CN108270038A - A kind of production system of graphene battery - Google Patents
A kind of production system of graphene battery Download PDFInfo
- Publication number
- CN108270038A CN108270038A CN201810091642.5A CN201810091642A CN108270038A CN 108270038 A CN108270038 A CN 108270038A CN 201810091642 A CN201810091642 A CN 201810091642A CN 108270038 A CN108270038 A CN 108270038A
- Authority
- CN
- China
- Prior art keywords
- copper foil
- workbench
- graphene
- carrier copper
- coating unit
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/05—Accumulators with non-aqueous electrolyte
- H01M10/058—Construction or manufacture
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
Abstract
The present invention discloses a kind of production system of graphene battery, it is characterized in that, it includes stent, the workbench on stent and the operating device on the workbench, further include the upper film device set on stent side, the upper film device includes the roller film frame for being used to place carrier copper foil volume of setting stent side, and the lay-on roll of workbench one end is arranged on, further include the film-coiling device for being arranged on the workbench other end.
Description
Technical field
Manufacturing equipment more particularly to a kind of production system for graphene battery the present invention relates to a kind of battery.
Background technology
Graphene due to its unique structure and photoelectric property become carbon material, nanometer technology, Condensed Matter Physics and
The research hotspot in the fields such as functional material.Graphene is most strong as presently found most thin, maximum intensity, electrical and thermal conductivity performance
A kind of novel nano-material, graphene are referred to as " dark fund ", are " kings of new material ", theoretical specific surface area is up to 2630m2/
G, available for effect transistor, electrode material, composite material, liquid crystal display material, sensor etc..
Graphene refers to mono-layer graphite in the narrow sense, thickness 0.335nm, only one layer of carbon atom, but within actually 10 layers
Graphite-structure be also referred to as graphene.And 10 layers or more are then referred to as graphite film.Each carbon atom of graphene is
Sp2 hydridization, and a remaining hydridization is contributed, and a remaining p orbital electron is contributed to form pi bond, pi-electron can move freely,
Assign graphene the excellent property led.Since former intermolecular forces are very strong, at normal temperatures, even if surrounding carbon atom collides, stone
The interference that electronics in black alkene is subject to also very little.It is not susceptible to scatter in transmission, 140 times of electron mobility about in silicon.
Its conductivity is the material that electric conductivity is best under room temperature, may be used on the manufacture of various electronic components up to 106s/m.
Graphene battery using the characteristic of lithium ion rapid, high volume shuttle between graphene surface and electrode, is opened
A kind of new energy battery sent out.But existing graphene battery is higher to preparation condition and environmental requirement, volume production difficulty
Greatly, it is of high cost.
Invention content
For above-mentioned technical problem of the prior art, the present invention provides a kind of production systems of graphene battery, real
The manufacture of existing multiple monomer graphene batteries, can also realize the manufacture of the monomer graphene battery of more specification polytypics, and structure is closed
Reason, it is flexibly controllable, it is simple to manufacture quick.
