JPS6311933A - Optical recording medium - Google Patents

Abstract

PURPOSE:To impart a steric hindrance to a titled medium and to suppress an isomerization reaction by incorporating a long chain to fulgide by using a specific photochromic compd. CONSTITUTION:The photochromic compd. expressed by the formula I (R is an alkyl chain of 5-31C) is used. The steric hindrance is imparted to the compd. and the decrease of a conversion rate by the isomerization is prevented by the long chain of the hydrocarbon incorporated into the compd. Since the fulgide skeleton itself has the higher hydrophilicity than the hydrophilicity of a long chain part, LB film is formed and the thin film having the properties of the fulgide is easily obtd. The easy formation of the independent LB film which is well balanced in the hydrophilic and hydrophobic characteristics and is, therefore, easy to handle is facilitated by the hydrocarbon of preferably 13-23C.

Description

[Detailed description of the invention] Industrial applications The present invention relates to a rewritable optical recording medium.

2. Description of the Related Art Photochromic materials have been known as materials that can reversibly change color when exposed to two types of light sources with different wavelengths. Fulgide is one of the photochromic materials. (1) is the general formula of fulgide. In other words, fulgide is a compound in which an alkylidene group is attached to each of the two methylene carbons of succinic anhydride or its derivatives (at least one of R1-R4 is an aromatic ring, X=o, N-R). , it has been reported that it has a long cycle life compared to other photochromic compounds. However, to date, there have only been reports of photochromism in polymer matrices (US Pat. No. 4,220,708) or clay (US Pat. No. 4,503,177) for use as optical recording media. .

Problems to be Solved by the Invention There are two problems in using fulgide as an optical recording medium. One is an isomerization reaction. Fulgide has positional isomers that do not exhibit photochromism. Until now, fulgide had a side reaction to form this positional isomer, which lowered the conversion rate of this reaction. Another problem is thinning the film. The LB method is the best method for producing a uniform thin film, but to date there has been no example of forming an LB film using fulgide. This is because fulgide does not have long hydrophobic chains and therefore is difficult to spread on the air-water interface and create an LB film.

The purpose of the present invention is to impart steric hindrance to fulgide by introducing a long chain to suppress the isomerization reaction. Moreover, at the same time, the purpose is to form a thin film using the LB method and impart fulgide photochromism onto the thin film.

Means for Solving the Problems An optical recording medium is constructed using a photochromic compound represented by the following general formula.

Q Here, R is a hydrocarbon with C=6 to C=314 〇 Effect The long chain of hydrocarbon introduced into the above compound imparts steric hindrance, reducing the conversion rate due to isomerization. ◇ In addition, since the fulgide skeleton itself is more hydrophilic than the long chain portion, it forms an LB film.@Thus, a thin film with the properties of fulgide can be easily obtained〇Example The raw materials that are easily available industrially are hydrocarbons up to C=31. Furthermore, hydrocarbons with C=s less than s require separation of stereoisomers during synthesis. Preferably, it is a hydrocarbon of C=13 to C=23, which has a good balance between hydrophilicity and hydrophobicity, and is therefore easy to handle and easy to form an LB film by itself.

Furthermore, by forming an LB film using a mixture with a hydrocarbon, the filling rate of the long chain portion of fulgide increases, making it possible to form a more stable LB film.

Example 1 Fulgide (hereinafter abbreviated as FF-10) having the structure shown below was used.

! Record 1 by performing a spin code for 60 seconds at 600 rpm.
: Reacted rapidly within the layer, changed to a colored form, and developed a red color (Ama = 600 nm). Furthermore, upon irradiation with visible light (λ = 500 nm), this colored form quickly returned to the original FF-10 within the same recording layer.

Example 2 A recording layer was prepared on a substrate using the LB method using FF-1o as a benzene solution under the following conditions.

Substrate Nijirica glass immersed in a 10% toluene solution of chlorotrimethylsilane for 10 minutes and then washed with trichloroethane.Tora 7: 140w x 600m Subphase: pH 7,01 J acid buffer 5: Gya 1
8°0 Compression speed: 1oTllI/m1n Cumulative pressure: 15 mN/m Cumulative number: 16 layers Similar to the recording layer in Example 1, this recording layer also undergoes a reversible reaction using two types of light sources with different wavelengths. did.

Example 3 A benzene solution having a mixing ratio of FF-1o/octadecane=H was prepared, and a recording layer was formed in the same manner as in Example 1.

Similar to the recording layer in Example 1, this recording layer also underwent a reversible reaction using two types of light sources with different wavelengths.

Furthermore, in this case, at room temperature in the dark, FF-10 has a half-life of one week, and the colored form has a half-life of one day or more.
In the case of FF-10 alone as shown in (half-life is about 1 hour)
The stability was significantly improved.

The absorption spectra in each case are shown as curves A and B in the figure.

Effects of the Invention The present invention makes it possible to provide an optical recording medium with a long recording life, and its ripple effects are significant.

[Brief explanation of the drawing]

The figure is an absorption spectrum diagram of a recording layer of an optical recording medium in an example of the present invention. Patent applicant: Agency of Industrial Science and Technology, Nagasaki
νθlong (wari)

Claims (3)

[Claims] (1) An optical recording medium using a photochromic compound represented by the following general formula. (However, R is an alkyl chain with C=5 to 31) ▲There are mathematical formulas, chemical formulas, tables, etc.▼ (2) The optical recording medium according to claim 1, which has a recording layer made of an LB film of a photochromic compound. (3) The optical recording medium according to claim 1, which has a recording layer made of an LB film of a mixture of a photochromic compound and a hydrocarbon.