JPS6045587B2 - Au vapor deposited film - Google Patents

Description

[Detailed description of the invention] This invention relates to an Au vapor-deposited film.

Note that in this specification, evaporation includes all methods such as vacuum evaporation, sputtering, ion blating, and electron beam evaporation.

The Au vapor-deposited film, in which the A-deposited film is formed on a plastic film to a thickness that is thick enough to be seen through, has a unique characteristic that cannot be obtained with other metal-deposited films due to the light transmission and light reflection spectral curves unique to the Au vapor-deposited film. It has a beautiful appearance.

Therefore, it is strongly desired that such an Au vapor-deposited film be used as a light beam control film by being attached to a window glass or the like, or as a conductive film. However, the adhesion of the Au vapor-deposited film to the plastic film is very poor.

The inventors of the present invention have investigated various surface treatments for plastic films in order to improve this adhesion, but have not been able to obtain anything that satisfies them.

゜ ・Iso 1-ml": I-L' When an A-deposited film is formed on top of the A-deposited film, the adhesion is improved to some extent, but on the other hand, due to the influence of the nucleated metal, it is not possible to obtain the light transmission and light reflection spectral curves peculiar to the Au vapor-deposited film. Therefore, the beautiful appearance unique to the Au vapor deposited film is lost.

However, as a result of intensive research, the inventor finally found that C.
U-deposited film If a Cu-deposited film of a specific thickness is formed in advance, the adhesion of the Au-deposited film can be improved without almost impairing the light transmission and light reflection spectral curves characteristic of the A-deposited film. This invention was completed by discovering that it could be done.

This invention is A. A Cu vapor deposition film and an Au vapor deposition film are sequentially laminated on a plastic film.

BC...The thickness of the dry film is 108 to 2008.

The thickness of the CAu vapor deposited film is 50 mm or more. The DC deposition film is thinner than the Au deposition film. E Transparent as a whole.

F or more, characterized by meeting the requirements of A-E,
It is an Au vapor-deposited film.

5 In this invention, a Cu vapor deposited film is formed in advance as a nucleation prior to forming an Au vapor deposited film on a plastic film.

Due to the presence of this Cu vapor deposited film as nucleation, A
This improves the adhesion of the u-deposited film.・θ Cu
The deposited film is limited to a specific thickness.

That is, it needs to have a thickness of 10A to 200A and be thinner than the A olfactory membrane. If the Cu vapor deposition film is thinner than 10A, it is too thin to be useful for improving adhesion as a nucleation. On the other hand, if the Cu vapor deposition film is thicker than 200A, the adhesion is improved, but the Cu vapor deposition film is too thick and the appearance of the Cu vapor deposition film itself becomes rough, which impairs the appearance of the Au vapor deposition film. The Cu deposited film must be thinner than the Au deposited film.

This is because if the O-deposited film is thicker than the Au-deposited film, corrosion of the Cu-deposited film becomes noticeable, damaging the appearance of the A-deposited film, and making it difficult to maintain the light transmission and light reflection spectral curves unique to the Au-deposited film. It is from. The Au vapor deposited film has a thickness of 50A or more.

This is because if the Au vapor deposition film is thinner than 50 mm, the beautiful appearance unique to the Au vapor deposition film cannot be obtained. The invention is transparent as a whole. This is natural since the present invention aims to improve the adhesion of the Au vapor deposited film while maintaining the light transmission and light reflection spectral curves specific to the Au vapor deposited film. Cu vapor deposited film and Au which enable this invention to be seen through
The upper limit of the thickness of the deposited film is about 450A in total.

Therefore, for example, in this invention, when the maximum allowable thickness of the 0 evaporated film is 200 A, the Au evaporated film has a thickness of 250 A.
Unless it is made thicker than A, it will be difficult to see through it as a whole. By configuring the present invention as described above, the adhesion of the Au vapor deposited film can be improved by controlling the adhesion of Al, Cr, Nj, Cu,
It has been improved to the same level as Agl and other metal vapor deposited films generally used for forming vapor deposited films, and has the unique beauty of Au vapor deposited films without almost impairing the light transmission and light reflection spectral curves unique to Au vapor deposited films. It is possible to maintain a beautiful appearance. Examples of spectral curves of light transmission and light reflection are shown below in the case of only the Au vapor deposited film and in the case of stacking the Cu vapor deposited film and the Au vapor deposited film.

As the plastic film, a polyethylene terephthalate film with a thickness of 25p was used in all cases. In this invention, it is free to provide a protective film as appropriate on the deposited film A, and to laminate appropriate materials at appropriate locations.

Claims (1)

[Claims] 1 A A Cu vapor deposited film and an Au vapor deposited film are sequentially laminated on a plastic film. The thickness of the B Cu deposited film is 10 Å to 200 Å. The thickness of the C Au vapor deposited film is 50 Å or more. D The Cu deposited film is thinner than the Au deposited film. E The whole can be seen through. F or more, characterized by meeting the requirements A to E;
Au vapor deposited film.