TH65701B - Electrolytic capacitors with a polymer outer layer and a process for manufacturing them. - Google Patents

Abstract

DC60 (22/09/49) A methodological invention for the manufacture of electrolytic capacitors with Low equivalent series resistance and low residual current consisting of solid electrolyte. Prepared from a conductive polymer and an outer layer containing a conductive polymer, electrolytic capacitors produced by This process and about the use of such electrolytic capacitors. Invention of a method for the manufacture of electrolytic capacitors with Low equivalent series resistance and low residual current consisting of solid electrolyte. Prepared from a polymer conductor and an outer layer containing a conductive polymer, electrolyte capacitors produced by This process and about the use of such electrolytic capacitors.

Claims (6)

Disclaimer (all) which will not appear on the advertisement page: Amendment 19/10/2018 Claims None -------------------------------------------------- -------------------------------------------------- 1.Procedures for the manufacture of electrolytic capacitors, including Application of dispersant a) to capacitor bodies where such capacitor bodies consist of porous electrode bodies of the electrode material. Dielectric covering the surface of this electrode material A rigid electrolyte comprising at least a conductive material, which covers all or part of the dielectric surface, and dispersion a) it contains at least particles b) of Conductive polymers with selected polymers and / or polythiophene Is substituted for at least one type with repeating units of general formulas (I) or formulas (II) or repeating units of common formulas (I) and (II) (chemical formulas) (I) (chemical formulas) (II), where A represents. C1 to C5 Selected alkyl radicals replaced R instead of C1 to C18 The selected alkyl radicals are replaced linear or branched C5 to C12 cycloalkyl radicals at May choose to be replaced, C6 to C4. Aerillradical selected. To be replaced, C7 to C18 Aralcyl radical selected, C1 to C4 hydroxyl radical Radicals that may choose to be substituted or hydroxyl radical x represent integers from 0 to 8, and if some radical R are bonded to A, these groups may be the same or different, and There is a stabilizer c) and a dispersant d) and for the formation of the conductive polymer outer layer, the dispersant d) is at least partially eliminated, selectable and / or fasteners. c) cured where a fraction of the particle b) of the conductive polymer in the dispersant a) with a diameter of less than 700nm produced at least 5% solid content by weight of the solid content of the dispersant and Where, b) through d), there are also solid particles e) that pass through The center in the range from 0.7 to 20 μm is also contained in the dispersant 2. The process of claim 1, where the particle b) of the conductive polymer in the dispersion a) has an average diameter from 5 to 500. Nm 3. Process according to claim 1, in which solid particles e) are based on conductive polymers, in particular poly (3,4-ethylene dioxyphenol) 4. . Process according to claim 1, in which solid particles e) have a filler as a basis 5. Process according to claim 1, in which the filler is carbonate, silicate, silica, calcium sulfate. Fulfate, barium sulfate, aluminum hydroxide, glass fibers, glasbulb, wood powder, cellulose powder, carbon black, silicon oxide or silicon dioxide 6.Process in claim 1. , In which the filler is calcium carbonate, carbon, graphite, carbon black, metal, metal oxide, ceramic, silicate, silicon, quartz, glass, precipitated silica, pi Rogenic silica or silicasol 7. The action according to claim 1, in which the polyphene of particle b) in dispersant a) is poly (3,4- Ethylene dioxythiophene) 8. Process according to claim 1, in which the dispersant a) There is also at least one type of anionic polymer. 9. Process according to claim 8, in which the polymeric Anion is the anion of the polymer. Carboxylic or sulfonic acid 1 0. Treatment according to claim 1, where the elongation c) with dispersant a) is an organic stabilizer. 1. Process according to claim 1, in which the ratio of the solid content (% to weight) of the carrier c) to the solid content of the solid particles e) is greater than 1: 2 1 2. The process according Clause 1, in which the dispersant a) was corrected to a pH from 1 to 8 prior to application 1 3. The process of claim 1, where the viscosity of the dispersant a) was from 10 to 1500 mPa s (Measured at a shear rate of 100 s -1) 1 4. Process according to claim 1, where the dispersant d) where the dispersant a) is the organic solvent, water or a mixture of organic solvents and water. 1 5. Process according to claim 1, in which the dispersant a) still contains cross-linked and / or Surfactant and / or Additive 1 6. Process according to claim 15, in which the additional additives contained in the dispersant a) are ether, lactone, amide or compound. Containing lactam group, sulphones, sulfoxides, sugars, sugar derivatives, sugar alcohols, furan derivatives and / or di- or polyalcohols 1 7. Claims Process Clause 1, in which a pH sensitive dielectric, a dispersant a) was modified to a pH from 4 to 8 1. 