Solution cluster
Cathodic protection
Electrochemical methods that reduce corrosion in buried metal systems.
Why it matters
This approach appears across patents that solve related technical constraints through a common strategy family.
Patents in current set
9
Domain
Infrastructure / energy
Patents in this approach
Binder for anode of secondary battery, anode of secondary battery and secondary battery
US12573633 • LG Chem, Ltd.
This invention relates to a binder for an anode of a secondary battery, an anode of a secondary battery, and a secondary battery.
Turbine-induced ICCP system for metallic pipelines
US12297546 • RUEHLE MAY ISAIAH [US]
turbine-induced Impressed Current Cathodic Protection (ICCP) system for metallic pipelines utilizes the kinetic energy of fluid flow within the pipeline to generate electrical power for corrosion protection.
Anode slurry composition for secondary battery
US12573635 • HANSOL CHEMICAL CO., LTD.
The present disclosure relates to an anode slurry composition for secondary batteries, comprising an anode active material; and a binder including a copolymer of (meth)acrylic acid monomer, acrylonitrile-based monomer, and (meth)acrylamide monomer, wherein a value obtained by dividing an absolute value of a zeta potential of the binder by an oxygen content per specific surface area of the anode active material is in a range from 0.6 10 5 mV m 2 /g to 2.0 10 5 mV m 2 /g.
Anode material for lithium-ion secondary battery, and anode, battery and manufacture method thereof
US12573617 • CPC CORPORATION, TAIWAN
anode material for a lithium-ion secondary battery, comprising: lithium titanate and a modified layer coating on the surface of the lithium titanate, wherein the modified layer is a fluorocarbon.
Lithium metal anode, fabrication method thereof, and lithium secondary battery comprising same anode
US12573609 • POSCO Holdings Inc.
One embodiment of the present invention relates to a lithium metal anode.
Anode for all-solid secondary battery, all-solid secondary battery including the same, and manufacturing method thereof
US12573620 • SAMSUNG ELECTRONICS CO., LTD.
anode-solid electrolyte sub-assembly for an all-solid secondary battery, the anode-solid electrolyte sub-assembly including: an anode current collector; an anode material layer on the anode current collector; and a solid electrolyte on the anode material layer and opposite the current collector, wherein the anode material layer includes an interlayer, which contacts the solid electrolyte and includes a composite including a first metal material; and a first anode active material layer on the interlayer and opposite the anode current collector, the first anode active material layer including a lithium metal, a lithium alloy, or a combination thereof, wherein the lithium metal or the lithium alloy have a particle size greater than the particle size of the first metal material.
Anode mixture for secondary battery, anode and secondary battery including the same
US12573632 • LG Chem, Ltd.
The present disclosure relates to an anode mixture for a secondary battery, an anode and a secondary battery including the same.
Anode for a lithium secondary battery with an interfacial layer made of phosphorous-doped graphitic carbon nitride and a single ion conducting polymer, a lithium secondary battery, and a manufacturing method thereof
US12573638 • HYUNDAI MOTOR COMPANY
Disclosed are an anode for a lithium secondary battery, a lithium secondary battery including the anode, and a manufacturing method thereof.
Organic light-emitting diode display with optical cavities and silver anodes
US12575265 • Apple Inc.
Pixels in an organic light-emitting diode (OLED) display may be microcavity OLED pixels having optical cavities.