In order to solve above-mentioned technical problem, the present invention uses following technical proposals:
A kind of production system of graphene battery, which is characterized in that it includes stent, the workbench on stent and sets
Operating device on the workbench, further includes the upper film device set on stent side, and the upper film device includes setting
Stent side for placing the roller film frame of carrier copper foil volume and being arranged on the lay-on roll of workbench one end, further include
It is arranged on the film-coiling device of the workbench other end;
The workbench is thin-and-long, and for being operated on it to the carrier copper foil, grinding roller is sent in one end setting, separately
One end sets film-coiling device;A slip grooved rail is provided in the medial axis position of the workbench, the workbench is equal
It is divided into two symmetrical operating surfaces, two panels carrier copper foil can be operated simultaneously, the slip grooved rail is along the work
The length direction extension of platform, is provided with the multiple sliding blocks coordinated with it, each sliding block in the conduit for sliding grooved rail
On be fixedly installed a cross bar, the center of the sliding block and the cross bar is welded and fixed, and the cross bar can be by described
Sliding block drives to slidably reciprocate in the slip grooved rail along the length direction of the workbench;The grooved rail for sliding grooved rail
Inner section is " work " shape, and the outer cross section of the sliding block is " soil " shape, and the two cooperates;
The operating device includes graphene oxide solution coating unit, drying device, high-energy ray irradiation unit, cleaning dress
It puts, diaphragm material coating unit and anode confluence material application device, and the graphene oxide solution coating unit, drying
Device, high-energy ray irradiation unit, cleaning device, diaphragm material coating unit and anode confluence material application device successively by
The right end of the workbench is gradually arranged on, and each is correspondingly arranged at the lower section of a cross bar;
Controller is further included, when sending carrier copper foil described in two panels to the workbench, by the two panels carrier copper foil
Be fixed, by controller control the graphene oxide solution coating unit, high-energy ray irradiation unit, cleaning device, every
With certain under the drive of sliding block under the cross bar of membrane material coating unit and anode confluence material application device corresponding to it
Speed pass through successively from the carrier copper foil upper surface from right to left along the workbench and complete its operating process:
(1)The graphene solution coating unit is coated on carrier copper foil, and graphene oxide solution is coated on carrier copper foil
On, form graphene oxide layer;(2)The high-energy ray irradiation unit is irradiated graphene oxide layer, is reduced into
Graphene forms the negative electrode layer of graphene state and lug layer;(3)The cleaning device washes oxidation extra on carrier copper foil
Graphene layer;(4)The diaphragm material coating unit carries out carrier copper foil surface the coating of diaphragm material;(5)The anode
Anode confluence material is coated in anode layer by the material application device that converges, and forms anode layer;
The graphene oxide solution coating unit, drying device, high-energy ray irradiation unit, cleaning device, diaphragm material apply
Coating device and anode confluence material application device start respectively by time interval of 5s, slide from right to left complete its behaviour successively
Make process, stop at the work platform sinistral later, the work platform dextral is then returned to after operation is fully completed, from
Newly start new cycle.
Preferably, the graphene oxide solution coating unit, high-energy ray irradiation unit, cleaning device, diaphragm material
Coating unit and anode confluence material application device are different along the movement speed of the workbench and slack-off successively.
Preferably, exist(5)After the diaphragm material coating unit carries out carrier copper foil surface the coating of diaphragm material,
Carrier copper foil surface is irradiated by the high-energy ray irradiation unit, forms membrane layer.
Preferably, formed after membrane layer and carrier copper foil surface cleaned by cleaning device again, by liquid, not
Cured diaphragm material cleaning is complete.
Advantageous effect:
Compared with prior art, the beneficial effects of the invention are as follows:The present invention is in multiple working regions of delivery platform by more
A monomer graphene battery manufacturing equipment is sequentially completed one by one the manufacture of monomer graphene battery one by one, a working region
Interior priority is completed the desired trajectory coating of graphene oxide solution, the coating of high-energy ray reduced graphene, diaphragm material and is consolidated
Change, the coating of positive electrode and curing, the coating and curing of anode confluence material, so as to complete single monomer graphene battery
Manufacture, it is seen then that the manufacture of multiple monomer graphene batteries can be achieved in the present invention, can also realize the monomer graphite of more specification polytypics
The manufacture of alkene battery, it is rational in infrastructure, it is flexibly controllable, it is simple to manufacture fast, production cost is low, is produced by the way of solvent solution
Manufacture, operating mode is gentle pollution-free.
The graphene oxide solution coating unit, high-energy ray irradiation unit, cleaning device, diaphragm material coating unit
And anode confluence material application device is different along the movement speed of the workbench and slack-off successively, due to its speed
Degree it is slack-off successively, then the subsequent operating time each time be longer than before operating time, the operating process before on the one hand giving
It leaves time enough to be cooled down or dried, on the other hand, the progress that subsequent operating process also can be finer improves
Whole effect and efficiency.
Description of the drawings
Fig. 1 is the structural diagram of the present invention;
Fig. 2 is the structure diagram of the slip grooved rail of the present invention.
