-
公开(公告)号:US10408871B2
公开(公告)日:2019-09-10
申请号:US15598223
申请日:2017-05-17
发明人: Jiang-Tao Wang , Xiang Jin , Peng Liu , Yang Wei , Kai-Li Jiang , Shou-Shan Fan
摘要: The disclosure relates to a method for calculating surface electric field distribution of nanostructures. The method includes the following steps of: providing a nanostructure sample located on an insulated layer of a substrate; spraying first charged nanoparticles to the insulated surface; blowing vapor to the insulated surface and imaging the first charged nanoparticles via an optical microscope, recording the width w between the first charged nanoparticles and the nanostructure sample, and obtaining the voltage U of the nanostructure sample by an equation.
-
公开(公告)号:US11811337B2
公开(公告)日:2023-11-07
申请号:US16996686
申请日:2020-08-18
发明人: Guang Wang , He Ma , Xiang Jin , Hua Yuan , Yang Wei , Qun-Qing Li , Kai-Li Jiang , Shou-Shan Fan
IPC分类号: H02N99/00 , B82Y30/00 , C23C16/56 , C23C16/455 , C23C16/40
CPC分类号: H02N99/00 , B82Y30/00 , C23C16/403 , C23C16/45555 , C23C16/56
摘要: A nanofiber actuator comprises a composite structure and a vanadium dioxide layer. The composite structure comprises a carbon nanotube wire and an aluminum oxide layer. The aluminum oxide layer is coated on a surface of the carbon nanotube wire, and the aluminum oxide layer and the carbon nanotube wire are located coaxially with each other. The vanadium dioxide layer is coated on a surface of the composite structure, and the vanadium dioxide layer and the composite structure are located non-coaxially with each other.
-
公开(公告)号:US10696032B2
公开(公告)日:2020-06-30
申请号:US16119700
申请日:2018-08-31
发明人: Xiang Jin , Zi-Peng Wu , Wen-Tao Miao , Kai-Li Jiang , Shou-Shan Fan
IPC分类号: B29C65/00 , B32B37/12 , B32B5/16 , B32B9/04 , C09J7/38 , C09J5/00 , B32B7/03 , C08J5/12 , B82Y30/00 , B82Y40/00 , B29C65/02 , B29C65/50 , B29C65/76 , B32B7/035
摘要: A bonding method utilizing carbon nanotubes provides first and second objects to be bonded and a carbon nanotube structure. The carbon nanotube structure comprises a super-aligned carbon nanotube film comprising carbon nanotubes, the carbon nanotubes extending substantially along a same direction. The carbon nanotube structure is laid on surface of first object and surface of second object is pressed onto the carbon nanotube structure. Pressure being applied to the first object and the second object bonds the two together.
-
公开(公告)号:US10386316B2
公开(公告)日:2019-08-20
申请号:US15598205
申请日:2017-05-17
发明人: Jiang-Tao Wang , Xiang Jin , Peng Liu , Yang Wei , Kai-Li Jiang , Shou-Shan Fan
IPC分类号: H01L51/00 , G01N27/02 , H01L21/66 , C23C16/26 , C23C16/46 , G01N27/22 , G01R15/12 , G01R29/24 , G01R31/02 , C23C16/52 , G01N27/04 , C01B32/158 , B82Y40/00
摘要: A device for in-situ measuring electrical properties of a carbon nanotube array comprises a chamber, a substrate, a first electrode, a connecting wire, a second electrode, a support structure, and a measuring meter. The substrate, the first electrode, the connecting wire, the second electrode, and the support structure are located inside of the chamber. The measuring meter is located outside of the chamber, and the measuring meter is electrically connected to the first electrode and the second electrode. The first electrode defines a cavity, and the substrate is suspended in the cavity by interaction of the support structure, the second electrode, and the connecting wire.
-
公开(公告)号:US11253878B2
公开(公告)日:2022-02-22
申请号:US16847956
申请日:2020-04-14
发明人: Xiang Jin , Jiang-Tao Wang , Peng Liu , Yang Wei , Kai-Li Jiang , Shou-Shan Fan
摘要: The disclosure relates to a method for making charged nanoparticles, the method includes: providing a solution with a first solute; atomizing the solution into micro-scaled droplets; providing a charged electrode with at least one through-hole, a negative or positive electric potential is applied to the electrode; allowing the micro-scaled droplets to pass through the at least one through-hole.
