The Nanoparticle Size Effect in Graphene Cutting: A 'Pac-Man' Mechanism

Qiu Zongyang; Song Li; Zhao Jin; Li Zhenyu; Yang Jinlong

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The Nanoparticle Size Effect in Graphene Cutting: A 'Pac-Man' Mechanism

机译：石墨烯切割中的纳米颗粒尺寸效应：“吃豆人”机制

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Metal-nanoparticle-catalyzed cutting is a promising way to produce graphene nanostructures with smooth and well-aligned edges. Using a multiscale simulation approach, we unambiguously identified a "Pac-Man" cutting mechanism, characterized by the metal nanoparticle "biting off" edge carbon atoms through a synergetic effect of multiple metal atoms. By comparing the reaction rates at different types of edge sites, we found that etching of an entire edge carbon row could be triggered by a single zigzag-site etching event, which explains the puzzling linear dependence of the overall carbon-atom etching rate on the nanoparticle surface area observed experimentally. With incorporation of the nanoparticle size effect, the mechanisms revealed herein open a new avenue to improve controllability in graphene cutting.

机译：金属纳米颗粒催化切割是一种生产具有光滑且对齐良好的边缘的石墨烯纳米结构的有前途的方法。使用多尺度模拟方法，我们明确地确定了“吃豆人”切割机制，其特征在于金属纳米粒子通过多个金属原子的协同效应“咬住”边缘碳原子。通过比较不同边缘位置类型的反应速率，我们发现整个边缘碳行的蚀刻可以由单个之字形位置蚀刻事件触发，这解释了总碳原子蚀刻速率对碳原子蚀刻速率的令人困惑的线性依赖性。实验观察到的纳米颗粒表面积。随着纳米粒子尺寸效应的结合，本文揭示的机理为改善石墨烯切割的可控制性开辟了一条新途径。

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《Angewandte Chemie》 |2016年第34期|共4页
作者
Qiu Zongyang; Song Li; Zhao Jin; Li Zhenyu; Yang Jinlong;
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正文语种 eng
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density functional calculations; graphene; multiscale simulations; nanoparticles; nickel;

机译：密度泛函计算;石墨烯;多尺度模拟;纳米粒子;镍;

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1. The Nanoparticle Size Effect in Graphene Cutting: A "Pac-Man" Mechanism [J] . Qiu Zongyang, Song Li, Zhao Jin, Angewandte Chemie . 2016,第34期

机译：石墨烯切割中的纳米颗粒尺寸效应：“吃豆人”机制
2. Mechanism of Transition-Metal Nanoparticle Catalytic Graphene Cutting [J] . Liang Ma, Jinlan Wang, Joanne Yip Journal of physical chemistry letters . 2014,第7期

机译：过渡金属纳米粒子催化石墨烯切割的机理
3. Removal mechanism of mitoxantrone by a green synthesized hybrid reduced graphene oxide @ iron nanoparticles [J] . Chemosphere . 2020,第May期

机译：绿色合成杂化还原氧化石墨烯@铁纳米粒子对米托蒽醌的去除机理
4. MATERIAL STRENGTHENING MECHANISMS AND THEIR CONTRIBUTION TO SIZE EFFECT IN MICRO-CUTTING [C] . Kai Liu, Sathyan Subbiah, Shreyes N. Melkote MED-vol.16-2; American Society of Mechanical Engineers(ASME) International Mechanical Engineering Congress and Exposition; 20051105-11; Orlando,FL(US) . 2005

机译：微切削中的材料强化机理及其对尺寸效应的贡献
5. Growth mechanism of graphene synthesized on Ni/Cu alloy through CVD method and use graphene as a diffusion barrier for thermoelectric device. [D] . Xue, Jiachen. 2016

机译：通过CVD法在Ni / Cu合金上合成石墨烯并利用石墨烯作为热电器件的扩散阻挡层的生长机理。
6. Differential Cytotoxicity of Different Sizes of Graphene Oxide Nanoparticles in Leydig (TM3) and Sertoli (TM4) Cells [O] . Sangiliyandi Gurunathan, Min-Hee Kang, Muniyandi Jeyaraj, 2019

机译：大小不同的氧化石墨烯纳米颗粒在Leydig（TM3）和Sertoli（TM4）细胞中的差异细胞毒性
7. Back Cover: The Nanoparticle Size Effect in Graphene Cutting: A “Pac-Man” Mechanism (Angew. Chem. Int. Ed. 34/2016) [O] . Zongyang Qiu, Li Song, Jin Zhao, 2016

机译：返回盖子：石墨烯切割中的纳米粒子尺寸效应：“PAC-MAN”机制（Angew.Chem.Int.Sc。34/2016）

The Nanoparticle Size Effect in Graphene Cutting: A 'Pac-Man' Mechanism

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