Specific embodiment
In order to make the purpose , technical scheme and advantage of the present invention be clearer, below in conjunction with specific embodiment, to this
Invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, not
For limiting the present invention.
The present invention provides provide a kind of production system of graphene battery as shown in Figure 1, which is characterized in that it includes
Stent 1, the workbench 2 on stent 1 and the operating device on the workbench 2, further include set on stent
The upper film device of side, the upper film device include the roller film frame 4 for being used to place carrier copper foil volume 3 of 1 side of setting stent,
And the lay-on roll 5 of 2 one end of workbench is arranged on, further include the film-coiling device 6 for being arranged on the workbench other end;
The workbench 2 is thin-and-long, and for being operated on it to the carrier copper foil, grinding roller 5 is sent in one end setting,
The other end sets film-coiling device 6;The medial axis position of the workbench is provided with a slip grooved rail 7, the work is put down
Platform 2 is divided into two symmetrical operating surfaces, and two panels carrier copper foil can be operated simultaneously, and the slip grooved rail 7 is along institute
The length direction extension of workbench 2 is stated, the multiple sliding blocks 8 coordinated with it are provided in the conduit for sliding grooved rail 7, often
A cross bar 9 is fixedly installed on one sliding block 8, the center of the sliding block 8 and the cross bar 9 is welded and fixed, the horizontal stroke
Bar 9 can be driven by the sliding block 8 to slidably reciprocate in the slip grooved rail 7 along the length direction of the workbench 2;Institute
The grooved rail inner section for stating slip grooved rail 7 is " work " shape, and the outer cross section of the sliding block 8 is " soil " shape, and the two cooperates;
The operating device include graphene oxide solution coating unit 10, high-energy ray irradiation unit 11, cleaning device 12, every
Membrane material coating unit(It is not shown)And anode confluence material application device(It is not shown), and the graphene oxide solution applies
Coating device, high-energy ray irradiation unit, cleaning device, diaphragm material coating unit and anode confluence material application device are successively
The right end of the workbench is gradually arranged on, and each is correspondingly arranged at the lower section of a cross bar;
Controller is further included, when sending carrier copper foil described in two panels to the workbench, by the two panels carrier copper foil
Be fixed, by controller control the graphene oxide solution coating unit, high-energy ray irradiation unit, cleaning device, every
With certain under the drive of sliding block under the cross bar of membrane material coating unit and anode confluence material application device corresponding to it
Speed pass through successively from the carrier copper foil upper surface from right to left along the workbench and complete its operating process:
(1)The graphene solution coating unit is coated on carrier copper foil, and graphene oxide solution is coated on carrier copper foil
On, form graphene oxide layer;(2)The high-energy ray irradiation unit is irradiated graphene oxide layer, is reduced into
Graphene forms the negative electrode layer of graphene state and lug layer;(3)The cleaning device washes oxidation extra on carrier copper foil
Graphene layer;(4)The diaphragm material coating unit carries out carrier copper foil surface the coating of diaphragm material;(5)The anode
Anode confluence material is coated in anode layer by the material application device that converges, and forms anode layer;
The graphene oxide solution coating unit, drying device, high-energy ray irradiation unit, cleaning device, diaphragm material apply
Coating device and anode confluence material application device start respectively by time interval of 5s, slide from right to left complete its behaviour successively
Make process, stop at the work platform sinistral later, the work platform dextral is then returned to after operation is fully completed, from
Newly start new cycle.
Preferably, the graphene oxide solution coating unit, high-energy ray irradiation unit, cleaning device, diaphragm material
Coating unit and anode confluence material application device are different along the movement speed of the workbench and slack-off successively.
Preferably, exist(4)After the diaphragm material coating unit carries out carrier copper foil surface the coating of diaphragm material,
Carrier copper foil surface is irradiated by the high-energy ray irradiation unit, forms membrane layer.
Preferably, formed after membrane layer and carrier copper foil surface cleaned by cleaning device again, by liquid, not
Cured diaphragm material cleaning is complete.
