Nanosecond laser shock detonation of nanodiamonds:from laser-matter interaction to graphite-to-diamond phase transition  

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作  者:Xing Zhang Haofan Sun Bo Mao Rui Dai Houlong Zhuang Yiliang Liao Qiong Nian 

机构地区:[1]Department of Industrial and Manufacturing Systems Engineering,Iowa State University,Ames,IA 50011,United States of America [2]School of Engineering for Matter,Transport and Energy,Arizona State University,Tempe,AZ 85287,United States of America [3]School of Materials Science and Engineering,Shanghai Jiao Tong University,Shanghai 200240,People’s Republic of China

出  处:《International Journal of Extreme Manufacturing》2022年第1期120-131,共12页极端制造(英文)

基  金:National Science Foundation(NSF)under award numbers CMMI-1826439 and CMMI-1825739。

摘  要:Nanodiamonds(NDs)have been widely explored for applications in drug delivery,optical bioimaging,sensors,quantum computing,and others.Room-temperature nanomanufacturing of NDs in open air using confined laser shock detonation(CLSD)emerges as a novel manufacturing strategy for ND fabrication.However,the fundamental process mechanism remains unclear.This work investigates the underlying mechanisms responsible for nanomanufacturing of NDs during CLSD with a focus on the laser-matter interaction,the role of the confining effect,and the graphite-to-diamond transition.Specifically,a first-principles model is integrated with a molecular dynamics simulation to describe the laser-induced thermo-hydrodynamic phenomena and the graphite-to-diamond phase transition during CLSD.The simulation results elucidate the confining effect in determining the material’s responses to laser irradiation in terms of the temporal and spatial evolutions of temperature,pressure,electron number density,and particle velocity.The integrated model demonstrates the capability of predicting the laser energy threshold for ND synthesis and the efficiency of ND nucleation under varying processing parameters.This research will provide significant insights into CLSD and advance this nanomanufacturing strategy for the fabrication of NDs and other high-temperature-high-pressure synthesized nanomaterials towards extensive applications.

关 键 词:NANODIAMOND confined laser shock detonation first-principles modeling molecular dynamics simulation graphite-to-diamond transition 

分 类 号:TB383.1[一般工业技术—材料科学与工程] TN249[电子电信—物理电子学]

 

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