CN205194702U - Flexible microwave energy converter based on organic diode - Google Patents

Abstract

The utility model provides a flexible microwave energy converter based on organic diode, its principle is as illustrated in FIG. 1, including positive electrode (101), negative electrode (102), organic diode (2), electric capacity (3) and resistance (4), function that positive electrode (101) and negative electrode (102) have the antenna microwave signal in with space environment is collected and is charged for electric capacity (3).

Description

Based on the flexible microwave energy converter of organic diode

[technical field]

The utility model belongs to organic electronic device arts, particularly a kind of energy converter that microwave signal can be converted to electric energy.

[background technology]

The application of installation scope of microwave energy conversion is very extensive, the remote power feeding of such as device, to the sensing detection of microwave signal, contactless authentication etc., wherein the remote power feeding of device all has very large using value in every field, 1964, first microwave energy drives helicopter to succeed in developing, the features such as it can reach ten hours by follow-on mission, but the microwave energy transducer build of now institute's extensive use is on the market large, pliability difference limit its development and application.

Due to the rise of wearable technology, the powerup issue of wearable device is badly in need of solving, and existing used at present solar powered to be subject to generating efficiency low, the factor restrictions such as weather; Flexible microwave energy converter is as film morphology, there is the advantages such as thickness is thin, lightweight, flexible, area can change with the need, the flexible microwave energy converter based on organic diode that the utility model provides can post at any article surface, do not limit by form, simultaneously manufacturing process simple, the feature such as large area production can must become the developing direction of following flexible device; The utility model adopt flexible thin-film material to make the development of energy converter to flexible device have great importance.

[summary of the invention]

The purpose of this utility model is to provide the flexible microwave energy converter based on organic diode.

The flexible microwave energy converter based on organic diode that the utility model provides, its principle as shown in Figure 1, comprise positive electrode (101), negative electrode (102), organic diode (2), electric capacity (3) and resistance (4), the microwave signal in space environment is carried out collecting and charges to electric capacity (3) by the function that positive electrode (101) and negative electrode (102) have antenna.

Fig. 2, Fig. 3, Fig. 4 are respectively the vertical view of this flexible microwave energy converter practical devices structure, horizontal sectional drawing and longitudinal sectional drawing, this flexible microwave energy converter integral manufacturing is on RF magnetron sputtering (1) as seen from the figure, organic diode (2), electric capacity (3), resistance (4) laid out in parallel, organic diode (2) is superposed by positive electrode (101), anode layer (201), cathode layer (202) and negative electrode (102) and forms, electric capacity (3) is superposed by positive electrode (101), dielectric layer (301) and negative electrode (102) and forms, resistance (4) is superposed by positive electrode (101), Organic Electricity resistance layer (401) and negative electrode (102) and forms, seven insulating barriers (501), (502), (503) (504), (505), (506), (507) for the isolation between various piece, wherein the first insulating barrier (501), second insulating barrier (502), 3rd insulating barrier (503), 6th insulating barrier (506) is wrapped in organic diode (2) respectively, electric capacity (3), the surrounding of resistance (4), the 4th insulating barrier (504) is separated with between organic diode (2) and electric capacity (3), pentasyllabic quatrain edge layer (505) is separated with between electric capacity (3) and resistance (4), four-line poem with seven characters to a line edge layer (507) entirety is wrapped in organic diode (2), electric capacity (3) and resistance (4) top, positive electrode (101) and negative electrode (102) are organic diode (2), the electrode that electric capacity (3) and resistance (4) share, be distributed in organic diode (2) respectively, the both sides up and down of electric capacity (3) and resistance (4), and extend and be wrapped in organic diode (2), outside the four-line poem with seven characters to a line edge layer (507) of electric capacity (3) and resistance (4), wherein positive electrode (101) and negative electrode (102) are made by electrically conductive ink printing, as organic diode (2) within four-line poem with seven characters to a line edge layer (507), the positive and negative electrode of electric capacity (3) and resistance (4), prolonging to bear is exposed in external environment condition outside four-line poem with seven characters to a line edge layer (507), for receiving micro-signal.

