CN101739909A

CN101739909A - Organic photoelectric conversion, illumination and display system

Info

Publication number: CN101739909A
Application number: CN201010013666A
Authority: CN
Inventors: 张方辉; 蒋谦; 阎洪刚; 刘丁菡; 丁磊
Original assignee: Shaanxi University of Science and Technology
Current assignee: Shaanxi University of Science and Technology
Priority date: 2010-01-22
Filing date: 2010-01-22
Publication date: 2010-06-16
Anticipated expiration: 2030-01-22
Also published as: CN101739909B

Abstract

The invention relates to the technical field of organic optoelectronics, and discloses an organic photoelectric conversion, illumination and display system based on organic light-emitting diode technology, organic solar battery technology and storage battery technology. The system is characterized in that the system comprises an organic solar battery layer (3), an organic light-emitting diode layer (4) and a storage battery system (5); the organic solar battery layer (3) and the organic light-emitting diode layer (4) are overlapped with each other and form a light-emitting display screen through the packaging of upper and lower glass substrates (7, 8); and the light-emitting display screen is connected with the storage battery system (5) in parallel to form the organic photoelectric conversion, illumination and display system. The system inherits the characteristics of brightness, low driving voltage, ultra-thin performance, all solid state and the like possessed by an organic light-emitting diode, and also has the photoelectric conversion function of an organic solar battery at the same time.

Description

Organic photoelectric conversion, illumination and display system

Technical field

The present invention relates to the organic photoelectric technical field, particularly a kind ofly carry out organic photoelectric conversion, illumination and display system based on Organic Light Emitting Diode technology, organic solar batteries technology and electric power storage battery technology.

Background technology

In the organic photoelectric research field, be two big focuses about the research of Organic Light Emitting Diode and organic solar batteries, introduce this two kinds of technology below respectively:

Organic Light Emitting Diode (Organic Light-Emitting Diodes), be called again ORGANIC ELECTROLUMINESCENCE DISPLAYS (Organic Electroluminesence Display, OELD).Since the C.W.Tang of Kodak company in 1987 utilizes micromolecule organic compound Alq3 to develop the organic electroluminescence device of low driving voltage as luminescent material, organic electroluminescent is with its low driving voltage, high luminosity, active illuminating, easily realize that monochromatic and coloured plate shows, advantage demonstration such as manufacture craft is simple, total solidsization, high brightness, low-power consumption and go out great vitality.Comprise in the general common structure of Organic Light Emitting Diode: substrate, ito anode, hole injection layer, hole transmission layer, luminescent layer, electron transfer layer, electron injecting layer, negative electrode, its principle of work is, hole and electronics inject from anode and negative electrode respectively, pass through hole transmission layer and electron transfer layer, form exciton in luminescent layer hole and electron recombination, the exciton de excitation is luminous.

Organic solar batteries is the core, the solar cell that is made of organic material.Preparation in 1958, its main material was magnesium phthalocyanine (MgPc) dyestuff to first organic photoelectric switching device by Kearns and Calvin, and dye coating is clipped between the different electrode of two work functions.The duplicature heterojunction solar battery that discovery in 1986 is made up of a kind of derivant and the copper phthalocyanine (CuPc) of tetracarboxylic acid Ji perylene, its efficient can reach 1%, duplicature heterojunction solar battery structure comprises: the organic semiconducting materials of giving body and acceptor, donor material produces hole one electron pair after absorbing photon, after electronics is injected into organic semiconducting materials as acceptor, the hole is separated with electronics, forms photocurrent from electrode output.Heterojunction solar battery is still one of focus of research now.People had proposed bulkhetero-junction again afterwards, being about to acceptor material and donor material mixes, way by steaming or spin coating altogether forms thin film, and the exciton that forms in any position is easy to arrive the interface to body and acceptor like this, thereby has improved the efficient of charge separation.

Summary of the invention

The purpose of this invention is to provide a kind of organic photoelectric conversion, illumination and display system, this system organically combines Organic Light Emitting Diode, organic solar batteries and electric power storage battery, can realize solar-electrical energy conversion and storage, illumination and function of information display.System inherited Organic Light Emitting Diode have characteristics such as brightness, low driving voltage, ultra-thin, full curing, possess the organic solar batteries photoelectric converting function simultaneously.

