揭示光催化剂表征中常见的误解

IF 26 1区材料科学 Q1 CHEMISTRY, PHYSICAL

Advanced Energy Materials Pub Date : 2025-06-30 DOI:10.1002/aenm.202501192

Roland Marschall, Lion Schumacher, Jennifer Strunk

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引用次数: 0

摘要

大约半个世纪以来对光催化的深入研究无疑促进了科学的进步，例如，在新材料的设计和理解、反应条件的优化以及反应途径的建议方面。然而，这个高度跨学科和复杂的研究领域也受到许多文章发表的误解和有缺陷的结论的困扰。有时，一般的物理或热力学原理没有或不完全被考虑在内，或者实验技术被错误地应用。这不仅对试图重现工作并将其作为工作基础的研究人员提出了严峻的挑战，而且对旨在使用已发表数据进行机器驱动的科学进步的数据科学家也提出了严峻的挑战。在本文中，收集了常见的误解，并提供了如何避免它们的详细解释。这些涵盖了从材料制备到材料表征，最后到光催化测试的所有科学步骤。从而为初入该领域的研究人员提供了明确的指导方针，希望光催化的结果和结论的发表能够全面提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Shedding Light on Common Misinterpretations in Photocatalyst Characterization

Roughly half a century of intense research in photocatalysis has undoubtedly allowed scientific progress, for example, in the design and understanding of new materials, the optimization of reaction conditions, and the suggestion of reaction pathways. However, this highly interdisciplinary and complex research field is also suffering from the publication of many articles presenting misinterpretations and flawed conclusions. Occasionally, general physical or thermodynamic principles are not, or incompletely, taken into account, or experimental techniques are incorrectly applied. This presents a severe challenge, not only for researchers attempting to reproduce the work and to use it as a foundation for their work, but also for data scientists aiming to use published data for machine‐driven scientific progress. In the current article, common misconceptions are collected and provided with detailed explanations on how to avoid them. These span all scientific steps from material preparation over material characterization, and eventually photocatalytic testing. Thus, clear guidelines are provided for researchers new to the field, and it is hoped that the publication of results and conclusions in photocatalysis will improve overall.

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来源期刊

Advanced Energy Materials CHEMISTRY, PHYSICAL-ENERGY & FUELS

CiteScore

41.90

自引率

4.00%

发文量

889

审稿时长

1.4 months

期刊介绍： Established in 2011, Advanced Energy Materials is an international, interdisciplinary, English-language journal that focuses on materials used in energy harvesting, conversion, and storage. It is regarded as a top-quality journal alongside Advanced Materials, Advanced Functional Materials, and Small. With a 2022 Impact Factor of 27.8, Advanced Energy Materials is considered a prime source for the best energy-related research. The journal covers a wide range of topics in energy-related research, including organic and inorganic photovoltaics, batteries and supercapacitors, fuel cells, hydrogen generation and storage, thermoelectrics, water splitting and photocatalysis, solar fuels and thermosolar power, magnetocalorics, and piezoelectronics. The readership of Advanced Energy Materials includes materials scientists, chemists, physicists, and engineers in both academia and industry. The journal is indexed in various databases and collections, such as Advanced Technologies & Aerospace Database, FIZ Karlsruhe, INSPEC (IET), Science Citation Index Expanded, Technology Collection, and Web of Science, among others.