公开(公告)号：US12261239B2

公开(公告)日：2025-03-25

申请号：US18769404

申请日：2024-07-11

Applicant: Guangdong University of Technology

Inventor： Yun Chen ,  Yanhui Chen ,  Li Ma ,  Pengwei Lv ,  Hao Zhang ,  Maoxiang Hou ,  Xin Chen

IPC: H01L33/00 ,  H01L21/68 ,  H01L21/683 ,  H01L25/075

Abstract: A device for mass transfer of Mini-LEDs based on array water jet-based ejection, including a planar motion platform, a vision camera, an array water jet-type ejection unit, a Z-axis motion platform, a blue membrane, an operation platform and a transfer substrate. The vision camera and the array water jet-type ejection unit are provided on a side of the planar motion platform. The array water jet-type ejection unit includes a water jet channel and a through-hole array. The Z-axis motion platform is provided at a side of the planar motion platform near the vision camera, and is configured for placement of the blue membrane. Multiple Mini-LED chips are bonded to the blue membrane. The operation platform is spacedly provided at a side of the Z-axis motion platform away from the planar motion platform.

公开(公告)号：US11969771B2

公开(公告)日：2024-04-30

申请号：US18359139

申请日：2023-07-26

Applicant: Guangdong University of Technology

Inventor： Yun Chen ,  Biao Li ,  Aoke Song ,  Shankun Dong ,  Shengbao Lai ,  Maoxiang Hou ,  Xin Chen

IPC: B08B7/02 ,  B06B1/06 ,  G03F7/40

CPC classification number: B08B7/028 ,  B06B1/0688 ,  B06B2201/56 ,  B06B2201/71 ,  G03F7/405

Abstract: A method of fabricating a film vibration device, including: photoetching a surface of a silicon wafer to form a circular-hole array; etching an aluminum layer on the silicon wafer; etching the silicon wafer to form a through-hole array to obtain a porous silicon wafer; attaching a polyethylene terephthalate (PET) sheet to a side of the porous silicon wafer; ablating the PET sheet to obtain a porous PET film; attaching a polyvinylidene fluoride (PVDF) film to a lower side of the porous silicon wafer; performing vacuumization above the porous silicon wafer, while heating the PVDF film below the porous silicon wafer to create dome micro-structures on the PVDF film; and laminating the porous PET film on each of two sides of the PVDF film to obtain the film vibration device. This application also provides a cleaning device having the film vibration device.

公开(公告)号：US11969716B2

公开(公告)日：2024-04-30

申请号：US18339190

申请日：2023-06-21

Applicant: Guangdong University of Technology

Inventor： Yun Chen ,  Shengbao Lai ,  Biao Li ,  Zuohui Liu ,  Guanhai Wen ,  Maoxiang Hou ,  Xin Chen

IPC: B01J27/224 ,  B01J6/00 ,  B01J21/18 ,  B01J35/00 ,  B01J37/04 ,  B01J37/06 ,  B01J37/08 ,  C01B3/04

CPC classification number: B01J27/224 ,  B01J6/001 ,  B01J21/18 ,  B01J35/004 ,  B01J37/04 ,  B01J37/06 ,  B01J37/08 ,  C01B3/045

Abstract: This application discloses a silicon carbide (SiC)-loaded graphene photocatalyst for hydrogen production under visible light irradiation and a preparation method thereof. Pure SiC and pure black carbon are respectively prepared and mixed to obtain a mixture with a resistance less than 100Ω. Then the mixture was vacuumized and processed with a current pulse with an increasing voltage until a breakdown occurs, and subjected to ultrasonic stirring, centrifugal washing and vacuum drying in turn to obtain the SiC-loaded graphene photocatalyst. By means of the current pulse, a heterojunction is formed between SiC and graphene to improve the catalytic activity of the photocatalyst; and the photocatalytic hydrogen production rate of SiC nanoparticles can be enhanced after loaded on the graphene.

