The present invention relates to paste-like masses that can be used in electrochemical elements, comprising a heterogeneous mixture of (A) a matrix containing or comprising at least one organic polymer, precursors thereof, or prepolymers thereof, (B) an electrochemically activatable inorganic or lar
The present invention relates to paste-like masses that can be used in electrochemical elements, comprising a heterogeneous mixture of (A) a matrix containing or comprising at least one organic polymer, precursors thereof, or prepolymers thereof, (B) an electrochemically activatable inorganic or largely inorganic liquid that does not dissolve the matrix or essentially does not dissolve the matrix, and, if required, (C) a powdery solid that is essentially inert relative to the electrochemically activatable liquid. The invention furthermore relates to self-supporting layers or layers that are placed on a substrate, comprising a heterogeneous mixture of (A) a matrix containing or comprising at least one organic polymer as defined in any of claims 1 through 7, (B) an electrochemically activatable inorganic or largely inorganic liquid that does not dissolve the matrix or essentially does not dissolve matrix, and if required, (C) a powdery solid that is essentially inert relative to the electrochemically activatable liquid, and composite layers with electrochemical properties that contain such layers. The layers and composite layers can be used advantageously for producing batteries, low-temperature fuel cells, solar cells, or electrochemical sensors.
대표청구항▼
1. A paste-like mass that can be used in electrochemical elements, comprising a heterogeneous mixture of: a matrix containing or comprising at least one of the group consisting of organic polymer, precursors thereof, and prepolymers thereof;an electrolyte that does not dissolve said matrix or essent
1. A paste-like mass that can be used in electrochemical elements, comprising a heterogeneous mixture of: a matrix containing or comprising at least one of the group consisting of organic polymer, precursors thereof, and prepolymers thereof;an electrolyte that does not dissolve said matrix or essentially does not dissolve said matrix, wherein the electrolyte can contain up to 70 vol. % organic solvent, relative to the total quantity of solvent used, said solvent being miscible with water; anda powdery solid that is essentially inert relative to said electrolyte, and wherein said electrolyte is an anhydrous, inorganic liquid and contains at least one of undissolved solid electrolytes, a mixed conductor, and electrolyte material. 2. A paste-like mass in accordance with claim 1, wherein said matrix also contains at least one of: a plasticizer; and a solvent or a swelling agent. 3. A paste-like mass in accordance with claim 1, wherein said matrix is or contains a cross-linkable liquid or soft resin. 4. A paste-like mass in accordance with claim 1, wherein a hygroscopic salt is furthermore worked into said matrix material. 5. A paste-like mass in accordance with claim 1, wherein said inorganic liquid contains magnesium chloride. 6. A paste-like mass in accordance with claim 1, wherein said matrix is or contains a cross-linkable liquid or soft resin and said resin is selected from among cross-linkable addition polymers and condensation resins, said cross-linkable addition polymers and condensation resins comprising aminoplasts, phenoplasts, epoxy resins, polyesters, polycarbamates, and methyl methacrylate reaction resins. 7. A paste-like mass in accordance with claim 1, wherein said organic polymer of said matrix is selected from among natural polymers and synthetic polymers and mixtures thereof, especially natural and synthetic polysaccharides, proteins, resins, waxes, and halogenated and non-halogenated rubbers, thermoplasts, and thermoelastomers. 8. A paste-like mass in accordance with claim 1, wherein said matrix contains or comprises at least one organic polymer that is at least partially dissolved or swollen in a solvent or swelling agent and said organic polymer is selected from among synthetic polymers and natural polymers and mixtures thereof.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Crosslinked hybrid electrolyte film and methods of making and using the same.
Gozdz Antoni S. (Tinton Falls NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Electrolyte activatable lithium-ion rechargeable battery cell.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Warren Paul C. (Far Hills NJ), Hybrid lithium-ion battery polymer matrix compositions.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Lithium secondary battery extraction method.
Maas Werner E. (Billerica MA) Cory David G. (Winchester MA) Laukien Frank H. (Lincoln MA), Method for the reduction of radiation damping during signal acqusition in NMR experiments.
Schmutz Caroline N. (Eatontown NJ) Shokoohi Frough K. (Fair Haven NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Method of making a laminated lithium-ion rechargeable battery cell.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Method of making an electrolyte activatable lithium-ion rechargeable battery cell.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Method of making polymeric electrolytic cell separator membrane.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Polymeric electrolytic cell separator membrane.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Tarascon Jean-Marie (Martinsville NJ) Warren Paul C. (Far Hills NJ), Rechargeable lithium battery construction.
Gozdz Antoni S. (Tinton Falls NJ) Schmutz Caroline N. (Eatontown NJ) Tarascon Jean-Marie (Martinsville NJ), Rechargeable lithium intercalation battery with hybrid polymeric electrolyte.
Bates John B. (Oak Ridge TN) Dudney Nancy J. (Knoxville TN) Gruzalski Greg R. (Oak Ridge TN) Luck Christopher F. (Knoxville TN), Thin film battery and method for making same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.