The objective of the invention is to realize by following technical proposals, a kind of organic photoelectric conversion, illumination and display system, it is characterized in that: comprise organic solar cell layer, Organic Light Emitting Diode layer and electric power storage battery system, organic solar batteries layer and Organic Light Emitting Diode layer mutual superposition also constitute light emitting display through the encapsulation of upper and lower glass substrate, and this light emitting display also is in parallel with the electric power storage battery system and constitutes organic opto-electronic conversion, illumination and display system.

Described Organic Light Emitting Diode layer comprises successively to light-transmissive substrates, printing opacity conductive anode, hole injection layer, hole transmission layer, luminescent layer, electron transfer layer, electron injecting layer and the negative electrode of going up mutual superposition down.

Described organic solar batteries layer comprises successively printing opacity conductive anode, organic layer and and the shared same negative electrode of Organic Light Emitting Diode layer of mutual superposition from top to down.

Described upper glass substrate and lower glass substrate encapsulate by packaging plastic.

Described light-transmissive substrates is selected flexible substrate or rigid substrate for use.This flexible substrate be tygon terephthaldehyde ester (polyethyleneterephthalate, PET), polycarbonate (polycarbonate) or polypropylene (acrylic); This rigid substrate is glass or silicon.

Described negative electrode is conventional cathode or printing opacity conductive cathode.

The present invention adopts coating process that each functional layer is plated on the substrate one by one, adopts common cathode, integrates organic solar batteries and Organic Light Emitting Diode.Utilize the organic solar batteries layer to realize light-electricity conversion, utilize the Organic Light Emitting Diode layer to realize that illumination or information show, white-light illuminating is to realize by the structure and material of the luminescent layer that changes Organic Light Emitting Diode, when requiring information to show (particularly chromatic information demonstration), the substrate of Organic Light Emitting Diode layer need be changed into light-transmissive substrates with colour filter film.

Description of drawings

Fig. 1 is a use principle sketch of the present invention;

Fig. 2 is a structural representation of the present invention;

Fig. 3 is an organic function layer simplified package structural representation of the present invention.

Among the figure: 1, incident light; 2, emergent light; 3, organic solar batteries layer; 4, Organic Light Emitting Diode layer; 5, electric power storage battery system; 6, Organic Light Emitting Diode output light; 7, upper glass substrate; 8, lower glass substrate; 9, packaging plastic; 401, light-transmissive substrates; 402, printing opacity conductive anode; 403, hole injection layer; 404, hole transmission layer; 405, luminescent layer; 406, electron transfer layer; 407, electron injecting layer; 408, negative electrode; 309, organic layer; 310, printing opacity conductive anode.

Embodiment

The present invention will be further described below in conjunction with accompanying drawing.

Referring to shown in Figure 1, this organic photoelectric conversion, illumination and display system comprise organic solar cell layer 3, Organic Light Emitting Diode layer 4 and electric power storage battery system 5, organic solar batteries layer 3 constitutes light emitting displays with Organic Light Emitting Diode layer 4 mutual superposition and through upper glass substrate 7, lower glass substrate 8 encapsulation, and this light emitting display also is in parallel with electric power storage battery system 5 and constitutes organic opto-electronic conversion, illumination and display system.

As shown in Figure 2, under Organic Light Emitting Diode layer 4 comprises successively and go up light-transmissive substrates 401, printing opacity conductive anode 402, hole injection layer 403, hole transmission layer 404, luminescent layer 405, electron transfer layer 406, electron injecting layer 407 and the negative electrode 408 of mutual superposition.

Described light-transmissive substrates 401 is selected flexible substrate or rigid substrate for use.Wherein, described flexible substrate be tygon terephthaldehyde ester (polyethyleneterephthalate, PET), polycarbonate (polycarbonate) or polypropylene (acrylic); Described rigid substrate is glass or silicon.

