公开(公告)号：US07501024B2

公开(公告)日：2009-03-10

申请号：US10556088

申请日：2004-05-19

Applicant: Takeshi Azami ,  Daisuke Kasuya ,  Sumio Iijima ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Masako Yudasaka

Inventor： Takeshi Azami ,  Daisuke Kasuya ,  Sumio Iijima ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Masako Yudasaka

IPC: C30B25/06

CPC classification number: B82Y30/00 ,  B82Y40/00 ,  C01B32/18 ,  Y10T117/10 ,  Y10T117/1004 ,  Y10T117/1012

Abstract: A plume (109) is generated by irradiating a side face of a graphite rod (101) with a laser beam (103) to vaporize carbon. The vaporized carbon is introduced to a carbon nanohorn recovery chamber (119) through a recovery pipe (155), and the vaporized carbon is recovered as a carbon nanohorn assembly (117). A cooling tank (150) including liquid nitrogen (151) is arranged in the recovery pipe (155). While the cooling tank (150) controls the plume (109) at a low temperature, the cooling tank (150) cools the carbon vapor when the carbon vapor passes through the recovery pipe (155). The cooled carbon vapor is recovered as the carbon nanohorn assembly (117) which is controlled in the desired shape and dimensions.

Abstract translation: 通过用激光束（103）照射石墨棒（101）的侧面来汽化碳而产生羽流（109）。 蒸发的碳通过回收管（155）引入到碳纳米角回收室（119）中，并且蒸发的碳作为碳纳米角组件（117）回收。 包括液氮（151）的冷却箱（150）布置在回收管（155）中。 当冷却箱（150）在低温下控制羽流（109）时，当碳蒸汽通过回收管（155）时，冷却罐（150）冷却碳蒸汽。 冷却的碳蒸汽作为碳纳米角组件（117）回收，其被控制在所需的形状和尺寸。

公开(公告)号：US20070003468A1

公开(公告)日：2007-01-04

申请号：US10555064

申请日：2004-04-27

Applicant: Takeshi Azami ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Daisuke Kasuya ,  Masako Yudasaka

Inventor： Takeshi Azami ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Daisuke Kasuya ,  Masako Yudasaka

IPC: C01B31/02 ,  B01J19/08 ,  D01F9/127

CPC classification number: B82Y30/00 ,  B82Y40/00 ,  C01B32/162 ,  C01B32/18 ,  C01P2004/64 ,  C09C1/48 ,  D01F9/12

Abstract: A surface of a graphite target (139), irradiated with a laser beam (103), is formed in a plane. The graphite target (139) is held by a target holding unit (153) on a target supply plate (135). A plate holding unit (137) moves the target supply plate (135) in a translational manner, which allows an irradiation position of the laser beam (103) and the surface of the graphite target (139) to be relatively moved. A transportation pipe (141) communicated with a nanocarbon collecting chamber (119) is provided toward a direction in which a plume (109) is generated, and a generated carbon nanohorn aggregates (117) is collected in the nanocarbon collecting chamber (119).

Abstract translation: 在平面中形成用激光束（103）照射的石墨靶（139）的表面。 石墨靶（139）由目标保持单元（153）保持在目标供给板（135）上。 板保持单元（137）以平移方式移动目标供给板（135），这允许激光束（103）的照射位置和石墨靶（139）的表面相对移动。 沿着生成羽流（109）的方向设置与纳米碳收集室（119）连通的输送管（141），并将生成的碳纳米角集合体（117）收集在纳米碳收集室（119）中。

公开(公告)号：US20060133979A1

公开(公告)日：2006-06-22

申请号：US10544133

申请日：2004-02-10

Applicant: Takeshi Azami ,  Takashi Manako ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Masako Yudasaka ,  Daisuke Kasuya

Inventor： Takeshi Azami ,  Takashi Manako ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Masako Yudasaka ,  Daisuke Kasuya

IPC: C01B31/02 ,  B01J19/08

CPC classification number: B82Y30/00 ,  B01J19/121 ,  B01J2219/0879 ,  B82Y40/00 ,  C01B32/18

Abstract: 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).

Abstract translation: 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。

公开(公告)号：US07033070B2

公开(公告)日：2006-04-25

申请号：US10258960

申请日：2001-06-21

Applicant: Takeshi Azami

Inventor： Takeshi Azami

IPC: G01J5/00 ,  G01K13/00

CPC classification number: G01J5/00 ,  C30B13/22 ,  C30B13/28 ,  C30B29/06 ,  G01J5/0037 ,  G01J5/0044 ,  G01J5/041 ,  G01J5/08 ,  G01J5/0818 ,  G01J5/0862 ,  G01J5/0875 ,  G01J5/0896 ,  Y10T117/1004

Abstract: Temperature of molten silicon 1 in an infrared image furnace 2 including a halogen lamp 8 as a heating source to grow a single crystal of silicon in a floating-zone method is measured with high precision according to light radiated from the molten silicon 1. By disposing an optical path tube extending to the molten silicon 1, light propagating from the molten silicon 1 in a particular direction can be extracted. As a result, light radiated from the molten silicon 1 can be extracted while reducing the influence of disturbance of light from various directions such as light radiated from the halogen lamp 8, reflected light and scattered light thereof, and the like. Luminance of light thus extracted is measured by a CCD camera 7 to obtain the temperature according to the luminance, and hence the temperature can be measured with high precision using a measuring apparatus of a simple configuration.

