Due to an unintended oversight, this Comment was published online on November 6, 2020, after the Reply to Comment had been published online on October 26, 2020. Figure 1. PLE and PL spectra for Na₄Mg(WO₄)₃:Mn²⁺ synthesized in air. The insert PLE spectrum from 350 to 600 nm is collected by a higher sensitivity spectrometer. Figure 2. PLE spectrum from 350 to 630 nm for Na₄Mg(WO₄)₃:Mn²⁺ at 77 K. Figure 3. (a) Emission spectra of Na₄Mg(WO₄)₃:Mn²⁺ synthesized in air (black line) and in a reducing atmosphere (red line) under 280 nm excitation (b) and their normalized emission spectra. Figure 4. Room temperature EPR spectra of Na₄Mg(WO₄)₃ doped with manganese ions synthesized in air (black line) and in a reducing atmosphere (red line). The Supporting Information is available free of charge at https://pubs.acs.org/doi/10.1021/acs.chemmater.0c03089.

• XRD patterns of Na₄Mg_0.94(WO₄)₃:0.03Mn²⁺ synthesized in air and in a reducing atmosphere; wide-range XPS spectra of Na₄Mg_0.94(WO₄)₃:0.03Mn²⁺ synthesized in air and in a reducing atmosphere; and the element information on Na₄Mg_0.94(WO₄)₃:0.03Mn²⁺ phosphors synthesized in air and in a reducing atmosphere, which were collected by XPS analyses (PDF)

XRD patterns of Na₄Mg_0.94(WO₄)₃:0.03Mn²⁺ synthesized in air and in a reducing atmosphere; wide-range XPS spectra of Na₄Mg_0.94(WO₄)₃:0.03Mn²⁺ synthesized in air and in a reducing atmosphere; and the element information on Na₄Mg_0.94(WO₄)₃:0.03Mn²⁺ phosphors synthesized in air and in a reducing atmosphere, which were collected by XPS analyses (PDF) The authors declare no competing financial interest. Electronic Supporting Information files are available without a subscription to ACS Web Editions. The American Chemical Society holds a copyright ownership interest in any copyrightable Supporting Information. Files available from the ACS website may be downloaded for personal use only. Users are not otherwise permitted to reproduce, republish, redistribute, or sell any Supporting Information from the ACS website, either in whole or in part, in either machine-readable form or any other form without permission from the American Chemical Society. For permission to reproduce, republish and redistribute this material, requesters must process their own requests via the RightsLink permission system. Information about how to use the RightsLink permission system can be found at http://pubs.acs.org/page/copyright/permissions.html. This work was partially supported by the Start-up Fund (GXL2020006) and the Innovation Training Program for College Students in Nanjing Forestry University (Grant No. 2020NFUSPITP0694), the National Natural Science Foundation of China (Grant No. 11904186), and a project funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions (PADA). We thank Dr. Wenge Xiao from Zhejiang University for the helpful discussions. This article references 22 other publications.

中文翻译：

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评论“使用Mn ⁴⁺：Na ₄ Mg（WO ₄）₃荧光粉的频移发光温度计”

由于疏忽大意，该评论于2020年10月26日在线发表评论回复后于2020年11月6日在线发表。图1. Na ₄ Mg（WO ₄）₃：Mn的PLE和PL光谱在空气中合成²⁺。350到600 nm的插入PLE光谱由更高灵敏度的光谱仪收集。图2.在77 K下Na ₄ Mg（WO ₄）₃：Mn ²⁺在350至630 nm的PLE光谱。图3.（a）Na ₄ Mg（WO ₄）₃：Mn ^2+的发射光谱在空气中（黑线）和还原性气氛（红线）在280 nm激发下合成（b）及其归一化发射光谱。图4.掺有锰离子的Na ₄ Mg（WO ₄）₃在空气（黑线）和还原性气氛（红线）中的室温EPR谱。可从https://pubs.acs.org/doi/10.1021/acs.chemmater.0c03089免费获得支持信息。

• 在空气中和还原性气氛中合成的Na ₄ Mg _0.94（WO ₄）₃：0.03Mn ^2+的X射线衍射图；在空气和还原性气氛中合成的Na ₄ Mg _0.94（WO ₄）₃：0.03Mn ^2+的宽范围XPS光谱；通过XPS分析收集的有关在空气和还原性气氛中合成的Na ₄ Mg _0.94（WO ₄）₃：0.03Mn ²⁺荧光粉的元素信息（PDF）

在空气中和还原性气氛中合成的Na ₄ Mg _0.94（WO ₄）₃：0.03Mn ^2+的X射线衍射图；在空气和还原性气氛中合成的Na ₄ Mg _0.94（WO ₄）₃：0.03Mn ^2+的宽范围XPS光谱；Na ₄ Mg _0.94（WO ₄）₃：0.03Mn ²⁺的元素信息由XPS分析（PDF）收集的在空气和还原性气氛中合成的荧光粉作者宣称没有竞争性的财务利益。无需订阅ACS Web版本即可获得电子支持信息文件。美国化学学会在任何可版权保护的支持信息中均拥有版权权益。ACS网站上提供的文件只能下载供个人使用。未经美国化学学会许可，不得以其他方式允许用户以机器可读形式或任何其他形式全部或部分复制，重新发布，重新分发或出售ACS网站上的任何支持信息。为了获得复制，重新发布和重新分发此材料的许可，请求者必须通过RightsLink许可系统处理自己的请求。有关如何使用RightsLink权限系统的信息，请访问http://pubs.acs.org/page/copyright/permissions.html。这项工作得到了南京林业大学启动基金（GXL2020006）和大学生创新培训计划（No. 2020NFUSPITP0694），国家自然科学基金（No. 11904186）以及一个项目的部分支持。江苏省高等学校优先学术计划项目（PADA）资助。感谢浙江大学的肖文革博士的有益讨论。本文引用了其他22种出版物。这项工作得到了启动资金（GXL2020006）和南京林业大学面向大学生的创新培训计划（No. 2020NFUSPITP0694），国家自然科学基金（No. 11904186）以及一个项目的部分支持。江苏省高等学校优先学术计划项目（PADA）资助。感谢浙江大学的肖文革博士的有益讨论。本文引用了其他22种出版物。这项工作得到了南京林业大学启动基金（GXL2020006）和大学生创新培训计划（No. 2020NFUSPITP0694），国家自然科学基金（No. 11904186）以及一个项目的部分支持。江苏省高等学校优先学术计划项目（PADA）资助。感谢浙江大学的肖文革博士的有益讨论。本文引用了其他22种出版物。