This month we continue our year-long celebration of ACS Catalysis’ 10th anniversary by highlighting impactful papers from across the globe. Today, we focus on contributions of authors from Germany and The Netherlands by selecting a dozen highly cited publications across the fields of heterogeneous catalysis, homogeneous catalysis, and biocatalysis (Table 1). Based on Web of Science data gathered on November 2, 2020. Most cited paper in biocatalysis or enzymology. Electrocatalysis features prominently among the publications listed in Table 1. In a research article that has been cited >1000 times, Reier and co-workers reported a comparative study of Ru, Ir, and Pt nanomaterials vs bulk materials for electrocatalytic water oxidation. This is the second most cited publication in ACS Catalysis. Likewise, a highlighted publication from Antonietti and co-workers, which overviews the roles of graphitic carbon nitride in catalysis, is the third most cited publication in ACS Catalysis. In a study focused on the electrocatalytic oxygen evolution reaction, Koper, Calle-Vallejo, and co-workers used combined experimental and computational efforts to study Ni bimetallic catalysts and found enhancement when using Fe, Mn, and Cr. In another contribution from the Koper group that is among our most highly cited contributions, the electrocatalytic conversion of carbon dioxide to formic acid using carbon-supported Pt–Pd catalysts was explored. In the field of molecular homogeneous catalysis, two contributions from the Ackermann group make our list. Both of these publications focus on catalytic C–H functionalization using first-row transition metals. One contribution provides a review of Co catalysis, while the second manuscript gives a perspective on Mn-catalyzed C–H conversions. Contributions from current members of the ACS Catalysis’ Editorial Advisory Board, Professors Bas de Bruin and Jorge Gascon, which are focused on the use of redox noninnocent ligands for homogeneous catalysis and an overview of catalysis with metal organic frameworks, respectively, also make the list of highly cited papers. We congratulate the authors highlighted in Table 1 and thank them, as well as other researchers from Germany and The Netherlands, for their many contributions to ACS Catalysis. We look forward to our continued work with the array of talented chemists from these countries as ACS Catalysis continues to publish the most impactful and innovative advancements across the field of catalysis. Views expressed in this editorial are those of the author and not necessarily the views of the ACS. This article has not yet been cited by other publications.

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ACS Catalysis重点介绍了来自全球的被引用最多的论文：德国和荷兰

本月，我们将重点介绍来自全球的有影响力的论文，以此来庆祝ACS Catalysis十周年庆典。今天，我们通过选择在非均相催化，均相催化和生物催化领域的十二篇高被引用的出版物来关注德国和荷兰的作者的贡献（表1）。基于2020年11月2日收集的Web of Science数据。在生物催化或酶学领域被引用最多的论文。在表1中列出的出版物中，电催化的特征最为突出。在被引用超过1000次的研究文章中，Reier及其同事报道了Ru，Ir和Pt纳米材料与用于电催化水氧化的块状材料的对比研究。这是ACS Catalysis中引用次数第二多的出版物。同样，Antonietti及其同事的重点出版物概述了石墨碳氮化物在催化中的作用，是ACS催化中引用次数最多的出版物。。在一项专注于电催化氧放出反应的研究中，Koper，Calle-Vallejo和他的同事们结合实验和计算成果，研究了Ni双金属催化剂，并发现在使用Fe，Mn和Cr时会得到增强。在Koper小组的另一项贡献中，即在我们引用最多的贡献中，我们探索了使用碳载Pt-Pd催化剂将二氧化碳电催化转化为甲酸的方法。在分子均相催化领域，来自Ackermann小组的两项贡献成为我们的榜单。这两个出版物都集中在使用第一行过渡金属的催化C–H官能化上。一篇文章回顾了Co的催化作用，而第二篇论文则概述了Mn催化的CH转化。当前成员的贡献ACS Catalysis的编辑顾问委员会Bas de Bruin和Jorge Gascon教授分别致力于氧化还原非纯配体的均相催化和金属有机骨架催化的概述，这些论文也被广泛引用。我们祝贺表1中突出显示的作者，并感谢他们以及来自德国和荷兰的其他研究人员对ACS催化的许多贡献。我们期待着与这些国家/地区的优秀化学家一起继续进行工作，如ACS催化继续发布整个催化领域最具影响力和创新性的进展。本社论中表达的观点只是作者的观点，不一定是ACS的观点。本文尚未被其他出版物引用。