Surface modification of plastic optical fibers
First Claim
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1. An optical fiber comprising:
- an optical fiber having a surface composed of poly (methyl methacrylate) which is modified by applying to said surface the reaction product of a reaction effected in a substantially oxygen-free atmosphere of N-butyl lithium with ethylene diamine.
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Abstract
A method of chemically modifying the poly (methyl methacrylate) (hereinafter "PMMA") clad surface of an optical fiber to introduce amino groups. N-butyl lithium in a suitable organic solvent with ethylene diamine is applied to the clad surface of the optical fiber in a substantially oxygen-free atmosphere, such as nitrogen, at approximately 10° C. to 40° C. for about one to two hours. A pH-sensitive dye with isothiocyanate functionality can be bounded to the modified clad surface resulting in a pH sensor based on fiber optics.
17 Citations
3 Claims
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1. An optical fiber comprising:
an optical fiber having a surface composed of poly (methyl methacrylate) which is modified by applying to said surface the reaction product of a reaction effected in a substantially oxygen-free atmosphere of N-butyl lithium with ethylene diamine.
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2. A pH-sensor comprising:
an optical fiber having a surface composed of poly (methyl methacrylate) which is modified by applying to said surface the reaction product of a reaction effected in a substantially oxygen-free atmosphere of N-butyl lithium with ethylene diamine and using amino groups introduced by said applying of said reaction product onto said surface of said fiber to bind a pH-sensitive dye with isothiocyanate functionality.
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3. A method of testing for pH, the steps comprising:
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providing an optical fiber having a surface composed of poly(methyl methacrylate), applying to the surface thereof the reaction product of a reaction effected in a substantially oxygen-free atmosphere of N-butyl lithium with ethylene diamine, utilizing amino groups introduced by applying the reaction product onto said surface of said fiber to subsequently modify said surface of said optical fiber by binding a pH-sensitive dye with isothiocyanate functionality, and subsequently employing said optical fiber with said pH sensitive dye bound thereto as a pH sensor.
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Specification