8. Treatment according to claim 1, where the proportion of particles e) in the dispersant. A) is at least 5% by weight of the solid content of the substance a) 1 9. Treatment according to claim 1, in which, in the dispersion a), the proportion of particles b) with a smaller diameter. More than 700 nm, compared to the solid content of those substances, is at least 10% by weight of the solid content of the dispersant 2 0. Treatment according to claim 1, which, in the dispersant a), the proportion B) particles with a diameter of less than 500nm, preferably less than 400nm, compared to The solid content of those substances, which is at least 5% by weight, should be at least 10% by weight, preferably at least 15% by weight of the solid content of the dispersant 2 1. Process according to claim 1, where solid particles e) in dispersant a) average diameter from 1 μm to 10 μm 2 2. process according to claim 1, where solid particles e) in dispersant a) The diameter distribution of d10 was greater than 0.9 μm and d90 was less than 15 μm, and d90 was less than 10 μm. 2. 3. Process according to claim 8, in which the polymers Such anions are polystyrene sulfonic acid, whose solid content (% to weight) ratio of the c) to the solid content of solid particles e) is greater than 1: 1, the proportion of Particles e) in the dispersant a) is at least 15% by weight of the volume. The solids of the dispersant a) and the average diameter from 1 μm to 5 μm, and solid particles e) in the dispersant a) had a diameter distribution d10 greater than 1.2 μm and d90 less than 8 μm, in the dispersant a. ), The proportion of particles b) with a diameter of less than 700nm, compared to the solid content of those substances, is at least 15% by weight of the solid content. Of dispersant And the proportion of particles b) with diameter less than 400nm, compared to the solid content of those substances, is at least 15% by weight of the solid content. 2 4. Process according to claim 1, in which the conductive material of the solid-polymer conductive 2 5. Process according to claim 24, in which the polymer The conductors contained in the rigid electrolyte are polyphenols, polypropylene rolls or polyanylene, which were selected to be replaced 2. 6. Procedures according to claim 25, which is sufficient. Conductive polymers contained in solid electrolytes are Polyphenols with repeating units of general formulas (I) or formulas (II), or repeating units of general formulas (I) and (II), (chemical formulas) (chemical formulas) (I) (II), where A Instead of C1 to C5, the selected alkyl radical was replaced, R instead of C1 to C18, the selected alkyl radical was replaced with linear or branched alkyl radical, C5 to C12 cycloalckylra. Selected aralcyl radical replaced, C6 to C14 selected aralcyl radical, C7 to C18 selected aralcyl radical, C1 to C4 hydroxyl radical. The selected radical has been replaced. Or a hydroxyl radical, x represents an integer from 0 to 8 and if some radical R is attached to A, these groups may be the same or different 2 7.Procedure according to claim 26, The conductive polymers contained in solid electrolytes are Poly (3,4-ethylene dioxythiophene) 2 8. Process according to claim 1, in which the hard electrolyte contains monomer anion 2 9 The process according to claim 1, where the electrode material of the body electrode is a metal valve or a compound with electrical properties comparable to the valve. Those metals 3. 0. Process according to claim 29, in which metal valves or qualified compounds Electrical comparable with the valve These metals are tanlum, niobium, aluminum, titanium, zirconium, hafnium, vanadium, alloys or their compounds. At least one with another element, NbO, or an alloy or a compound of NbO with another 3 1. The process according to claim 1, where dielectric is the oxide of the valve metal or the oxide of the compound with electrical properties comparable to the valve. Those Metals 3 2. Process according to claim 1, where after the application of the dispersant a) and the formation of the conductive polymer outer layer, capacitors are selected selectively to external contact. That is more conductive And be touched and wrapped selectively 3 3. Electrolytic capacitors produced by the process of claim 1 3. 4. Electrolytic capacitors according to claim 33, whose characteristics are The average thickness of the outer polymer layer is 1 to 100 μm 3. 5. Electrolytic capacitors according to claim 33, which electrolytic capacitors have The charge-mass ratio of more than 10000 μCoulomb / g, compared to the weight of the electrode body. Coated with dielectric 3 6. Electronic circuit consisting of electrolytic capacitors as per claim 33.