Abstract: A method of operating an iron redox flow battery system may comprise fluidly coupling a plating electrode of an iron redox flow battery cell to a plating electrolyte; fluidly coupling a redox electrode of the iron redox flow battery cell to a redox electrolyte; fluidly coupling a ductile plating additive to one or both of the plating electrolyte and the redox electrolyte; and increasing an amount of the ductile plating additive to the plating electrolyte in response to an increase in the plating stress at the plating electrode. In this way, ductile Fe can be plated on the negative electrode, and the performance, reliability and efficiency of the iron redox flow battery can be maintained. In addition, iron can be more rapidly produced and plated at the plating electrode, thereby achieving a higher charging rate for all iron flow batteries.

Abstract: Techniques for electrodepositing zinc (Zn)-containing films are provided. In one aspect, a method of preparing a Zn electroplating solution is provided. The method includes the following steps. The solution is formed from a mixture of at least one zinc salt, a sulfonic acid and a solvent. The sulfonic acid is quenched with a base. A pH of the solution is adjusted to be either less than about 3.5 or greater than about 8.0. The pH of the solution can be adjusted by adding additional sulfonic acid to the solution to adjust the pH of the solution to be less than about 3.5 or by adding a second base to the solution to adjust the pH of the solution to be greater than about 8.0. A Zn electroplating solution and an electroplating method are also provided.

Abstract: To provide a zincate zinc plating bath capable of efficiently forming a zinc plating film with high brightness and high qualities even at a low current density. The zincate zinc plating bath is used in electroplating for depositing a metal containing at least zinc and forming a zinc plating film. It contains a primary brightener having a function of reducing the size crystals of the metal to be deposited and a plating accelerator containing a heterocyclic compound having a predetermined structure such as 2,5-dimercapto-1,3,4-thiadiazole.

Abstract: An additive for an alkaline zinc or zinc alloy electroplating bath medium, the additive comprising a random co-polymer comprising the reaction product of: (i) one or more di-tertiary amines including an amide or thioamide functional group, and (ii) optionally, one or more saturated second di-tertiary amines and/or one or more second di-tertiary amines including an unsaturated moiety, with (iii) one or more saturated or unsaturated linking agents capable of reacting with said di-tertiary amines (i) and (ii), provided that, where all the linking agents are saturated, an unsaturated di-tertiary amine must he present. Preferably, the polymer has the general formula n(2x+2y+zEp)j-.

Abstract: A polymer additive for alkaline zinc and zinc alloy electrodepositing media and processes comprises the reaction product of one or both of (i) a first di-tertiary amine of the formula:  where R′ represents  and q is 2 to 6, R represents CH3 or C2H5 and each R may be the same or different and m is 2 to 4, and a second di-tertiary amine of the formula:  where B is CgH2g+1 and g=0 or an integer the respective B groups being the same or different, and f=0 o an integer, and R″ represents CH3 or C2H5 and each R″ may be the same or different, with (ii) a di-halo alkane of the formula: A—(CH2)n—A where A represents a halogen atom and n is at least 2. The resulting polymer preferably has the general structure: Where: 0≦x≦1 0≦y≦1 and: either (x or y) or (x and y)=1 z is at least 2 and when y=0, n is at least 3.

Abstract: A high current density electrogalvanizing process and composition are disclosed for reducing high current density dendrite formation and controlling high current density roughness, grain size and orientation of a zinc coating obtained from an acidic aqueous zinc salt. The process comprises adding a sulfonated condensation product of naphthalene and formaldehyde to the acidic aqueous zinc salt in an electrolytic cell and applying an electromotive force to the anode and cathode in the cell sufficient to produce a high current density on the cathode. The composition consists essentially of an acidic aqueous zinc salt aqueous in combination with a sulfonated condensation product of naphthalene and formaldehyde which is used as an antidendritic agent.

Abstract: A high current density electrogalvanizing process and composition are disclosed for reducing high current density dendrite formation and controlling high current density roughness, grain size and orientation of a zinc coating obtained from an acidic aqueous zinc salt. The process comprises adding a sulfonated condensation product of naphthalene and formaldehyde to the acidic aqueous zinc salt in an electrolytic cell and applying an electromotive force to the anode and cathode in the cell sufficient to produce a high current density on the cathode. The composition consists essentially of an acidic aqueous zinc salt aqueous in combination with a sulfonated condensation product of naphthalene and formaldehyde which is used as an antidendritic agent.

Abstract: The invention is directed towards a CO-tolerant fuel cell electrode formed from a carbon supported, platinum dispersed, non-stoichiometric hydrogen tungsten bronze electrode catalyst. The electrode catalyst is capable of oxidizing CO at very low potentials, and is sequentially formed from stable precursors.

Abstract: The inventors disclose a process for producing semi-bright to bright electrogalvanic coatings at high current densities, comprising electroplating a cathodic conductive substrate in a coating bath based on:a) a zinc sulfur-acid salt;b) a low molecular weight polyoxyalkylene glycol based on 2 to about 4 carbon atom alkylene oxides;c) an aromatic sulfonate; andd) a conductivity enhancing salt.The process includes maintaining the coating composition at a pH from about 2 to about 5 and the current density on the substrate at from about 1,000 to about 3,700 ASF. The zinc sulfur-acid salt includes zinc sulfate or a zinc organosulfonate, and the conductivity enhancing salt, a potassium salt. In one embodiment, the aromatic sulfonate comprises a condensation product of an aromatic sulfonate and formaldehyde. The inventors also describes coating bath compositions.

Abstract: A high current density electrogalvanizing process and composition are disclosed for reducing high current density dendrite formation and edge burn and controlling high current density roughness, grain size and orientation of a zinc coating obtained from a zinc sulfate aqueous acidic electrogalvanic coating bath. The composition comprises a high molecular weight polyoxyalkylene glycol grain refining agent in combination with a sulfonated condensation product of naphthalene and formaldehyde which is used as an antidendritic agent.

Abstract: An electrogalvanizing process and composition are disclosed for reducing high current density dendrite (HCD) formation and edge burn and controlling high current density roughness, grain size and orientation of a zinc coating obtained from a zinc halide aqueous acidic electrogalvanic coating bath. A low molecular weight polyoxyalkylene glycol homopolymer or copolymer based on 3 to about 4 carbon atom alkylene oxides as a grain refining agent in combination with a sulfonated condensation product of naphthalene and formaldehyde which is used as an antidendritic agent.

Abstract: The present invention relates to a novel composition of matter, and a process for its use as an electroplating additive for enhancing the performance of a plating bath. Polyalkylene glycol bis-phenyl-A-Sulfopropyl diether compounds and their salts are proposed and their usefulness as plating bath additives is disclosed.

Abstract: An additive composition is described with comprises a mixture of(a) poly(N-vinyl-2-pyrrolidone), and p0 (b) at least one sulfur-containing compound selected from compounds of the formulaeRS(R'O).sub.n H (I)orS--[(R'O).sub.n H].sub.2 (II)wherein R is hydrogen or an alkyl group containing up to about 24 carbon atoms, each R' is independently an alkylene group containing 2 or 3 carbon atoms, and each n is independently an integer of from 1 to about 100.This additive composition is useful in acidic plating baths containing zinc or a mixture of zinc ions and at least one additional metal selected from nickel and cobalt. The plating baths also contain chloride ions or a mixture of chloride and sulfate ions.