The material forming the flexible microwave energy converter based on organic diode that the utility model provides is:

The material forming RF magnetron sputtering (1) is polyethylene terephthalate (PET) or polyimides (PI);

The material forming positive electrode (101) and negative electrode (102) is electrically conductive ink;

The material forming anode layer (201) comprise in pentacene, poly-(3-hexyl thiophene-2,5-bis-base) P3HT, DNTT one or more;

The material forming cathode layer (202) comprises C ₆₀, dichloro Tin Phthalocyanine, one or more in N, N '-dioctyl-3,4,9,10-perylene dicarboximide (PTCDI-C8);

The material forming dielectric layer (301) comprise in polymethyl methacrylate (PMMA), polyvinyl alcohol (PVA), polyimides (PI), benzocyclobutene (BCB), polyvinyl phenol (PVP), polystyrene (PS), polytetrafluoroethylene (PTFE) one or more.

Technical Analysis of the present utility model:

The microwave antenna that electrically conductive ink should be adopted to make based on the flexible microwave energy converter of organic diode can be used for the microwave signal receiving surrounding environment, converts its energy to electrical power storage in electric capacity; Its substrate, electric capacity, resistance and organic diode all adopt organic material to be prepared from, there is the advantages such as thickness is thin, lightweight, flexible, area can change with the need, due to its shape, can to make arbitrary area bendable curved, can be attached at many body surfaces, have very strong flexibility; This device has simple manufacturing process, and can large area produce fast, cost is low; This energy converter can be applicable to device remote power feeding, to the sensing detection of microwave signal, contactless authentication etc., the identification etc. of the power supply of such as unmanned plane, the power supply of microrobot, access card, is with a wide range of applications.

[accompanying drawing explanation]

The schematic diagram of the flexible microwave energy converter based on organic diode that Fig. 1 provides for the utility model, the vertical view of the flexible microwave energy converter based on organic diode that Fig. 2 provides for the utility model, the horizontal sectional drawing of the flexible microwave energy converter based on organic diode that Fig. 3 provides for the utility model, longitudinal sectional drawing of the flexible microwave energy converter based on organic diode that Fig. 4 provides for the utility model.

In figure, 1 be substrate, 2 be organic diode, 3 be electric capacity, 4 be resistance, 101 be positive electrode, 102 be negative electrode, 201 be anode layer, 202 be cathode layer, 301 be dielectric layer, 401 be four-line poem with seven characters to a line edge layer for Organic Electricity resistance layer, 501 be the first insulating barrier, 502 be the second insulating barrier, 503 be the 3rd insulating barrier, 504 be the 4th insulating barrier, 505 be pentasyllabic quatrain edge layer, 506 is the 6th insulating barrier, 507.

[embodiment]

For making content of the present utility model easier to understand, be further described below in conjunction with the drawings and specific embodiments.

As shown in Figure 1, the utility model comprises based on the flexible microwave energy converter of organic diode: positive electrode (101), negative electrode (102), organic diode (2), electric capacity (3) and resistance (4), and the microwave signal in space environment is carried out collecting and charges to electric capacity (3) by the function that positive electrode (101) and negative electrode (102) have antenna.

As shown in Figure 2, organic diode (2), electric capacity (3), resistance (4) laid out in parallel, wherein the first insulating barrier (501), the second insulating barrier (502), the 3rd insulating barrier (503), the 6th insulating barrier (506) are wrapped in the surrounding of organic diode (2), electric capacity (3), resistance (4) respectively, be separated with the 4th insulating barrier (504) between organic diode (2) and electric capacity (3), between electric capacity (3) and resistance (4), be separated with pentasyllabic quatrain edge layer (505).