The course of work:In specific works, first it is placed on workbench using a carrier copper foil as matrix, is rolled into tubular
Carrier copper foil volume is laid in by lay-on roll feeding on workbench, and up and down two be separately fixed on the workbench
Side;By being processed to the operating device in areas inside operating to carrier copper foil, monomer one by one is manufactured on carrier copper foil
Graphene battery;After carrier copper foil enters working region, controller controls graphene oxide solution to coat by control slide block
It is installed on carrier copper foil and carries out coating work, graphene oxide solution is coated on carrier copper foil;After completing to coat, carry
The graphene oxide solution of body copper foil surface is dried to graphene oxide layer by the heat radiation of drying device;Then, displacement fills
Put control high-energy ray irradiation unit to the graphene oxide layer on carrier copper foil surface according to preset route to graphene oxide
Layer is irradiated, and the graphene oxide in certain track is reduced into graphene, and this completes to negative electrode and lug
Graphene layer portrays molding, forms the negative electrode layer of graphene state and lug layer, since the track form of negative electrode and lug can
To preset, therefore, the molding that different model battery can be completed on carrier copper foil is portrayed;It is carved in negative electrode layer and lug layer
After being drawn as type, gearshift control cleaning device washes graphene oxide layer extra on carrier copper foil;Later, gearshift
Diaphragm material coating unit is controlled to carry out the coating of diaphragm material, the graphene layer in this way on carrier copper foil to carrier copper foil surface
Surface and non-graphite alkene layer surface are coated with diaphragm material;Then high-energy ray irradiation unit is controlled to carrying by gearshift again
Body copper foil surface is irradiated, and the track of irradiation is along negative electrode and the course bearing of lug, the in this way negative electrode layer in graphene state
It is fixed with after the diaphragm material exposure on lug layer, forms membrane layer;Then cleaning dress is controlled by gearshift again
It puts and carrier copper foil surface is cleaned, liquid, uncured diaphragm material is cleaned complete;Then, by gearshift control
Positive electrode coating unit processed is coated along the course bearing of preset negative electrode and lug, and positive electrode is coated in diaphragm
Layer top, then by gearshift control high-energy ray irradiation unit positive electrode is irradiated, by positive electrode curing in every
In film layer, anode layer is formed;Finally, then by gearshift control anode confluence material application device by anode confluence material it coats
High-energy ray irradiation unit is controlled to be irradiated anode confluence material in anode layer, then by gearshift, anode is converged
Material solidification forms positive bus bar layer, by this, a monomer graphene battery has just manufactured completion in anode layer.
After carrier copper foil completes the manufacture of a monomer graphene battery in a working region, it is transported to by workbench next
In working region, the manufacture of another monomer graphene battery is carried out, completes multiple monomer graphenes in a system in this way
The manufacture of battery;After carrier copper foil enters delivery platform terminal after the manufacture for completing graphene battery, by detection device
It is detected, unsuccessful non-standard graphene battery is fallen short of specifications or prepare if detecting, by detection device to nonstandard
Meta anthracite alkene battery is destroyed.
Advantageous effect:
Compared with prior art, the beneficial effects of the invention are as follows:The present invention is in multiple working regions of delivery platform by more
A monomer graphene battery manufacturing equipment is sequentially completed one by one the manufacture of monomer graphene battery one by one, a working region
Interior priority is completed the desired trajectory coating of graphene oxide solution, the coating of high-energy ray reduced graphene, diaphragm material and is consolidated
Change, the coating of positive electrode and curing, the coating and curing of anode confluence material, so as to complete single monomer graphene battery
Manufacture, it is seen then that the manufacture of multiple monomer graphene batteries can be achieved in the present invention, can also realize the monomer graphite of more specification polytypics
The manufacture of alkene battery, it is rational in infrastructure, it is flexibly controllable, it is simple to manufacture fast, production cost is low, is produced by the way of solvent solution
Manufacture, operating mode is gentle pollution-free.
