Energy Engineering and Power Technology
Electrical and Electronic Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.est.2024.114837

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Su, Y., Shen, J., Chen, X., Xu, X., Shi, S., Wang, X., Zhou, F., & Huang, X. (2025). Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712)). Journal of Energy Storage, 106, Article 114837. https://doi.org/10.1016/j.est.2024.114837

Su, Yanghan ; Shen, Junjie ; Chen, Xing et al. / Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712)). In: Journal of Energy Storage. 2025 ; Vol. 106.

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title = "Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712))",

abstract = "The authors regret that the printed version of the above article contained a number of errors. The correct and final version follows. The authors would like to apologise for any inconvenience caused. In the previous Table 1, due to our carelessness, we gave the wrong [Formula presented] value of capric acid (CA) and lauric acid (LA), which are not the correct value measured by our DSC tests. Table 1 is corrected to: [Table presented] Because the theoretical [Formula presented] value of the binary PCM in Table 3 are calculated based on Table 1, there are some calculation mistakes in previous Table 3. According to Table 1 in the revision, the data in Table 3 are also corrected as: [Table presented] On page 4, in Section 3.1, line 10 to 12, the sentence “the phase change point of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 19.68 °C, 24.80 °C, 28.54 °C, 34.45 °C, 38.57 °C and 48.21 °C.” should be revised as “the phase change points of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 20.16 °C, 24.87 °C, 28.54 °C, 34.45 °C, 38.57 °C and 47.21 °C.”. On page 4, in Section 3.1, line 13 to 18, and the sentence “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 153.59J/g, 154.21J/g, 154.56J/g, 172.15J/g, 168.45J/g and 178.73J/g. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57°C) and sufficient latent heat (168.45J/g)” should be revised as “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 152.29 J/g, 155.35 J/g, 156.20 J/g, 167.98 J/g, 170.71 J/g, 182.28 J/g, respectively. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57 °C) and sufficient latent heat (170.71 J/g).”.",

author = "Yanghan Su and Junjie Shen and Xing Chen and Xiaobin Xu and Shaojun Shi and Xiaolin Wang and Fei Zhou and Xinyan Huang",

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year = "2025",

month = jan,

day = "15",

doi = "10.1016/j.est.2024.114837",

language = "English",

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Su, Y, Shen, J, Chen, X, Xu, X, Shi, S, Wang, X, Zhou, F & Huang, X 2025, 'Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712))', Journal of Energy Storage, vol. 106, 114837. https://doi.org/10.1016/j.est.2024.114837

Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712)). / Su, Yanghan; Shen, Junjie; Chen, Xing et al.
In: Journal of Energy Storage, Vol. 106, 114837, 15.01.2025.

Research output: Journal article publication › Comment/debate/erratum

TY - JOUR

T1 - Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712))

AU - Su, Yanghan

AU - Shen, Junjie

AU - Chen, Xing

AU - Xu, Xiaobin

AU - Shi, Shaojun

AU - Wang, Xiaolin

AU - Zhou, Fei

AU - Huang, Xinyan

PY - 2025/1/15

Y1 - 2025/1/15

N2 - The authors regret that the printed version of the above article contained a number of errors. The correct and final version follows. The authors would like to apologise for any inconvenience caused. In the previous Table 1, due to our carelessness, we gave the wrong [Formula presented] value of capric acid (CA) and lauric acid (LA), which are not the correct value measured by our DSC tests. Table 1 is corrected to: [Table presented] Because the theoretical [Formula presented] value of the binary PCM in Table 3 are calculated based on Table 1, there are some calculation mistakes in previous Table 3. According to Table 1 in the revision, the data in Table 3 are also corrected as: [Table presented] On page 4, in Section 3.1, line 10 to 12, the sentence “the phase change point of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 19.68 °C, 24.80 °C, 28.54 °C, 34.45 °C, 38.57 °C and 48.21 °C.” should be revised as “the phase change points of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 20.16 °C, 24.87 °C, 28.54 °C, 34.45 °C, 38.57 °C and 47.21 °C.”. On page 4, in Section 3.1, line 13 to 18, and the sentence “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 153.59J/g, 154.21J/g, 154.56J/g, 172.15J/g, 168.45J/g and 178.73J/g. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57°C) and sufficient latent heat (168.45J/g)” should be revised as “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 152.29 J/g, 155.35 J/g, 156.20 J/g, 167.98 J/g, 170.71 J/g, 182.28 J/g, respectively. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57 °C) and sufficient latent heat (170.71 J/g).”.

AB - The authors regret that the printed version of the above article contained a number of errors. The correct and final version follows. The authors would like to apologise for any inconvenience caused. In the previous Table 1, due to our carelessness, we gave the wrong [Formula presented] value of capric acid (CA) and lauric acid (LA), which are not the correct value measured by our DSC tests. Table 1 is corrected to: [Table presented] Because the theoretical [Formula presented] value of the binary PCM in Table 3 are calculated based on Table 1, there are some calculation mistakes in previous Table 3. According to Table 1 in the revision, the data in Table 3 are also corrected as: [Table presented] On page 4, in Section 3.1, line 10 to 12, the sentence “the phase change point of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 19.68 °C, 24.80 °C, 28.54 °C, 34.45 °C, 38.57 °C and 48.21 °C.” should be revised as “the phase change points of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA and MA-SA are 20.16 °C, 24.87 °C, 28.54 °C, 34.45 °C, 38.57 °C and 47.21 °C.”. On page 4, in Section 3.1, line 13 to 18, and the sentence “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 153.59J/g, 154.21J/g, 154.56J/g, 172.15J/g, 168.45J/g and 178.73J/g. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57°C) and sufficient latent heat (168.45J/g)” should be revised as “The phase enthalpy values of CA-MA, CA-LA, CA-SA, LA-MA, LA-SA, and MA-SA are 152.29 J/g, 155.35 J/g, 156.20 J/g, 167.98 J/g, 170.71 J/g, 182.28 J/g, respectively. The theoretical findings indicate that the binary EO-PCM of LA-SA is ideal for BTM owing to its adequate phase change point (38.57 °C) and sufficient latent heat (170.71 J/g).”.

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U2 - 10.1016/j.est.2024.114837

DO - 10.1016/j.est.2024.114837

M3 - Comment/debate/erratum

AN - SCOPUS:85210675931

SN - 2352-152X

VL - 106

JO - Journal of Energy Storage

JF - Journal of Energy Storage

M1 - 114837

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Su Y, Shen J, Chen X, Xu X, Shi S, Wang X et al. Corrigendum to “Bio-based eutectic composite phase change materials with enhanced thermal conductivity and excellent shape stabilization for battery thermal management” [J. Energy Storage 100 (2024) 113712] (Journal of Energy Storage (2024) 100(PB), (S2352152X24032985), (10.1016/j.est.2024.113712)). Journal of Energy Storage. 2025 Jan 15;106:114837. doi: 10.1016/j.est.2024.114837