Manufacture the above-mentioned method with the flexible microwave energy converter based on organic diode of temperature drift compensation, comprise the following steps:

1. as shown in Figure 3, Figure 4, substrate prints one deck positive electrode (101) by the mode of printing, and positive electrode (101) does not cover substrate completely;

2. on positive electrode (101), make anode layer (201), cathode layer (202), dielectric layer (301), Organic Electricity resistance layer (401), the first insulating barrier (501), the second insulating barrier (502), the 3rd insulating barrier (503), the 4th insulating barrier (504), pentasyllabic quatrain edge layer (505), the 6th insulating barrier (506) by the mode of photoetching;

3. in the structure made in previous step, republish one deck negative electrode (102), negative electrode only covers the structure sheaf described in previous step, be not connected to positive electrode (101), and by said structure, positive electrode (101) and negative electrode (102) longitudinally separated;

4. in the structure made in previous step, make four-line poem with seven characters to a line edge layer (507), organic diode (2), electric capacity (3), resistance (4) cover by four-line poem with seven characters to a line edge layer (507), expose part positive electrode (101) and negative electrode (102), for receiving the microwave signal in surrounding enviroment.

Claims (9)

1. based on the flexible microwave energy converter of organic diode, it is characterized in that, comprise RF magnetron sputtering (1), organic diode (2), electric capacity (3), resistance (4) and seven insulating barriers (501), (502), (503), (504), (505), (506), (507); Organic diode (2) is superposed by positive electrode (101), anode layer (201), cathode layer (202) and negative electrode (102) and forms; Electric capacity (3) is superposed by positive electrode (101), dielectric layer (301) and negative electrode (102) and forms; Resistance (4) is superposed by positive electrode (101), Organic Electricity resistance layer (401) and negative electrode (102) and forms; Wherein:

Four-line poem with seven characters to a line edge layer (507) entirety is wrapped in organic diode (2), electric capacity (3) and resistance (4) top;

Positive electrode (101) and negative electrode (102) are the electrodes that organic diode (2), electric capacity (3) and resistance (4) share, be distributed in the both sides up and down of organic diode (2), electric capacity (3) and resistance (4) respectively, and extend be wrapped in organic diode (2), electric capacity (3) and resistance (4) four-line poem with seven characters to a line edge layer (507) outside.

2. the flexible microwave energy converter based on organic diode according to claim 1, is characterized in that, organic diode (2), electric capacity (3), resistance (4) laid out in parallel.

3. the flexible microwave energy converter based on organic diode according to claim 1, it is characterized in that, be separated with the 4th insulating barrier (504) between organic diode (2) and electric capacity (3), between electric capacity (3) and resistance (4), be separated with pentasyllabic quatrain edge layer (505).

4. the flexible microwave energy converter based on organic diode according to claim 1, it is characterized in that, the first insulating barrier (501), the second insulating barrier (502), the 3rd insulating barrier (503), the 6th insulating barrier (506) are wrapped in the surrounding of organic diode (2), electric capacity (3), resistance (4) respectively.

5. the flexible microwave energy converter based on organic diode according to claim 1, is characterized in that, the material forming RF magnetron sputtering (1) is polyethylene terephthalate or polyimides.

6. the flexible microwave energy converter based on organic diode according to claim 1, is characterized in that, the material forming positive electrode (101) and negative electrode (102) is electrically conductive ink.

7. the flexible microwave energy converter based on organic diode according to claim 1, is characterized in that, the material forming anode layer (201) comprise in pentacene, P3HT, DNTT one or more.

8. the flexible microwave energy converter based on organic diode according to claim 1, is characterized in that, the material forming cathode layer (202) comprises C ₆₀, dichloro Tin Phthalocyanine, one or more in N, N '-dioctyl-3,4,9,10-perylene dicarboximide.

9. the flexible microwave energy converter based on organic diode according to claim 1, it is characterized in that, the material forming dielectric layer (301) comprise in polymethyl methacrylate, polyvinyl alcohol, polyimides, benzocyclobutene, polyvinyl phenol, polystyrene, polytetrafluoroethylene one or more.