-
公开(公告)号:US10483231B2
公开(公告)日:2019-11-19
申请号:US16143508
申请日:2018-09-27
发明人: Xiang Jin , Zi-Peng Wu , Wen-Tao Miao , Kai-Li Jiang , Shou-Shan Fan
IPC分类号: H01L21/30 , H01L23/00 , C01B32/158
摘要: A bonding method is provided. A sheet structure is placed on a substrate surface, and a surface roughness of a surface of the sheet structure is less than or equal to 1.0 micrometer. A carbon nanotube structure is laid on the surface of the sheet structure. Two ends of the carbon nanotube structure are in direct contact with the substrate surface. An organic solvent is added to the two ends of the carbon nanotube structure. An object is laid on the carbon nanotube structure, and a surface of the object being in direct contact with the carbon nanotube structure has a surface roughness less than or equal to 1.0 micrometer.
-
公开(公告)号:US11532448B2
公开(公告)日:2022-12-20
申请号:US16996702
申请日:2020-08-18
发明人: Guang Wang , He Ma , Xiang Jin , Hua Yuan , Yang Wei , Qun-Qing Li , Kai-Li Jiang , Shou-Shan Fan
IPC分类号: H01H37/46 , H01H37/32 , C01B32/158
摘要: A laser remote control switching system comprises a laser source and a control circuit. The control circuit comprises a power, an electronic device, a first electrode, a second electrode, and a photosensitive element electrically connected in sequence to form a loop. Each of the two nanofiber actuators comprises a composite structure and a vanadium dioxide layer. The composite structure comprises a carbon nanotube wire and an aluminum oxide layer. The aluminum oxide layer is coated on a surface of the carbon nanotube wire, and the aluminum oxide layer and the carbon nanotube wire are located coaxially with each other. The vanadium dioxide layer is coated on a surface of the composite structure, and the vanadium dioxide layer and the composite structure are located non-coaxially with each other.
-
公开(公告)号:US11190114B2
公开(公告)日:2021-11-30
申请号:US16996697
申请日:2020-08-18
发明人: Guang Wang , He Ma , Xiang Jin , Hua Yuan , Yang Wei , Qun-Qing Li , Kai-Li Jiang , Shou-Shan Fan
摘要: A nano manipulator comprises a base and a clamping structure. The clamping structure comprises two nanofiber actuators located on the base and spaced from each other. Each of the two nanofiber actuators comprises a composite structure and a vanadium dioxide layer. The composite structure comprises a carbon nanotube wire and an aluminum oxide layer. The aluminum oxide layer is coated on a surface of the carbon nanotube wire, and the aluminum oxide layer and the carbon nanotube wire are located coaxially with each other. The vanadium dioxide layer is coated on a surface of the composite structure, and the vanadium dioxide layer and the composite structure are located non-coaxially with each other.
-
公开(公告)号:US10661289B2
公开(公告)日:2020-05-26
申请号:US15598218
申请日:2017-05-17
发明人: Xiang Jin , Jiang-Tao Wang , Peng Liu , Yang Wei , Kai-Li Jiang , Shou-Shan Fan
摘要: The disclosure relates to a device for making charged nanoparticles, the device includes: an atomizer configured to atomize a solution into micro-scaled droplets; a first electrode and a second electrode substantially parallel with and spaced from each other, a power supply configured to apply a voltage between the first electrode and the second electrode, at least one first through-hole is defined on the first electrode and at least one second through-hole is defined on the second electrode to allow the micro-scaled droplets to pass through.
-
公开(公告)号:US10132767B2
公开(公告)日:2018-11-20
申请号:US15598281
申请日:2017-05-17
发明人: Jiang-Tao Wang , Xiang Jin , Peng Liu , Yang Wei , Kai-Li Jiang , Shou-Shan Fan
IPC分类号: G01R29/24 , G01N27/02 , H01L51/00 , H01L21/66 , C23C16/26 , C23C16/46 , G01N27/22 , G01R15/12 , G01R31/02 , C23C16/52 , B82Y40/00
摘要: A method for in-situ measuring electrical properties of carbon nanotubes includes placing a first electrode in a chamber, wherein the first electrode defines a cavity. A growth substrate is suspend inside of the cavity, and a catalyst layer is located on the growth substrate. A measuring meter having a first terminal and a second terminal opposite to the first terminal is provided. The first terminal is electrically connected to the first electrode, and the second terminal is electrically connected to the growth substrate. A carbon source gas, a protective gas, and hydrogen are supplied to the cavity, to grow the carbon nanotubes on the catalyst layer. The electrical properties of the carbon nanotubes are obtained by the measuring meter.
-
-
-
-
-
-
-
-
-
搜索结果
10 条记录 (耗时 0.02 秒)
