Ilya A Shkrob

US Patent:

20130017613, Jan 17, 2013

Filed:

Jul 14, 2011

Appl. No.:

13/182873

Inventors:

Michael D. KAMINSKI - Lockport IL, US
Carol J. MERTZ - Downers Grove IL, US
Ilya A. SHKROB - Chicago IL, US
Mark L. DIETZ - Evanston IL, US
Cory A. HAWKINS - Shorewood WI, US

Assignee:

UCHICAGO ARGONNE, LLC - Chicago IL

International Classification:

G01N 33/20
B01D 15/00
B01D 37/02
C01F 11/00

US Classification:

436 79, 423157, 422261, 210749

Abstract:

The present invention provides an apparatus and rapid methods for extracting strontium ions from urine to provide a concentrated and purified strontium-90 extract suitable for scintillation measurements. The methods remove organic compounds, pigments, and alkali metal ions that can interfere with quantitative determination of strontium-90 in urine. A method of the invention comprises acidifying urine and removing organic pigments therefrom, loading a known quantity of so-treated urine onto a diphosphonic acid-based ion-exchange resin; flowing aqueous methanesulfonic acid through the diphosphonic acid-based ion-exchange resin to elute alkali metal ions therefrom; eluting strontium ions off of the diphosphonic acid-based resin and on to a strontium extraction chromatographic resin with a concentrated aqueous nitric acid solution; subsequently flowing water or a dilute acid stripping solution through the strontium extraction resin to strip the strontium from the strontium extraction resin; and collecting the strontium-containing stripping solution eluting from the strontium extraction resin.

US Patent:

20210043975, Feb 11, 2021

Filed:

Oct 19, 2020

Appl. No.:

17/074311

Inventors:

- Chicago IL, US
Ilya A. SHKROB - Chicago IL, US
Daniel ABRAHAM - Bolingbrook IL, US
Zhengcheng ZHANG - Naperville IL, US

Assignee:

UCHICAGO ARGONNE, LLC - Chicago IL

International Classification:

H01M 10/0567
H01M 4/587
H01M 10/0569
H01M 10/0525

Abstract:

Lithium tetrafluoro(malonato)phosphate compounds are useful as additives in lithium ion battery applications. The compounds are represented by Formula (I): MPF[—O(C═O)—(CX′X″)—(C═O)O—]; wherein M is Li or Na; each X′ and X″ independently is selected from the group consisting of H, alkyl, fluoro-substituted alkyl, and F; or wherein the X′ and X″ together are —CR—(CR′)—CR″—; each R, R′ and R″ independently is selected from the group consisting of H methyl, trifluoromethyl, and F; and in is 0 or 1. These compounds can be prepared in high purity and a high yield by reaction of a metal hexafluorophosphate with a bis-silyl malonate compound. A similar oxalato compound, lithium tetrafluoro(oxalato)phosphate), can be made in the same manner, but using a bis-silyl oxalate in place of the bis-silyl malonate. Advantageously, the compounds can be formed, in situ, in a LiPF-containing electrolyte solution.

US Patent:

20210036355, Feb 4, 2021

Filed:

Jul 29, 2019

Appl. No.:

16/524666

Inventors:

- Chicago IL, US
Jingjing Zhang - Downers Grove IL, US
Ilya A. Shkrob - Chicago IL, US

International Classification:

H01M 8/18
H01M 2/16

Abstract:

The present invention provides a redox flow battery comprising a negative electrode (also referred to herein as an “anode”) immersed in a first liquid electrolyte (also referred to herein as a “negative electrolyte” or “anolyte”), a positive electrode (also referred to herein as a “cathode”) immersed in a second liquid electrolyte (also referred to herein as a “positive electrolyte” or “catholyte”), and a cation-permeable separator (e.g., a membrane or other cation-permeable material) partitioning the negative electrode/anolyte from the positive electrode/catholyte. The redox reactant of the catholyte comprises a compound of Formula (I) as described herein.