公开(公告)号：US11823405B1

公开(公告)日：2023-11-21

申请号：US18154557

申请日：2023-01-13

Applicant: GUANGDONG UNIVERSITY OF TECHNOLOGY

Inventor： Zhuojun Zheng ,  Jian Gao ,  Lanyu Zhang ,  Haixiang Deng ,  Yun Chen ,  Xin Chen

IPC: G06T7/521 ,  G01C3/02

CPC classification number: G06T7/521 ,  G01C3/02 ,  G06T2207/10028

Abstract: A three-dimensional measurement method comprises: converting a total number of levels of sawtooth fringes into a Gray code and acquiring a sawtooth slope coefficient; fusing the coefficient into a sawtooth fringe image to generate a target sawtooth fringe pattern; projecting each target sawtooth fringe pattern to a surface of a to-be-measured object through a projector, and collecting a deformed target sawtooth fringe pattern on the surface through a camera; solving a Gray code of each sawtooth fringe collection pattern at each pixel point according to a differential property of adjacent pixels in each sawtooth fringe collection pattern and solving a fringe level and a wrapped phase at each pixel point; calculating an absolute phase at each pixel point according to the fringe level and the wrapped phase at each pixel point, and reconstructing a three-dimensional point cloud through triangulation ranging to obtain a three-dimensional model of the to-be-measured object.

公开(公告)号：US11745160B2

公开(公告)日：2023-09-05

申请号：US17968960

申请日：2022-10-19

Applicant: Guangdong University of Technology

Inventor： Yun Chen ,  Yuanhui Guo ,  Bin Xie ,  Lu Yan ,  Maoxiang Hou ,  Xin Chen

IPC: B01J20/02 ,  B01J20/20 ,  B01J20/28 ,  B01J20/30 ,  B01J20/32 ,  C23C14/02 ,  C23C14/08 ,  C23C14/18 ,  C23C14/35 ,  C02F1/28 ,  C02F1/72 ,  C02F101/20 ,  C02F101/32

CPC classification number: B01J20/0229 ,  B01J20/205 ,  B01J20/28009 ,  B01J20/3078 ,  B01J20/3204 ,  B01J20/324 ,  B01J20/3214 ,  C23C14/022 ,  C23C14/08 ,  C23C14/185 ,  C23C14/35 ,  C02F1/281 ,  C02F1/283 ,  C02F1/288 ,  C02F1/725 ,  C02F2101/20 ,  C02F2101/327 ,  C02F2305/08

Abstract: A method of fabricating a magnetically-controlled graphene-based micro-/nano-motor includes: (a) mixing FeCl3 crystal powder with deionized water to obtain a FeCl3 solution; (b) completely immersing a carbon-based microsphere in the FeCl3 solution; transferring the carbon-based microsphere from the FeCl3 solution followed by heating to allow crystallization of FeCl3 on the surface of the carbon-based microsphere to obtain a FeCl3-carbon-based microsphere; (c) heating the FeCl3-carbon-based microsphere in a vacuum chamber until there is no moisture in the vacuum chamber; continuously removing gas in the vacuum chamber and introducing oxygen; and treating the FeCl3-carbon-based microsphere with a laser in an oxygen-enriched environment to obtain the magnetically controlled graphene-based micro-/nano-motor. A magnetically-controlled graphene-based micro-/nano-motor is further provided.

公开(公告)号：US10784400B2

公开(公告)日：2020-09-22

申请号：US16706713

申请日：2019-12-07

Applicant: Guangdong University of Technology

Inventor： Yun Chen ,  Dachuang Shi ,  Xin Chen ,  Qiang Liu ,  Jian Gao ,  Ching-Ping Wong

IPC: H01L33/00 ,  H01L21/683 ,  H01L23/00 ,  H01L33/62

Abstract: A mass transfer method for Micro-LEDs with a temperature-controlled adhesive layer, including: configuring a self-assembling structure based on Micro-LED dies and a transfer substrate having a self-receiving structure coated on its surface with a temperature-controlled adhesive layer; distributing the Micro-LED dies in water, soaking the transfer substrate in water and heating water to perform self-assembling; carrying out transferring and removing the transfer substrate to separate Micro-LED dies from a transfer substrate then onto a target substrate.

