Fabrication and characterization of reduced graphene oxide by atmospheric pressure plasma jet

Ying Zhao; Longwei Chen; Yuedong Meng

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Fabrication and characterization of reduced graphene oxide by atmospheric pressure plasma jet

机译：大气压等离子体射流制备和表征石墨烯氧化物的制备与表征

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A low-cost and fast reduction method for the fabrication of reduced graphene oxide (r-GO) by using a dielectric barrier discharge plasma jet under atmospheric pressure has been presented. Highly reduced r-GO with the carbon atomic ratio up to 87.43% is obtained in minutes. By using diagnostic instruments like XRD, Raman, scanning electron microscopy, transmission electron microscopy, FT-IR, and X-ray photoelectron spectroscopy, the morphology, chemical, and structural properties of r-GO are analyzed. Due to the relatively high bonding energy, the functional group of C—O—C is the dominant structure in r-GO. By using N 2 adsorption-desorption measurements, the specific surface area is calculated to be about 145 m 2 g ?1 . The porosity results indicate that r-GO is a mesoporous structure with the pore size ranging from 3 nm to 4 nm.

机译：已经介绍了通过在大气压下使用介电阻挡放电等离子体射流来制造石墨烯（R-Go）的低成本和快速减少方法。在几分钟内获得高度降低的R-GO碳原子比率高达87.43％。通过使用XRD，拉曼，扫描电子显微镜，透射电子显微镜，FT-IR和X射线光电子能谱等诊断仪器，分析了R-Go的形态，化学和结构性质。由于相对较高的粘合能量，C-O-C的官能团是R-GO中的主要结构。通过使用N 2吸附 - 解吸测量，特定表面积计算为约145m2g≤1。孔隙率结果表明R-GO是一种介孔结构，其孔径范围为3nm至4nm。

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《AIP Advances 》 |2020年第1期| 共7页
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Ying Zhao; Longwei Chen; Yuedong Meng;
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Surface and interface chemistryGrapheneX-ray diffractionTransmission electron microscopyRaman spectroscopyAtomic propertiesChemical bondingX-ray photoelectron spectroscopyPlasmasPolymers;

机译：表面和界面化学图形射线射线衍射电子显微镜光谱分性能化学键合射线光电子谱谱;

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1. Scan-Mode Atmospheric-Pressure Plasma Jet Processed Reduced Graphene Oxides for Quasi-Solid-State Gel-Electrolyte Supercapacitors [J] . Aliyah R. Hsu, Hung-Hua Chien, Chen-Yu Liao, Coatings . 2018 ,第2期

机译：用于准固态凝胶电解质超级电容器的扫描模式大气压等离子体喷射处理的还原石墨烯氧化物
2. Surface modification of carbon cloth anodes for microbial fuel cells using atmospheric-pressure plasma jet processed reduced graphene oxides (vol 7, pg 56433, 2017) [J] . Chang Shih-Hang, Huang Bo-Yen, Wan Ting-Hao, RSC Advances . 2018 ,第14期

机译：使用大气压等离子体射流进行微生物燃料电池的碳布阳极的表面改性，加工石墨烯氧化物（Vol 7，PG 56433,2017）
3. Surface modification of carbon cloth anodes for microbial fuel cells using atmospheric-pressure plasma jet processed reduced graphene oxides [J] . Chang Shih-Hang, Huang Bo-Yen, Wan Ting-Hao, RSC Advances . 2017 ,第89期

机译：使用大气压等离子体喷射处理碳布阳极用于微生物燃料电池的碳布阳极加工的石墨烯氧化物
4. Characterization of plasma based on the electrode size of atmospheric pressure plasma jet (APPJ) [C] . Jeyashri Veeraiah, Siti Khadijah Zaaba, Mohammad Taufiq Mustaffa International Conference on Biomedical Engineering . 2020

机译：基于大气压等离子体喷射电极尺寸的等离子体表征（APPJ）
5. Atmospheric pressure plasma jet process for carbon nanotube (CNT) growth: Characterization and composite fabrication. [D] . Chandrashekar, Anand. 2006

机译：用于碳纳米管（CNT）生长的大气压等离子体射流工艺：表征和复合材料制造。
6. Application of Atmospheric-Pressure-Plasma-Jet Modified Flexible Graphite Sheets in Reduced-Graphene-Oxide/Polyaniline Supercapacitors [O] . Yu-Chuan Hao, Nurzal Nurzal, Hung-Hua Chien, 2020

机译：大气压等离子射流改性柔性石墨片在氧化石墨烯/聚苯胺超级电容器中的应用
7. Correction: Surface modification of carbon cloth anodes for microbial fuel cells using atmospheric-pressure plasma jet processed reduced graphene oxides [O] . Shih-Hang Chang, Bo-Yen Huang, Ting-Hao Wan, 2018

机译：校正：使用大气压等离子体喷射加工的石墨烯氧化物的微生物燃料电池的碳布阳极表面改性

Fabrication and characterization of reduced graphene oxide by atmospheric pressure plasma jet

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