摘要
纳米线的空间定位与接头连接对制备和组装高性能的纳米功能单元至关重要,开发新材料体系的高性能互连结构一直是研究重点之一。使用单脉冲能量密度为22.3 mJ/cm^(2)的聚焦飞秒激光成功实现p型氧化铜(CuO)纳米线之间的互连,聚焦激光能量场会由CuO纳米线的几何效应在接头处产生局域场增强效应,在纳米线接头的界面处发生原子扩散,促使CuO互连结构在施加偏压为10 V的情况下所获得的电流响应强度较连接前提升3个数量级以上,达到与母材相同的水平,基于该结构的光电探测器在功率为25.3 mW卤素灯照射的条件下获得与母材性能一致的电流增幅比值。所得结果为制备基于纳米连接的小型化、高性能和多功能化的纳米线网络单元奠定基础。
Objective With the rapid development of nanotechnology,new devices are gradually developing toward miniaturization,complexity,multimaterial,and multifunction.Selective nanojoining of nanowires is essential for the fabrication and assembly of high-performance functional nanounits.The development of good quality nanojoined structures based on new material systems has attracted considerable attention.Owing to its high peak power and small heat-affected zone,the femtosecond laser has unique advantages in accurate selective nanojoining.It is difficult to choose the parameters of laser processing joint fabrication,and material selection of nanowires,thus far,laser irradiation has only realized the nanojoining of metal-metal nanowires,metal-semiconductor nanowires,and n-n type semiconductor nanowires.The nanojoining system of nanowires under laser irradiation is still imperfect and needs further improvement.Therefore,we propose a method to successfully nanojoin two p-type copper oxide(CuO)nanowires using the local energy field of femtosecond laser with high spatial and temporal accuracy.Simultaneously,we investigate the influence of different femtosecond laser energy inputs on the interconnection joint and fabricate optoelectronic devices based on the nanojoined structure.The results show that the electrical response and photoelectric properties of the nanowire structure fabricated under femtosecond laser irradiation are significantly improved compared with those before nanojoining and can reach the level of the base material on electric properties.Methods The CuO joints are prepared using the dry transfer method.The nanowires are ultrasonically dispersed into an ethanol solution and spread on the surface of a polydimethylsiloxane(PDMS)film.The suitable target nanowires are obtained using an optical imaging system and aligned with the test electrode of the substrate using light transmittance of the film.The substrate is heated to 120℃and held for 10--20 min to ensure that homogeneous joint of CuO nanowires is formed a
作者
肖宇
霍金鹏
孙天鸣
邢松龄
沈道智
林路禅
邹贵生
Xiao Yu;Huo Jinpeng;Sun Tianming;Xing Songling;Shen Daozhi;Lin Luchan;Zou Guisheng(Department of Mechanical Engineering,Tsinghua University,Beijing 100084,China;College of Materials Science and Engineering,Taiyuan University of Technology,Taiyuan,Shanxi 030024,China;Empa,Swiss Federal Laboratories for Materials Science and Technology,Dubendorf,Zurich 8600,Schweizerische Eidgenossenschaft)
出处
《中国激光》
EI
CAS
CSCD
北大核心
2021年第8期59-67,共9页
Chinese Journal of Lasers
基金
国家重点研发计划(2017YFB1104900)
国家自然科学基金(51775299,52075287,51520105007)。
关键词
材料
飞秒激光
纳米连接
氧化铜纳米线
纳米器件
materials
femtosecond laser
nanojoining
copper oxide nanowires
nano devices