公开(公告)号：US12289932B2

公开(公告)日：2025-04-29

申请号：US18769413

申请日：2024-07-11

Applicant: Guangdong University of Technology

Inventor： Yun Chen ,  Yanhui Chen ,  Li Ma ,  Hao Zhang ,  Jintao Chen ,  Maoxiang Hou ,  Xin Chen

IPC: H10H20/01 ,  H01L21/67

Abstract: An ejector pin sliding on membrane-based device and method for mass transfer of mini light-emitting diodes (Mini-LEDs) are provided. The device includes a gantry transverse beam. The gantry transverse beam is provided with an ejector pin base, and the ejector pin base is configured to move along the gantry transverse beam. The ejector pin base is fixedly provided with a vision camera and an ejector pin. A blue membrane is horizontally provided at a side of the gantry transverse beam close to the ejector pin, and is spaced from the gantry beam. A surface of a side of the blue membrane away from the gantry transverse beam is adhesively provided with a plurality of Mini-LED chips arranged evenly. A transfer substrate is horizontally provided at a side of the blue membrane close to the plurality of Mini-LED chips, and is spaced from the blue membrane.

公开(公告)号：US12117782B2

公开(公告)日：2024-10-15

申请号：US18430513

申请日：2024-02-01

Applicant: GUANGDONG UNIVERSITY OF TECHNOLOGY

Inventor： Lanyu Zhang ,  Boyu Zhan ,  Jian Gao ,  Yachao Liu ,  Yun Chen ,  Xin Chen ,  Nan Huang ,  Huake Wang ,  Xuanzhu Chen

IPC: G05B13/04 ,  H02P25/06

CPC classification number: G05B13/042 ,  G05B13/048 ,  H02P25/06

Abstract: A linear motor motion control method, device, equipment and storage medium. The proposed invention uses an extended state observer constructed in advance based on the model parameters of the linear motor, and performs state estimation based on the total control amount of the linear motor and the actual displacement signal to obtain each observation signal. The phase advance controller is used to improve the estimated lag of the disturbance observation signal, and a model prediction controller built in advance based on the mathematical model of the linear motor is used to perform rolling optimization based on each observation signal to obtain the optimal control amount increment; The total control amount is updated based on the improved disturbance observation signal and the optimal control amount increment, and the corresponding drive signal is output to the drive end of the linear motor based on the updated total control amount.

公开(公告)号：US11689737B1

公开(公告)日：2023-06-27

申请号：US18065530

申请日：2022-12-13

Applicant: GUANGDONG UNIVERSITY OF TECHNOLOGY

Inventor： Jian Gao ,  Yuanyang Wei ,  Lanyu Zhang ,  Haixiang Deng ,  Yun Chen ,  Xin Chen

IPC: H04N7/12 ,  H04N19/513 ,  H04N19/172

CPC classification number: H04N19/513 ,  H04N19/172

Abstract: Disclosed are a plane coding target and an image splicing system and method applying the same. The plane coding target comprises a plurality of coding units distributed in an array, the coding unit comprises one central coding point, a plurality of normal coding points and at least one positioning point, and a positioning point distribution style of the positioning point is used for determining coordinates of the central coding point and the normal coding points in a coding unit coordinate system; and coding numerical value sequences of the coding units are different from each other and unique. The plane coding target can realize large-area coding and positioning functions, and the image splicing system applying the plane coding target can solve the problems of splicing error and error accumulation caused by an identification error of a splicing location, thus realizing large-range, high-precision and short-time two-dimensional image splicing.

公开(公告)号：US11211357B2

公开(公告)日：2021-12-28

申请号：US17037909

申请日：2020-09-30

Applicant: GUANGDONG UNIVERSITY OF TECHNOLOGY

Inventor： Yun Chen ,  Shuquan Ding ,  Yunbo He ,  Maoxiang Hou ,  Xin Chen ,  Jian Gao ,  Ni Zhao ,  Lanyu Zhang ,  Zhengping Wang

IPC: H01L23/00 ,  B23K20/00 ,  B23K26/34 ,  B23K37/047 ,  B23K101/32 ,  B23K103/00 ,  B23K103/08 ,  B23K101/38

Abstract: A method for processing an ultra-high density interconnect wire under light source guidance, comprising preparing a photo-thermal response conductive paste, and putting it into an air pressure injector; driving the air pressure injector; the air pressure injector extrudes the photo-thermal response conductive paste, so that the photo-thermal response conductive paste is connected with the first chip to form an interconnection wire; stopping extruding the photo-thermal response conductive paste, and driving the air pressure injector to pull off the interconnection wire; a linear light source emits light and irradiates on the interconnection wire to bend to an upper side of a second chip bonding pad; an extrusion mechanism presses a free end of the interconnection wire on the second chip bonding pad; the first chip and the second chip are subjected to glue dripping encapsulation.