US Patent:

20210036370, Feb 4, 2021

Filed:

Oct 12, 2020

Appl. No.:

17/068066

Inventors:

- Chicago IL, US
Ilya A. SHKROB - Chicago IL, US
Chen LIAO - Westmont IL, US
Daniel ABRAHAM - Bolingbrook IL, US
Hakim IDDIR - Hoffman Estates IL, US
Juan GARCIA - Naperville IL, US

Assignee:

UCHICAGO ARGONNE, LLC - Chicago IL

International Classification:

H01M 10/0567
H01M 10/0525
H01M 10/058
H01M 10/0569
H01M 10/0568

Abstract:

This invention relates to an electrolyte composition for a lithium ion battery comprising a lithium salt in a non-aqueous solvent containing an additive comprising a compound of formula RSiOP(O)F; wherein each R independently is a hydrocarbyl group; and n is 0 or 1; and wherein the additive is substantially free from (RSiO)P(O)and (RSiO)P(O)F. Electrochemical cells and batteries also are described.

US Patent:

20190207256, Jul 4, 2019

Filed:

Mar 9, 2018

Appl. No.:

15/916723

Inventors:

- Chicago IL, US
Ilya A. SHKROB - Chicago IL, US
Chen LIAO - Westmont IL, US
Daniel ABRAHAM - Bolingbrook IL, US
Hakim IDDIR - Hoffman Estates IL, US
Juan GARCIA - Naperville IL, US

Assignee:

UCHICAGO ARGONNE, LLC - Chicago IL

International Classification:

H01M 10/0567
H01M 10/0525
H01M 10/058
H01M 10/0568
H01M 10/0569

Abstract:

This invention relates to a method for preparing an electrochemical cell comprising the sequential steps of preparing a solution of a lithium salt in an non-aqueous solvent containing an additive compound, and maintaining the solution at a temperature in the range of about 20 to about 30 C. for about 5 to 10 days to form an aged electrolyte; assembling an electrochemical cell from an anode, a cathode, and the aged electrolyte; and electrochemically subjecting the electrochemical cell to formation cycling. The additive compound comprises one or more compounds selected from the group consisting of: (RSiO)B, (RSiO)XY, (RSiO)P, (R′O)PO, (RSi)X′, RSiOS(O)R′; (RSi)OC(═O)R′; wherein each R and R′ independently is a hydrocarbyl group; X is P or B; Y is O or S; X is Ti or Al. Electrochemical cells and batteries also are described.

US Patent:

20190058205, Feb 21, 2019

Filed:

Aug 15, 2017

Appl. No.:

15/677255

Inventors:

- Chicago IL, US
Lu ZHANG - Lisle IL, US
Ilya A. SHKROB - Chicago IL, US

Assignee:

UCHICAGO ARGONNE, LLC - Chicago IL

International Classification:

H01M 8/18
H01M 8/023

Abstract:

The present invention provides a redox flow battery comprising a negative electrode (also referred to herein as an “anode”) immersed in a first liquid electrolyte (also referred to herein as a “negative electrolyte” or “anolyte”), a positive electrode (also referred to herein as a “cathode”) immersed in a second liquid electrolyte (also referred to herein as a “positive electrolyte” or “catholyte”), and a cation-permeable separator (e.g., a membrane or other cation-permeable material) partitioning the negative electrode/anolyte from the positive electrode/catholyte. The redox reactant of the catholyte comprises a compound of Formula (I) as described herein.

US Patent:

20190051921, Feb 14, 2019

Filed:

Aug 11, 2017

Appl. No.:

15/675015

Inventors:

- Chicago IL, US
Lu Zhang - Lisle IL, US
Ilya A. Shkrob - Chicago IL, US

International Classification:

H01M 8/18
H01M 8/02

Abstract:

A redox flow battery comprising a two-electron, redox active, bridged, multi-cyclic compound (“TRBMC”) comprises a non-aromatic, bridged cyclic portion fused to an aromatic cyclic portion.

US Patent:

20190006712, Jan 3, 2019

Filed:

Jun 29, 2017

Appl. No.:

15/637188

Inventors:

- Chicago IL, US
Jingjing ZHANG - Willowbrook IL, US
Ilya A. SHKROB - Chicago IL, US

Assignee:

UCHICAGO ARGONNE, LLC - Chicago IL

International Classification:

H01M 10/0567
H01M 10/0525
H01M 10/0568
H01M 10/0569
C07C 211/36
C07C 317/04

Abstract:

An electrolyte for a lithium-ion electrochemical cell comprises a non-aqueous solution of a lithium salt and a redox shuttle salt compound in a non-aqueous solvent, wherein the redox shuttle compound comprises an amino-substituted cyclopropenium salt of Formula (I) as described herein.