Comparative study between the fracture stress of poly- and single-crystalline graphene using a novel nanoelectromechanical system structure
Graphene is a two-dimensional carbon material with extraordinary mechanical properties. However, recent studies have found that the presence of grain boundaries significantly decreases fracture stress of graphene, warranting further investigation. This work reports the development of a new method to...
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| Published in | Micro & nano letters Vol. 12; no. 11; pp. 907 - 912 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Stevenage
The Institution of Engineering and Technology
01.11.2017
John Wiley & Sons, Inc |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1750-0443 1750-0443 |
| DOI | 10.1049/mnl.2017.0422 |
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| Abstract | Graphene is a two-dimensional carbon material with extraordinary mechanical properties. However, recent studies have found that the presence of grain boundaries significantly decreases fracture stress of graphene, warranting further investigation. This work reports the development of a new method to measure the fracture stress of monolayer graphene with a novel nanoelectromechanical system (NEMS) structure. Suspended graphene ribbon devices with a range of geometries were electrostatically actuated while the graphene sheet was pinned down with various nail structures. By recording the electromechanical responses at fracture and using finite element simulations, the fracture stress was calculated. Using this novel NEMS structure, the fracture stress of polycrystalline graphene grown using conventional chemical vapour deposition (CVD) and single-crystalline graphene grown using local feeding CVD were found to be ∼30 and ∼90 GPa, respectively. |
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| AbstractList | Graphene is a two‐dimensional carbon material with extraordinary mechanical properties. However, recent studies have found that the presence of grain boundaries significantly decreases fracture stress of graphene, warranting further investigation. This work reports the development of a new method to measure the fracture stress of monolayer graphene with a novel nanoelectromechanical system (NEMS) structure. Suspended graphene ribbon devices with a range of geometries were electrostatically actuated while the graphene sheet was pinned down with various nail structures. By recording the electromechanical responses at fracture and using finite element simulations, the fracture stress was calculated. Using this novel NEMS structure, the fracture stress of polycrystalline graphene grown using conventional chemical vapour deposition (CVD) and single‐crystalline graphene grown using local feeding CVD were found to be ∼30 and ∼90 GPa, respectively. Graphene is a two-dimensional carbon material with extraordinary mechanical properties. However, recent studies have found that the presence of grain boundaries significantly decreases fracture stress of graphene, warranting further investigation. This work reports the development of a new method to measure the fracture stress of monolayer graphene with a novel nanoelectromechanical system (NEMS) structure. Suspended graphene ribbon devices with a range of geometries were electrostatically actuated while the graphene sheet was pinned down with various nail structures. By recording the electromechanical responses at fracture and using finite element simulations, the fracture stress was calculated. Using this novel NEMS structure, the fracture stress of polycrystalline graphene grown using conventional chemical vapour deposition (CVD) and single-crystalline graphene grown using local feeding CVD were found to be ~30 and ~90 GPa, respectively. |
| Author | Xie, Ya-Hong Chen, Qi Ng, Jimmy Wang, Albert Wu, Tianru |
| Author_xml | – sequence: 1 givenname: Jimmy surname: Ng fullname: Ng, Jimmy email: ngjimmy310@ucla.edu organization: 1Department of Materials Science and Engineering, University of California Los Angeles, Los Angeles, CA, USA – sequence: 2 givenname: Qi surname: Chen fullname: Chen, Qi organization: 2Department of Electrical and Computer Engineering, University of California Riverside, Riverside, CA, USA – sequence: 3 givenname: Ya-Hong surname: Xie fullname: Xie, Ya-Hong organization: 1Department of Materials Science and Engineering, University of California Los Angeles, Los Angeles, CA, USA – sequence: 4 givenname: Albert surname: Wang fullname: Wang, Albert organization: 2Department of Electrical and Computer Engineering, University of California Riverside, Riverside, CA, USA – sequence: 5 givenname: Tianru surname: Wu fullname: Wu, Tianru organization: 3State Key Laboratory of Functional Materials for Informatics, Shanghai Institute of Microsystems and Information Technology, Chinese Academy of Sciences, 865 Changning Road, Shanghai 200050, People's Republic of China |
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| Cites_doi | 10.1109/NEMS.2017.8017044 10.1039/c2nr31317k 10.1016/j.carbon.2013.05.052 10.1126/science.1102896 10.1021/nl9021946 10.1126/science.1157996 10.1080/10408430903505036 10.1038/nature04233 10.1016/j.bios.2011.05.039 10.1021/nl300901a 10.1088/0960‐1317/12/4/319 10.1109/LED.2016.2544343 10.1038/nmat4170 10.1038/nature09718 10.1063/1.4947446 10.1038/nmat4477 |
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| Keywords | monolayer graphene electromechanical responses C grain boundaries monolayers two-dimensional carbon material polycrystalline graphene graphene mechanical properties fracture electrostatical actuation novel nanoelectromechanical system structure suspended graphene ribbon devices chemical vapour deposition graphene sheet local feeding CVD fracture stress nail structures hnite element simulations novel NEMS structure single-crystalline graphene graphene devices nanoelectromechanical devices |
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| Snippet | Graphene is a two-dimensional carbon material with extraordinary mechanical properties. However, recent studies have found that the presence of grain... Graphene is a two‐dimensional carbon material with extraordinary mechanical properties. However, recent studies have found that the presence of grain... |
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| SubjectTerms | Brittleness Chemical vapor deposition chemical vapour deposition Crystal growth Crystal structure Crystallinity electromechanical responses electrostatical actuation Finite element method fracture fracture stress Fracture toughness Grain boundaries Graphene graphene devices graphene sheet hnite element simulations local feeding CVD Mechanical properties monolayer graphene monolayers nail structures nanoelectromechanical devices Nanoelectromechanical systems novel nanoelectromechanical system structure novel NEMS structure polycrystalline graphene Single crystals single‐crystalline graphene Special Issue: Selected Papers from The 12th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2017) Stresses suspended graphene ribbon devices two‐dimensional carbon material |
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| Title | Comparative study between the fracture stress of poly- and single-crystalline graphene using a novel nanoelectromechanical system structure |
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