KR20010087586A - Electrochromic film - Google Patents

Abstract

PURPOSE: An electrical faded film is provided to save the energy and give convenience to the life by controlling the solar energy, which comes in through the glass of a building or a car, and to use the film as a display instrument or a written information transmitting instrument. CONSTITUTION: The electrical faded film includes ITO(Indium-tin-oxide) films(1A, 1B), MoO3(2), Polyaniline(3), BLi-Al2O3(4), WO3(5), an adhesive(6) and a vinyl film(7). MoO3(2) with the thickness of 0.2-0.25 micro meter is additionally laid on an ITO film(1A). WO3(5) with the thickness of 0.25 micro meter is additionally laid on the other ITO film(1B). BLi-Al2O3(4) with the thickness of 0.3 micro meter, a solid electrolyte is additionally laid on the WO3(5). And Polyaniline(3), a semiconductor, is applied between MoO3(2) and BLi-Al2O3(4) and a high frequency pressed roller passes them.

Description

Electrochromic film {.}

The present invention provides reducing chromophores MoO ₃ (2) and WO ₃ (5). Polyaniline (3), a conductive polymer, and an alkali metal solid electrolyte By the reduction of ⑵ and Polyaniline (3) and the oxidation of WO ₃ (5), the transparent film discolors to blue, and by the electric energy that can control the amount of light entering the building or the vehicle through the glass. It is an object of the present invention to provide a film in which color changes color.

The present invention is an electrochromic film which can be used by attaching to a glass surface that is used by producing a film using an oxide, a conductive polymer, and a solid electrolyte that are discolored by voltage, and conventionally by directly depositing an oxide on the glass surface. There were many problems in processability, and because it was standardized and produced so that users could not cut and attach it to the size of glass surface they wanted, they had many difficulties in use.

Polyaniline (3), which is conductive to transition metal oxides MoO ₃ (2) and WO ₃ (5), was used to improve the repetition response of oxidation and reduction, but the polyaniline (3) ) Is placed in a high frequency compression roller and attached with a thin film (0.5 micrometer or less) as a technical task.

1 is a combined perspective view showing the configuration of an electrochromic film according to the present invention.

Figure 2 is a side view showing a combined state of the electrochromic film according to the present invention.

3 is a plan view showing a deposition method for making an electrical connection of the electrochromic film according to the present invention.

<Description of the symbols for the main parts of the drawings>

1.1A, 1B: ITO film 2.MoO ₃

Polyniline 4.

5. WO ₃ 6. Adhesive

7. Vinyl film 8. Non-deposition

Referring to the configuration of the electrochromic film of the present invention with reference to Figures 1 to 3 as follows.

First, two sheets of ITO film (1A1B) having a resistance of 10 ohms to 15 ohms were prepared. In one sheet, MoO ₃ (2) was deposited to a thickness of 0.2 to 0.25 micrometers by the sputtering deposition method, and the other sheet was WO ₃ (5) was deposited by sputtering to a thickness of about 0.25 micrometers and then lithium-based with alkali metal ions thereon. _{3 (4)} was deposited to a thickness of about 0.3 micrometers to act as an electrolyte, and then, between two sheets, a polyaniline (3), a slime-conductive polymer, was inserted and passed through a high frequency compression roller to deposit electrochromic oxide. After bonding the ITO film (1A.1B), the adhesive (6) is applied to the glass side to the glass on the outer surface of the ITO film (1B) on which WO ₃ (5) is deposited, and then not dried until used. The vinyl film 7 is covered to complete the electrochromic film of the present invention.

However, the electrochromic film of the present invention may be cut and attached to the size of the glass surface to be attached by the user, and both sides of the non-deposited portion 8 may be approximately 5 mm as shown in FIG. The oxide is deposited, leaving the oxide behind, allowing the electrical terminals 9 to pick up both ITO films (1A.1B).

The electrochromic film of the present invention produced as described above is to include a non-evaporated portion (8) to fit the size of the glass surface is fixed to the user to control the amount of light cut with scissors to apply the adhesive (6) Remove the vinyl film (7) of the part and attach it to the glass surface, and then attach the anode to the MoO ₃ (2) side and the cathode to the WO ₃ (5) side. By controlling the voltage with the voltage regulator 10 is an electrochromic film that can control the amount of light coming through the glass.

The present invention is an electrochromic film that can bring energy saving and convenience to life by controlling solar energy coming through glass mounted on a building or a vehicle, and can be utilized as a recording transmission medium for display elements and information.

Claims (2)

One of the two conductive ITOs (1A.1B) (1A) was deposited with a thickness of 0.2 to 0.25 micrometers of MoO ₃ (2), while the other sheet (1B) had approximately 0.25 of WO ₃ (5). Deposited to a thickness of micrometers and then solid electrolyte (4) Electrochromic film, characterized in that after the deposition of about 0.3 micrometers between the two sheets, the polyaniline (3), a polymer conductor, was applied and then passed through a high frequency compression roller to be bonded. The method according to claim 1, wherein both sides of the two ITO films 1A.1B are MoO ₃ (2), WO ₃ (5) and a solid electrolyte, leaving the non-deposited portion 8 on both sides. (4) And electrochromic film characterized in that the polyaniline (3) is deposited so that the user can cut and use at random.