The graphene oxide solution coating unit, high-energy ray irradiation unit, cleaning device, diaphragm material coating unit
And anode confluence material application device is different along the movement speed of the workbench and slack-off successively, due to its speed
Degree it is slack-off successively, then the subsequent operating time each time be longer than before operating time, the operating process before on the one hand giving
It leaves time enough to be cooled down or dried, on the other hand, the progress that subsequent operating process also can be finer improves
Whole effect and efficiency.
The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto,
Any one skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its
Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.
Claims (4)
1. a kind of production system of graphene battery, which is characterized in that it include stent, the workbench on stent and
Operating device on the workbench, further includes the upper film device set on stent side, and the upper film device includes setting
Put stent side for placing the roller film frame of carrier copper foil volume and being arranged on the lay-on roll of workbench one end, also wrap
Include the film-coiling device for being arranged on the workbench other end;
The workbench is thin-and-long, and for being operated on it to the carrier copper foil, grinding roller is sent in one end setting, separately
One end sets film-coiling device;A slip grooved rail is provided in the medial axis position of the workbench, the workbench is equal
It is divided into two symmetrical operating surfaces, two panels carrier copper foil can be operated simultaneously, the slip grooved rail is along the work
The length direction extension of platform, is provided with the multiple sliding blocks coordinated with it, each sliding block in the conduit for sliding grooved rail
On be fixedly installed a cross bar, the center of the sliding block and the cross bar is welded and fixed, and the horizontal bar can be by described
Sliding block drives to slidably reciprocate in the slip grooved rail along the length direction of the workbench;The grooved rail for sliding grooved rail
Inner section is " work " shape, and the outer cross section of the sliding block is " soil " shape, and the two cooperates;
The operating device includes graphene oxide solution coating unit, drying device, high-energy ray irradiation unit, cleaning dress
It puts, diaphragm material coating unit and anode confluence material application device, and the graphene oxide solution coating unit, drying
Device, high-energy ray irradiation unit, cleaning device, diaphragm material coating unit and anode confluence material application device successively by
The right end of the workbench is gradually arranged on, and each is correspondingly arranged at the lower section of a cross bar;
Controller is further included, when sending carrier copper foil described in two panels to the workbench, by the two panels carrier copper foil
Be fixed, by controller control the graphene oxide solution coating unit, high-energy ray irradiation unit, cleaning device, every
With certain under the drive of sliding block under the cross bar of membrane material coating unit and anode confluence material application device corresponding to it
Speed pass through successively from the carrier copper foil upper surface from right to left along the workbench and complete its operating process:
(1)The graphene solution coating unit is coated on carrier copper foil, and graphene oxide solution is coated on carrier copper foil
On, form graphene oxide layer;(2)The high-energy ray irradiation unit is irradiated graphene oxide layer, is reduced into
Graphene forms the negative electrode layer of graphene state and lug layer;(3)The cleaning device washes oxidation extra on carrier copper foil
Graphene layer;(4)The diaphragm material coating unit carries out carrier copper foil surface the coating of diaphragm material;(5)The anode
Anode confluence material is coated in anode layer by the material application device that converges, and forms anode layer;
The graphene oxide solution coating unit, drying device, high-energy ray irradiation unit, cleaning device, diaphragm material apply
Coating device and anode confluence material application device start respectively by time interval of 5s, slide from right to left complete its behaviour successively
Make process, stop at the work platform sinistral later, the work platform dextral is then returned to after operation is fully completed, from
Newly start new cycle.
2. the production system of graphene battery according to claim 1, the graphene oxide solution coating unit, high energy
Beam exposure apparatus, cleaning device, diaphragm material coating unit and anode confluence material application device are put down along the work
The movement speed of platform is different, and slack-off successively.
3. the production system of graphene battery according to claim 1,(5)The diaphragm material coating unit is to carrier
After copper foil surface carries out the coating of diaphragm material, carrier copper foil surface is irradiated by the high-energy ray irradiation unit,
Form membrane layer.
