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    • 6. 发明申请
    • Apparatus and method for manufacturing nano carbon
    • 纳米碳制造装置及方法
    • US20060133979A1
    • 2006-06-22
    • US10544133
    • 2004-02-10
    • Takeshi AzamiTakashi ManakoTsutomu YoshitakeYoshimi KuboSumio IijimaMasako YudasakaDaisuke Kasuya
    • Takeshi AzamiTakashi ManakoTsutomu YoshitakeYoshimi KuboSumio IijimaMasako YudasakaDaisuke Kasuya
    • C01B31/02B01J19/08
    • B82Y30/00B01J19/121B01J2219/0879B82Y40/00C01B32/18
    • A production method and a production apparatus for stable mass production of nanocarbon are provided. In a production chamber (107), a graphite rod (101) having a cylindrical shape is fixed to a rotation apparatus (115), and is made to be capable of rotating with the length direction of the graphite rod (101) serving as an axis, and also moving to the right or the left in the length direction. The side surface of the graphite rod (101) is irradiated with a laser beam (103) from a laser light source (111), and a nanocarbon collecting chamber (119) is disposed in the direction of generation of plumes (109). On the other hand, the surface irradiated with the laser beam (103) among the side surfaces of the graphite rod (101) is speedily rotated by the rotation apparatus (115) and is flattened by a cutting tool (105). Cut dusts of the graphite rod (101) generated by the cutting tool (105) are collected into a cut graphite collecting chamber (121) and separated from the generated carbon nanohorn aggregates (117).
    • 提供了用于稳定批量生产纳米碳的生产方法和生产设备。 在制造室(107)中,将具有圆筒形状的石墨棒(101)固定在旋转装置(115)上,使其能够沿石墨棒(101)的长度方向旋转, 并且还在长度方向上向右或向左移动。 石墨棒(101)的侧表面从激光源(111)被激光束(103)照射,并且在产生羽流(109)的方向上设置有纳米碳收集室(119)。 另一方面,在石墨棒(101)的侧面中用激光(103)照射的表面通过旋转装置(115)快速旋转,并被切割工具(105)变平。 由切割工具(105)产生的石墨棒(101)的切割灰尘被收集到切割的石墨收集室(121)中并与生成的碳纳米角骨料(117)分离。
    • 7. 发明申请
    • Nano-extraction method and nano-condensation methods for guest molecules incorporation into single-wall carbon nanotube
    • 纳米提取方法和客体分子纳入单壁碳纳米管的纳米缩合方法
    • US20050271807A1
    • 2005-12-08
    • US10895955
    • 2004-07-22
    • Sumio IljimaKumiko AjimaMasako Yudasaka
    • Sumio IljimaKumiko AjimaMasako Yudasaka
    • B82B3/00B01D15/00B01J20/20B05D7/00C01B31/02
    • B82Y40/00B01D15/00B01J20/20B01J20/205B82Y30/00C01B32/152C01B32/178C01B2202/02
    • The objects of this patent application are to provide a new nano-extraction method for guest molecules to be incorporated into single-wall carbon nanotube (SWNT) comprising: putting guest molecules in solvent, wherein the guest molecules have a poor affinity to the solvent and a strong affinity to single-wall carbon nanotube (SWNT) and the attractive force between the guest molecules and SWNT is greater than that between the guest molecules and solvent molecules and that between the solvent molecules and SWNT, ultrasonicating the solution including the solvent and quest molecules, adding single-wall carbon nanotube (SWNT) or single-wall carbon nanotubes (SWNTs) with opened tips and wall-holes in the solution, and leaving the SWNT-guest molecules-solvent mixture until becoming stable with the guest molecules incorporated into SWNT at room temperature, and a nano-condensation method for guest molecules to be incorporated into single-wall carbon nanotube (SWNT) comprising: dropping saturated solution including solvent and guest molecules having a strong affinity to the solvent and a strong affinity to single-wall carbon nanotube (SWNT) onto SWNT or SWNTs placed on a grid disk laid on filtration paper for sucking up the excess solution as quickly as possible.
    • 本专利申请的目的是为客体分子提供纳入单壁碳纳米管(SWNT)的新型纳米提取方法,包括:将客体分子置于溶剂中,其中客体分子对溶剂的亲和力差, 对单壁碳纳米管(SWNT)的强亲和力和客体分子与SWNT之间的吸引力大于客体分子和溶剂分子之间的吸引力,以及溶剂分子与SWNT之间的吸引力,超声波包含溶剂和任务的溶液 分子,在溶液中加入具有开口端和壁孔的单壁碳纳米管(SWNT)或单壁碳纳米管(SWNT),并留下SWNT-客体分子 - 溶剂混合物,直到使客体分子结合成稳定 SWNT在室温下的纳米缩合方法,以及将纳入到单壁碳纳米管(SWNT)中的客体分子的纳米缩合方法,包括:降低satura 包括对溶剂具有强亲和力的溶剂和客体分子,以及对放置在过滤纸上的网格盘上的单壁碳纳米管(SWNT)的强亲合力,以便尽可能快吸吮多余的溶液 。