Method of making a combination ion responsive and reference electrode
First Claim
1. A method of making a combination electrode comprising the steps of depositing a first metallic layer on a first surface area of an insulating substrate, depositing a first solid electrolyte layer on said metallic layer and depositing a pH glass layer on said electrolyte layer, depositing a second metallic layer on a second electrically isolated surface area of said insulating substrate, depositing a second solid electrolyte layer on said second metallic layer, depositing a second glass layer on said second electrolyte layer, said second glass layer having a coefficient of thermal expansion mismatched with respect to a coefficient of thermal expansion of said second electrolyte layer to produce differential expansion therebetween causing cracking of said second glass layer during a predetermined temperature cycle and exposing said electrode to said temperature cycle, said second metallic layer, said second electrolyte layer and said second glass layer being electrically isolated from said first metallic layer, said first electrolyte layer and said pH glass layer.
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Abstract
A solid state pH measuring electrode having the pH measuring electrode structure formed by successive layers on an insulating substrate with an outer pH sensitive glass layer being deposited on a supporting solid electrolyte layer by RF sputtering. The reference electrode is similarly formed by depositing an outer layer of glass onto a supporting solid electrolyte layer by RF sputtering with the temperature expansion of the glass and supporting solid electrolyte structure being selected to produce a differential expansion causing random cracking of the glass layer during temperature cycling of the reference electrode. A combination structure is provided wherein the pH measuring electrode and the reference electrode are formed on opposite sides of the same electrically insulating substrate with a thermal compensating element being included in the integrated package.
19 Citations
8 Claims
- 1. A method of making a combination electrode comprising the steps of depositing a first metallic layer on a first surface area of an insulating substrate, depositing a first solid electrolyte layer on said metallic layer and depositing a pH glass layer on said electrolyte layer, depositing a second metallic layer on a second electrically isolated surface area of said insulating substrate, depositing a second solid electrolyte layer on said second metallic layer, depositing a second glass layer on said second electrolyte layer, said second glass layer having a coefficient of thermal expansion mismatched with respect to a coefficient of thermal expansion of said second electrolyte layer to produce differential expansion therebetween causing cracking of said second glass layer during a predetermined temperature cycle and exposing said electrode to said temperature cycle, said second metallic layer, said second electrolyte layer and said second glass layer being electrically isolated from said first metallic layer, said first electrolyte layer and said pH glass layer.
- 6. A method of making a combination electrode comprising the steps of depositing a first metallic layer on a first surface area of an insulating substrate, depositing a first solid electrolyte layer on said metallic layer and depositing an ion responsive layer on said electrolyte layer, depositing a second metallic layer on a second electrically isolated surface area of said insulating substrate, depositing a second solid electrolyte layer on said second metallic layer and depositing an ion conducting path layer on said second electrolyte layer, said second metallic layer, said second electrolyte layer and said ion conducting path layer being electrically isolated from said first metallic layer, said first electrolyte layer and said ion responsive layer.
Specification