Abstract translation: 根据从熔融硅1照射的光，以高精度测量包括作为加热源的卤素灯8的红外成像炉2中的熔融硅1的温度，以浮动区域法生长单晶。 通过设置延伸到熔融硅1的光路管，可以提取从熔融硅1沿特定方向传播的光。 结果，可以减少从熔融硅1辐射的光，同时减少来自卤素灯8，其反射光和散射光等的各种方向的光的干扰的影响。 通过CCD照相机7测量由此提取的光的亮度，以根据亮度获得温度，因此可以使用简单结构的测量装置以高精度测量温度。

公开(公告)号：US08882970B2

公开(公告)日：2014-11-11

申请号：US12226570

申请日：2007-04-19

Applicant: Takeshi Azami ,  Daisuke Kasuya ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Masako Yudasaka ,  Sumio Iijima ,  Eiji Fuchita

Inventor： Takeshi Azami ,  Daisuke Kasuya ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Masako Yudasaka ,  Sumio Iijima ,  Eiji Fuchita

IPC: B01J19/12 ,  B82Y40/00 ,  B01D50/00 ,  B01D45/02 ,  B01D46/02 ,  B01D46/48 ,  B01J8/00 ,  B82Y30/00 ,  C01B31/02

CPC classification number: B01D50/002 ,  B01D45/02 ,  B01D46/02 ,  B01D46/48 ,  B01J8/006 ,  B01J19/121 ,  B01J2219/0879 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/18

Abstract: An apparatus for manufacturing carbon nanohorns includes a production chamber configured to irradiate a solid carbon material with a laser beam to produce a product containing carbon nanohorns; and a separation mechanism configured to separate the product produced in the production chamber into a lightweight component and a heavyweight component. The heavyweight component includes carbon nanohorn aggregate with high purity, and high-purity carbon nanotubes can be obtained by collecting the heavyweight component.

Abstract translation: 一种用于制造碳纳米角的装置包括：制造室，其配置成用激光束照射固体碳材料，以制造含有碳纳米角的产品; 以及分离机构，其被配置为将在所述生产室中产生的产品分离成轻质部件和重量级部件。 重量级组分包括具有高纯度的碳纳米骨聚集体，并且通过收集重质组分可以获得高纯度碳纳米管。

公开(公告)号：US20070003469A1

公开(公告)日：2007-01-04

申请号：US10556088

申请日：2004-05-19

Applicant: Takeshi Azami ,  Daisuke Kasuya ,  Sumio Iijima ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Masako Yudasaka

Inventor： Takeshi Azami ,  Daisuke Kasuya ,  Sumio Iijima ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Masako Yudasaka

IPC: C01B31/02 ,  C23C14/00

CPC classification number: B82Y30/00 ,  B82Y40/00 ,  C01B32/18 ,  Y10T117/10 ,  Y10T117/1004 ,  Y10T117/1012

Abstract: A plume (109) is generated by irradiating a side face of a graphite rod (101) with a laser beam (103) to vaporize carbon. The vaporized carbon is introduced to a carbon nanohorn recovery chamber (119) through a recovery pipe (155), and the vaporized carbon is recovered as a carbon nanohorn assembly (117). A cooling tank (150) including liquid nitrogen (151) is arranged in the recovery pipe (155). While the cooling tank (150) controls the plume (109) at a low temperature, the cooling tank (150) cools the carbon vapor when the carbon vapor passes through the recovery pipe (155). The cooled carbon vapor is recovered as the carbon nanohorn assembly (117) which is controlled in the desired shape and dimensions.

Abstract translation: 通过用激光束（103）照射石墨棒（101）的侧面来汽化碳而产生羽流（109）。 蒸发的碳通过回收管（155）引入到碳纳米角回收室（119）中，并且蒸发的碳作为碳纳米角组件（117）回收。 包括液氮（151）的冷却箱（150）布置在回收管（155）中。 当冷却箱（150）在低温下控制羽流（109）时，当碳蒸汽通过回收管（155）时，冷却罐（150）冷却碳蒸汽。 冷却的碳蒸汽作为碳纳米角组件（117）回收，其被控制在所需的形状和尺寸。

公开(公告)号：US20060191781A1

公开(公告)日：2006-08-31

申请号：US10568386

申请日：2004-08-05

Applicant: Takeshi Azami ,  Sumio Iijima ,  Masako Yudasaka ,  Daisuke Kasuya

Inventor： Takeshi Azami ,  Sumio Iijima ,  Masako Yudasaka ,  Daisuke Kasuya

IPC: D01F9/12 ,  C01B31/00 ,  B01J19/08

CPC classification number: B82Y30/00 ,  B82Y40/00 ,  C01B32/162 ,  C01B32/164 ,  C01B32/18

Abstract: An apparatus for manufacturing nano-carbon including a laser source (111) which irradiates light to a surface of a graphite rod (101) and a nano-carbon recovery chamber (119) which recovers carbon vapor as nano-carbon, evaporated from the graphite rod (101) by irradiating light, has a contact surface being in contact with the surface of the graphite rod (101) and a holding roller (131) which movably holds the graphite rod (101) by frictional force generated between the contact surface and the surface of the graphite rod (101). The graphite rod (101) rotates and moves by the frictional force generated between the contact surface of the holding roller (131) and the surface of the graphite rod (101), thereby driving the holding roller (131) so that an irradiation position of the light irradiated to the surface of the graphite rod (101) covers over almost the entire area of the surface of the graphite rod (101).

