Chemisorption Manipulation by Adjusting the Carrier Concentration of the Adsorbent and Its Application to Adsorbate Identification

IF 9.6 1区化学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY ACS Materials Letters Pub Date : 2024-09-24 DOI:10.1021/acsmaterialslett.4c0172910.1021/acsmaterialslett.4c01729

Gyuweon Jung, Kangwook Choi, Suyeon Ju, Jaehyeon Kim, Wonjun Shin, Seongi Lee, Gyuho Yeom, Ryun-Han Koo, Young-Chang Joo, Woo Young Choi, Seungwu Han and Jong-Ho Lee*,

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Abstract

Progress in techniques for manipulating chemisorption has substantially advanced various applications. Herein, we present a widely applicable method to manipulate chemisorption by adjusting the carrier concentration of the adsorbent. We demonstrate that in both n- and p-type adsorbents, an increase in the electron concentration of the adsorbent enhances the chemisorption of oxidizing adsorbates. In contrast, a decrease in electron concentration promotes the chemisorption of reducing adsorbates. These findings are verified using first-principles calculations based on density functional theory. We demonstrate that the adsorption energy of the adsorbate and the energy difference between the adsorbate states and the Fermi energy can be manipulated by the proposed method. The manipulation method yields different effects for each adsorbate. Therefore, the degree of manipulation can be utilized as a unique fingerprint for adsorbate identification. The proposed method allows for repeatable manipulations and is compatible with existing techniques.

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通过调整吸附剂载体浓度进行化学吸附操作及其在吸附剂鉴定中的应用

化学吸附操作技术的进步极大地推动了各种应用的发展。在此，我们提出了一种广泛适用的方法，通过调整吸附剂的载流子浓度来操纵化学吸附。我们证明，在 n 型和 p 型吸附剂中，吸附剂电子浓度的增加会增强氧化吸附剂的化学吸附。相反，电子浓度降低则会促进还原性吸附剂的化学吸附。这些发现通过基于密度泛函理论的第一原理计算得到了验证。我们证明，吸附剂的吸附能以及吸附态与费米能之间的能差可以通过所提出的方法来操纵。操纵方法对每种吸附剂产生不同的效果。因此，操纵程度可用作吸附剂识别的独特指纹。所提出的方法可重复操作，并与现有技术兼容。

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来源期刊

ACS Materials Letters MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

14.60

自引率

3.50%

发文量

261

期刊介绍： ACS Materials Letters is a journal that publishes high-quality and urgent papers at the forefront of fundamental and applied research in the field of materials science. It aims to bridge the gap between materials and other disciplines such as chemistry, engineering, and biology. The journal encourages multidisciplinary and innovative research that addresses global challenges. Papers submitted to ACS Materials Letters should clearly demonstrate the need for rapid disclosure of key results. The journal is interested in various areas including the design, synthesis, characterization, and evaluation of emerging materials, understanding the relationships between structure, property, and performance, as well as developing materials for applications in energy, environment, biomedical, electronics, and catalysis. The journal has a 2-year impact factor of 11.4 and is dedicated to publishing transformative materials research with fast processing times. The editors and staff of ACS Materials Letters actively participate in major scientific conferences and engage closely with readers and authors. The journal also maintains an active presence on social media to provide authors with greater visibility.

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