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Preparation of graphene on SiC by laser-accelerated pulsed ion beams

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ã€Authorã€‘ Danqing Zhou;Dongyu Li;Yuhan Chen;Minjian Wu;Tong Yang;Hao Cheng;Yuze Li;Yi Chen;Yue Li;Yixing Geng;Yanying Zhao;Chen Lin;Xueqing Yan;Ziqiang Zhao;State Key Laboratory of Nuclear Physics and Technology, Peking University;Beijing Laser Acceleration Innovation Center;Institute of Guangdong Laser Plasma Technology;

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ã€æœºæž„ã€‘ State Key Laboratory of Nuclear Physics and Technology, Peking Universityï¼› Beijing Laser Acceleration Innovation Centerï¼› Institute of Guangdong Laser Plasma Technologyï¼›

ã€æ‘˜è¦ã€‘ Laser-accelerated ion beams(LIBs) have been increasingly applied in the field of material irradiation in recent years due to the unique properties of ultra-short beam duration, extremely high beam current, etc. Here we explore an application of using laser-accelerated ion beams to prepare graphene. The pulsed LIBs produced a great instantaneous beam current and thermal effect on the SiC samples with a shooting frequency of 1 Hz. In the experiment, we controlled the deposition dose by adjusting the number of shootings and the irradiating current by adjusting the distance between the sample and the ion source. During annealing at 1100â„ƒ, we found that the 190 shots ion beams allowed more carbon atoms to self-assemble into graphene than the 10 shots case. By comparing with the controlled experiment based on ion beams from a traditional ion accelerator, we found that the laser-accelerated ion beams could cause greater damage in a very short time. Significant thermal effect was induced when the irradiation distance was reduced to less than 1 cm, which could make partial SiC self-annealing to prepare graphene dots directly. The special effects of LIBs indicate their vital role to change the structure of the irradiation sample.æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ Laser-accelerated ion beams(LIBs) have been increasingly applied in the field of material irradiation in recent years due to the unique properties of ultra-short beam duration, extremely high beam current, etc. Here we explore an application of using laser-accelerated ion beams to prepare graphene. The pulsed LIBs produced a great instantaneous beam current and thermal effect on the SiC samples with a shooting frequency of 1 Hz. In the experiment, we controlled the deposition dose by adjusting the number of shootings and the irradiating current by adjusting the distance between the sample and the ion source. During annealing at 1100â„ƒ, we found that the 190 shots ion beams allowed more carbon atoms to self-assemble into graphene than the 10 shots case. By comparing with the controlled experiment based on ion beams from a traditional ion accelerator, we found that the laser-accelerated ion beams could cause greater damage in a very short time. Significant thermal effect was induced when the irradiation distance was reduced to less than 1 cm, which could make partial SiC self-annealing to prepare graphene dots directly. The special effects of LIBs indicate their vital role to change the structure of the irradiation sample.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ laser ion accelerationï¼› grapheneï¼› self-annealingï¼›
ã€Key wordsã€‘ laser ion accelerationï¼› grapheneï¼› self-annealingï¼›

ã€åŸºé‡‘ã€‘ Project supported by the National Natural Science Foundation of China (Grant Nos. 11875077, 11975037, and 11921006);the National Grand Instrument Project of China (Grant Nos. 2019YFF01014400 and 2019YFF01014404)

ã€æ–‡çŒ®å‡ºå¤„ã€‘ Chinese Physics B ,ä¸å›½ç‰©ç†B , ç¼–è¾‘éƒ¨é‚®ç®± ,2021å¹´11æœŸ

ã€åˆ†ç±»å·ã€‘TN249;TQ127.11
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