Organic solar batteries layer 3 comprises printing opacity conductive anode 310, organic layer 309, organic solar batteries layer 3 and Organic Light Emitting Diode layer 4 shared same negative electrode 408.Described negative electrode 408 is conventional cathode or printing opacity conductive cathode.

The negative electrode 408 of above-mentioned Organic Light Emitting Diode layer 4 is simultaneously as the negative electrode of organic solar batteries layer 3, and this negative electrode links to each other with the power cathode of electric power storage battery system 5, and printing opacity conductive anode 310 links to each other with the positive source of electric power storage battery system 5 simultaneously; The printing opacity conductive anode 402 of Organic Light Emitting Diode layer 4 links to each other by the positive source of switch with electric power storage battery system 5.

As shown in Figure 3, above-mentioned upper glass substrate 7, lower glass substrate 8 encapsulation constitute light emitting display, be with organic solar batteries layer 3, Organic Light Emitting Diode layer 4 mutual superposition, and by upper glass substrate 7 and lower glass substrate 8 with its encapsulation, sealed at both ends packaging plastic 9 arranged at it.By such simplified package, can reduce the influence of environment to Organic Light Emitting Diode layer 4 of the present invention.

The present invention adopts general coating process of the industry and general material one by one to be plated to substrate on according to interlayer distribution shown in Figure 2 above-mentioned each functional layer, and employing common cathode, with organic solar batteries and Organic Light Emitting Diode evaporation is one, constitute light emitting display, this light emitting display and by with the formation in parallel system of the present invention of electric power storage battery system 5, thereby realize organic photoelectric conversion, illumination and show.

Among Fig. 1, during charging, the incident light 1 that sunshine sends is to the organic solar batteries layer 3 of system of the present invention, and its absorption portion sunshine also is converted to electric energy, stores in the electric power storage battery system 5, realizes charge function; Part light emergent light 2 passes Organic Light Emitting Diode layer 4 simultaneously; When needs threw light on, Closing Switch K (as shown in Figure 2), electric power storage battery system 5 were to 4 power supply of Organic Light Emitting Diode layer, and light is pressed the 6 path outgoing of Organic Light Emitting Diode output light, realizes illumination functions.

Claims

1. organic photoelectric conversion, illumination and display system, it is characterized in that: this system comprises organic solar cell layer (3), Organic Light Emitting Diode layer (4) and electric power storage battery system (5), organic solar batteries layer (3) and Organic Light Emitting Diode layer (4) mutual superposition also constitute light emitting display through upper and lower glass substrate (7,8) encapsulation, and this light emitting display also is in parallel with electric power storage battery system (5) and constitutes organic opto-electronic conversion, illumination and display system.

2. organic photoelectric conversion according to claim 1, illumination and display system is characterized in that: described Organic Light Emitting Diode layer (4) comprises successively to light-transmissive substrates (401), printing opacity conductive anode (402), hole injection layer (403), hole transmission layer (404), luminescent layer (405), electron transfer layer (406), electron injecting layer (407) and the negative electrode (408) of going up mutual superposition down.

3. organic photoelectric conversion according to claim 1, illumination and display system is characterized in that: described organic solar batteries layer (3) comprises successively printing opacity conductive anode (310), organic layer (309) and and the shared same negative electrode (408) of OLED layer (4) of mutual superposition from top to down.

4. organic photoelectric conversion according to claim 1, illumination and display system is characterized in that: described upper glass substrate (7) encapsulates by packaging plastic (9) with lower glass substrate (8).

5. organic photoelectric conversion according to claim 2, illumination and display system is characterized in that: described light-transmissive substrates (401) is selected flexible substrate or rigid substrate for use.

6. organic photoelectric conversion according to claim 5, illumination and display system, it is characterized in that: described flexible substrate is tygon terephthaldehyde ester polyethyleneterephthalate, PET, polycarbonate polycarbonate or polypropylene acrylic; Described rigid substrate is glass or silicon.

7. organic photoelectric conversion according to claim 2, illumination and display system is characterized in that: described negative electrode (408) is conventional cathode or printing opacity conductive cathode.