Eliminating nonuniform geometric effects for long-term stable electrochemical extraction of high-purity titanium

Zhiyuan Li; Shuqiang Jiao; Jun Zhu; Shijie Li; Zhaoliang Qu; Xiaodong Chen; Qi Wang; Shanyan Huang; Hao Sen Chen; Wei Li Song; Yingjun Liu; Dongbai Sun; Hongmin Zhu; Daining Fang

doi:10.1126/sciadv.ads7083

Eliminating nonuniform geometric effects for long-term stable electrochemical extraction of high-purity titanium

Zhiyuan Li, Shuqiang Jiao^*, Jun Zhu, Shijie Li, Zhaoliang Qu^*, Xiaodong Chen, Qi Wang, Shanyan Huang, Hao Sen Chen, Wei Li Song^*, Yingjun Liu, Dongbai Sun^*, Hongmin Zhu, Daining Fang

^*此作品的通讯作者

先进结构技术研究院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Electrorefining of low-grade titanium is one of the strategies for achieving high-purity titanium. However, the presence of nonuniform geometric effects would be induced to impact the nonuniform geometric distribution of overpotential, leading to impurity dissolution and nonuniform Ti deposition. Here, in situ high-temperature characterizations on the molten salt electrorefining process are applied to establish an anodic dissolution principle for quantitatively evaluating nonuniform geometric effects of electrode. For eliminating the nonuniform geometric effects, coaxial anode-cathode configurations are designed to promote the nonuniform anodic dissolution and nonuniform cathodic deposition. Consequently, the geometric uniformity of titanium products on the cathodes is substantially enhanced, and thus, long-term stable electrorefining process (~12 hours, ~330% increment compared to the electrode of reference configuration) and highly purified titanium products (99.2%) are achieved.

源语言	英语
文章编号	eads7083
期刊	Science advances
卷	11
期	12
DOI	https://doi.org/10.1126/sciadv.ads7083
出版状态	已出版 - 21 3月 2025

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Li, Z., Jiao, S., Zhu, J., Li, S., Qu, Z., Chen, X., Wang, Q., Huang, S., Chen, H. S., Song, W. L., Liu, Y., Sun, D., Zhu, H., & Fang, D. (2025). Eliminating nonuniform geometric effects for long-term stable electrochemical extraction of high-purity titanium. Science advances, 11(12), 文章 eads7083. https://doi.org/10.1126/sciadv.ads7083

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title = "Eliminating nonuniform geometric effects for long-term stable electrochemical extraction of high-purity titanium",

abstract = "Electrorefining of low-grade titanium is one of the strategies for achieving high-purity titanium. However, the presence of nonuniform geometric effects would be induced to impact the nonuniform geometric distribution of overpotential, leading to impurity dissolution and nonuniform Ti deposition. Here, in situ high-temperature characterizations on the molten salt electrorefining process are applied to establish an anodic dissolution principle for quantitatively evaluating nonuniform geometric effects of electrode. For eliminating the nonuniform geometric effects, coaxial anode-cathode configurations are designed to promote the nonuniform anodic dissolution and nonuniform cathodic deposition. Consequently, the geometric uniformity of titanium products on the cathodes is substantially enhanced, and thus, long-term stable electrorefining process (~12 hours, ~330% increment compared to the electrode of reference configuration) and highly purified titanium products (99.2%) are achieved.",

author = "Zhiyuan Li and Shuqiang Jiao and Jun Zhu and Shijie Li and Zhaoliang Qu and Xiaodong Chen and Qi Wang and Shanyan Huang and Chen, {Hao Sen} and Song, {Wei Li} and Yingjun Liu and Dongbai Sun and Hongmin Zhu and Daining Fang",

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year = "2025",

month = mar,

day = "21",

doi = "10.1126/sciadv.ads7083",

language = "English",

volume = "11",

journal = "Science advances",

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T1 - Eliminating nonuniform geometric effects for long-term stable electrochemical extraction of high-purity titanium

AU - Li, Zhiyuan

AU - Jiao, Shuqiang

AU - Zhu, Jun

AU - Li, Shijie

AU - Qu, Zhaoliang

AU - Chen, Xiaodong

AU - Wang, Qi

AU - Huang, Shanyan

AU - Chen, Hao Sen

AU - Song, Wei Li

AU - Liu, Yingjun

AU - Sun, Dongbai

AU - Zhu, Hongmin

AU - Fang, Daining

PY - 2025/3/21

Y1 - 2025/3/21

N2 - Electrorefining of low-grade titanium is one of the strategies for achieving high-purity titanium. However, the presence of nonuniform geometric effects would be induced to impact the nonuniform geometric distribution of overpotential, leading to impurity dissolution and nonuniform Ti deposition. Here, in situ high-temperature characterizations on the molten salt electrorefining process are applied to establish an anodic dissolution principle for quantitatively evaluating nonuniform geometric effects of electrode. For eliminating the nonuniform geometric effects, coaxial anode-cathode configurations are designed to promote the nonuniform anodic dissolution and nonuniform cathodic deposition. Consequently, the geometric uniformity of titanium products on the cathodes is substantially enhanced, and thus, long-term stable electrorefining process (~12 hours, ~330% increment compared to the electrode of reference configuration) and highly purified titanium products (99.2%) are achieved.

AB - Electrorefining of low-grade titanium is one of the strategies for achieving high-purity titanium. However, the presence of nonuniform geometric effects would be induced to impact the nonuniform geometric distribution of overpotential, leading to impurity dissolution and nonuniform Ti deposition. Here, in situ high-temperature characterizations on the molten salt electrorefining process are applied to establish an anodic dissolution principle for quantitatively evaluating nonuniform geometric effects of electrode. For eliminating the nonuniform geometric effects, coaxial anode-cathode configurations are designed to promote the nonuniform anodic dissolution and nonuniform cathodic deposition. Consequently, the geometric uniformity of titanium products on the cathodes is substantially enhanced, and thus, long-term stable electrorefining process (~12 hours, ~330% increment compared to the electrode of reference configuration) and highly purified titanium products (99.2%) are achieved.

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ER -

Eliminating nonuniform geometric effects for long-term stable electrochemical extraction of high-purity titanium

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