Abstract translation: 一种纳米碳的制造装置，其特征在于，具备将石墨棒（101）的表面照射的激光源（111）和回收碳纳米碳的蒸气的纳米碳回收室（119）的纳米碳蒸发的装置 杆（101）通过照射光，具有与石墨棒（101）的表面接触的接触表面和保持辊（131），该保持辊通过在接触表面和接触表面之间产生的摩擦力可移动地保持石墨棒 石墨棒（101）的表面。 石墨棒（101）通过在保持辊（131）的接触表面和石墨棒（101）的表面之间产生的摩擦力而旋转并移动，由此驱动保持辊（131），使得照射位置 照射到石墨棒（101）的表面的光覆盖在石墨棒（101）的表面的几乎整个区域上。

公开(公告)号：US09620784B2

公开(公告)日：2017-04-11

申请号：US14118338

申请日：2012-05-15

Applicant: Takeshi Azami

Inventor： Takeshi Azami

IPC: H01M4/133 ,  H01M4/587 ,  H01M4/62 ,  H01M10/0525 ,  H01M4/02

CPC classification number: H01M4/625 ,  H01M4/133 ,  H01M4/587 ,  H01M4/621 ,  H01M10/0525 ,  H01M2004/021 ,  Y02T10/7011

Abstract: The purpose of the present invention is to provide a lithium-ion battery that exhibits excellent long-term life properties, does not suffer from rapid capacity degradation, and exhibits excellent charging/discharging characteristics in low-temperature environments. The present invention is directed to a negative electrode for a lithium ion battery, which comprises a negative electrode active material containing a graphite or an amorphous carbon, conductive additives containing a graphite, and a binder; and a lithium ion battery comprising this negative electrode. The negative electrode is characterized in that the negative electrode active material has a spherical or massive shape; the conductive additives have a platy shape; and part of an edge surface of the conductive additives contacts a surface of the negative electrode active material.

公开(公告)号：US20060237301A1

公开(公告)日：2006-10-26

申请号：US10566579

申请日：2004-08-05

Applicant: Takeshi Azami ,  Daisuke Kasuya ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Masako Yudasaka

Inventor： Takeshi Azami ,  Daisuke Kasuya ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Masako Yudasaka

IPC: D01F9/12 ,  B01J19/08 ,  C01B31/00

CPC classification number: B82Y30/00 ,  B01J19/121 ,  B01J2219/0886 ,  B82Y40/00 ,  C01B32/16 ,  C01B32/18

Abstract: In a nanocarbon manufacturing apparatus (183), a spray (181) is provided at a side face of a nanocarbon recovery chamber (119), and a mist (195) is sprayed on the entire nanocarbon recovery chamber (119) from the spray (181).

Abstract translation: 在纳米碳制造装置（183）中，在纳米碳回收室（119）的侧面设置有喷雾（181），并且从喷雾器（11A）向整个纳米碳回收室（119）喷雾（195） 181）。

公开(公告)号：US20060147647A1

公开(公告)日：2006-07-06

申请号：US10544400

申请日：2004-02-10

Applicant: Takeshi Azami ,  Takashi Manako ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Masako Yudasaka ,  Daisuke Kasuya

Inventor： Takeshi Azami ,  Takashi Manako ,  Tsutomu Yoshitake ,  Yoshimi Kubo ,  Sumio Iijima ,  Masako Yudasaka ,  Daisuke Kasuya

IPC: C08J7/04 ,  B05B5/025

CPC classification number: B82Y30/00 ,  B01J19/121 ,  B01J2219/0879 ,  B82Y40/00 ,  C01B32/18

Abstract: Nanocarbon is produced stably in a large amount. In a production chamber (107), a graphite rod (101) having a cylindrical shape is fixed to a rotation apparatus (115) and is made capable of rotating with its axis being in the length direction of the graphite rod (101) and movable to the right or the left in the length direction. A side surface of the graphite rod (101) is irradiated with a laser beam (103) from a laser light source (111). A nanocarbon collecting chamber (119) is disposed in the direction of generation of plumes (109) so as to collect the generated carbon nanohorn aggregates 117.

Abstract translation: 大量稳定地生产纳米碳。 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）上并使其轴线能够在石墨棒（101）的长度方向上旋转并可移动 在长度方向的右侧或左侧。 石墨棒（101）的侧表面用激光束（111）照射激光束（103）。 在产生羽流（109）的方向上设置纳米碳收集室（119），以收集生成的碳纳米角骨料117。