Hermetic seal for electrochromic display
First Claim
1. In an electro-optic display having spaced substrates carrying electrode means, a hermetic sealant between portions of the substrates defining a cell therebetween and an electrolyte in the cell,an improved hermetic sealant providing an inner seal chemically formed in situ at the interface with the electrolyte by reaction therewith and an outer seal surrounding the inner seal, said sealant comprising a mixture of epoxy resin and a curing agent which reacts with the electrolyte at the interface to form a water repellant reaction product, said reaction product forming the inner seal, and which curing agent also reacts with the epoxy resin at areas of the sealant surrounding the interface to cure said resin and thereby form the outer seal.
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Accused Products
Abstract
Disclosed is an improved sealant useful with electrochromic or similar type displays having an acidic electrolyte hermetically sealed between spaced substrates, the sealant providing an inner seal chemically formed in situ at the interface with the electrolyte by reaction therewith and an outer seal surrounding the inner seal. The sealant preferably comprises a mixture of acid resistant epoxy resin and a curing agent, for example, amine or amide, the curing agent reacting with the acidic electrolyte at the interface to form a water-repellant reaction product constituting the inner seal and also reacting at remaining areas of the sealant surrounding the interface to cure the epoxy resin and thereby form the outer seal. In the inventive method, the sealant is at the most only partially cured prior to introduction of the electrolyte into the display so that there is some free curing agent present to react with the electrolyte at the interface and form the inner seal.
32 Citations
16 Claims
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1. In an electro-optic display having spaced substrates carrying electrode means, a hermetic sealant between portions of the substrates defining a cell therebetween and an electrolyte in the cell,
an improved hermetic sealant providing an inner seal chemically formed in situ at the interface with the electrolyte by reaction therewith and an outer seal surrounding the inner seal, said sealant comprising a mixture of epoxy resin and a curing agent which reacts with the electrolyte at the interface to form a water repellant reaction product, said reaction product forming the inner seal, and which curing agent also reacts with the epoxy resin at areas of the sealant surrounding the interface to cure said resin and thereby form the outer seal.
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5. In an electro-optic display having spaced substrates carrying electrode means, a hermetic sealant between portions of the display defining a cell and an acidic electrolyte in the cell,
an improved sealant providing an inner seal chemically formed in situ at the interface with the electrolyte by reaction therewith and an outer seal surrounding the inner seal, said sealant comprising a mixture of acid resistant epoxy resin and a curing agent selected from at least one of an amine and amide which reacts with the acidic electrolyte at the interface to form respective water repellant amino or amido salts, said salts forming the inner seal, and which curing agent also reacts at areas of the sealant surrounding the interface to cure said resin and thereby form the outer seal.
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9. In an electrochromic display having spaced substrates carrying an electrode and electrochromic layer thereon, a hermetic sealant between portions of the substrates to define a cell and a soluble polystyrene sulfonic acid polymer chemically wetted with water in the cell as an electrolyte,
an improved sealant providing an inner seal chemically formed in situ at the interface with the electrolyte by reaction therewith and an outer seal surrounding the inner seal, said sealant comprising a mixture of acid resistant epoxy resin and a curing agent selected from at least one of an amine and amide which reacts with the electrolyte at the interface to form respective water repellant amino or amido polystyrene sulfonate salts, said salts forming the inner seal, and which curing agent also reacts at areas of the sealant surrounding the interface to cure said resin and thereby form the outer seal.
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10. In hermetically sealing an electro-optic display wherein sealant is applied to at least one of two substrates to define a cell therebetween and acidic electrolyte is introduced into the cell, the improved steps of:
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(a) applying to said substrate a sealant comprising a mixture of acid resistant epoxy resin and a curing agent which is reactive with the electrolyte to form water repellant salts; (b) chemically forming an inner seal in situ at the interface between the sealant and electrolyte by introducing electrolyte into the cell prior to the sealant being completely cured so that some curing agent is free to react with the electrolyte and form said water repellant salts, said salts comprising the inner seal; and (c) forming an outer seal surrounding the chemically-formed inner seal by completely curing areas of the sealant surrounding the inner seal. - View Dependent Claims (11, 12, 13)
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14. In an electro-optic display having a fill port through which an electrolyte is introduced into the display.
an improved fill port sealant providing an inner seal chemically formed in situ at the interface between the sealant and electrolyte and an outer seal surrounding the inner seal, said sealant comprising a mixture of an epoxy resin and a curing agent which reacts with the electrolyte at the interface to form a water repellant reaction product, said reaction product forming the inner seal, and which curing agent also reacts with the epoxy resin at areas of the sealant surrounding the interface to cure said resin and thereby form the outer seal.
Specification