4. the production system of graphene battery according to claim 3 is formed after membrane layer again by cleaning device to carrying
Body copper foil surface is cleaned, by liquid, the cleaning of uncured diaphragm material it is complete.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810091642.5A CN108270038A (en) | 2018-01-30 | 2018-01-30 | A kind of production system of graphene battery |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810091642.5A CN108270038A (en) | 2018-01-30 | 2018-01-30 | A kind of production system of graphene battery |
Publications (1)
Publication Number | Publication Date |
---|---|
CN108270038A true CN108270038A (en) | 2018-07-10 |
Family
ID=62777154
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201810091642.5A Pending CN108270038A (en) | 2018-01-30 | 2018-01-30 | A kind of production system of graphene battery |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN108270038A (en) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106816637A (en) * | 2017-01-16 | 2017-06-09 | 王奉瑾 | A kind of system for preparing graphene battery |
CN106848369A (en) * | 2017-01-16 | 2017-06-13 | 王奉瑾 | A kind of equipment for preparing graphene battery |
CN106848370A (en) * | 2017-01-16 | 2017-06-13 | 王奉瑾 | A kind of equipment that graphene battery is prepared based on laser battle array mirror |
CN106898505A (en) * | 2017-01-16 | 2017-06-27 | 王奉瑾 | A kind of equipment for preparing Graphene electric capacity |
-
2018
- 2018-01-30 CN CN201810091642.5A patent/CN108270038A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106816637A (en) * | 2017-01-16 | 2017-06-09 | 王奉瑾 | A kind of system for preparing graphene battery |
CN106848369A (en) * | 2017-01-16 | 2017-06-13 | 王奉瑾 | A kind of equipment for preparing graphene battery |
CN106848370A (en) * | 2017-01-16 | 2017-06-13 | 王奉瑾 | A kind of equipment that graphene battery is prepared based on laser battle array mirror |
CN106898505A (en) * | 2017-01-16 | 2017-06-27 | 王奉瑾 | A kind of equipment for preparing Graphene electric capacity |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Sun et al. | Large‐area supercapacitor textiles with novel hierarchical conducting structures | |
Zhang et al. | Recent progress for silver nanowires conducting film for flexible electronics | |
Gao et al. | 2D and 3D graphene materials: Preparation and bioelectrochemical applications | |
CN109690840B (en) | Method and device for applying a magnetic field to an object | |
Sadak et al. | Facile and green synthesis of highly conducting graphene paper | |
JP7254092B2 (en) | Triboelectric power generating element and manufacturing method thereof | |
Wang et al. | Chemical and thermal robust tri-layer rGO/Ag NWs/GO composite film for wearable heaters | |
CN102730664A (en) | Carbon nano-tube with fluorine-containing surface and preparation method thereof | |
JP2011142796A (en) | Actuator | |
CN108297404A (en) | A kind of continuous fiber 3D printing device and method | |
CN106276884A (en) | A kind of method preparing mesoporous Graphene | |
CN102659092A (en) | Simple controllable carbon nanotube paper preparation device and method | |
CN108270038A (en) | A kind of production system of graphene battery | |
JP2015067483A (en) | Manufacturing method of fibrous carbon material | |
CN106816637A (en) | A kind of system for preparing graphene battery | |
CN107057278A (en) | One step prepares the preparation facilities and preparation method of carbon nano-tube film composite | |
CN108306043A (en) | A kind of production system of reciprocating operation graphene battery | |
CN106611637A (en) | Device and method for continuous large-scale preparation of transparent conductive film | |
Bai et al. | Preparation of smooth, flexible and stable silver nanowires-polyurethane composite transparent conductive films by transfer method | |
CN209001019U (en) | A kind of lithium manganate battery production pole piece cold press device | |
CN102717536B (en) | Method for preparing carbon nano-tube electrical-conductive composite film | |
CN105355891A (en) | Tin oxide-based composite material and preparation method thereof | |
CN104715927A (en) | Thin film capacitor preparation method based on graphene composite film | |
Yun et al. | High performance all-carbon composite transparent electrodes containing uniform carbon nanotube networks | |
CN106848370A (en) | A kind of equipment that graphene battery is prepared based on laser battle array mirror |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20180710 |
|
WD01 | Invention patent application deemed withdrawn after publication |