Polymer functionalized graphene oxide and thermally responsive ion permeable membranes made therefrom
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-002/16
H01M-010/42
H01M-004/133
H01M-004/587
H01M-002/34
B01D-069/02
B01D-069/14
B01D-071/02
H01M-004/38
H01M-010/052
출원번호
US-0700273
(2015-04-30)
등록번호
US-10090565
(2018-10-02)
발명자
/ 주소
Kung, Harold H.
Shen, Jingmei
Kung, Mayfair C.
Hayner, Cary M.
출원인 / 주소
Northwestern University
대리인 / 주소
Bell & Manning, LLC
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
Thermally responsive materials, porous membranes comprising the thermally responsive materials, and batteries incorporating the porous membranes as thermally responsive separation membranes are provided. Also provided are methods of making the thermally responsive materials. The thermally responsive
Thermally responsive materials, porous membranes comprising the thermally responsive materials, and batteries incorporating the porous membranes as thermally responsive separation membranes are provided. Also provided are methods of making the thermally responsive materials. The thermally responsive materials comprise upper critical solution temperature (UCST) polymers covalently bound to a support substrate.
대표청구항▼
1. A thermally responsive material comprising: a substrate; andpoly(3-(N-2-methacryloyloxyethyl-N,N-dimethyl)ammonatobutane-sulfonate molecules covalently bonded to the substrate, the polymer molecules having an upper-critical solution temperature in a non-aqueous solution, the polymer molecules cha
1. A thermally responsive material comprising: a substrate; andpoly(3-(N-2-methacryloyloxyethyl-N,N-dimethyl)ammonatobutane-sulfonate molecules covalently bonded to the substrate, the polymer molecules having an upper-critical solution temperature in a non-aqueous solution, the polymer molecules characterized in that they phase separate from the non-aqueous solution at temperatures below the upper-critical solution temperature, but undergo a reversible conformational change at the upper-critical solution temperature such that they are miscible in the non-aqueous solution at temperatures above the upper-critical solution temperature;wherein the thermally responsive material is porous and electrically insulating. 2. The material of claim 1, wherein the poly(3-(N-2-methacryloyloxyethyl-N,N-dimethyl)ammonatobutane-sulfonate molecules have an Mn in the range from about 100,000 to about 400,000 g/mol. 3. A battery comprising: a first electrode;a second electrode;a porous, electrically insulating, thermally responsive membrane between the first electrode and the second electrode, the porous, electrically insulating, thermally responsive membrane comprising: a substrate and polymer molecules covalently bonded to the substrate, the polymer molecules having an upper-critical solution temperature in non-aqueous solution, such that they phase separate from the non-aqueous solution at temperatures below the upper-critical solution temperature, but undergo a reversible conformational change at the upper-critical solution temperature such that they are miscible in the non-aqueous solution at temperatures above the upper-critical solution temperature, wherein the porous, electrically insulating, thermally responsive membrane allows for ion transport from the first electrode to the second electrode, at least when the battery is operating at a temperature below the upper-critical solution temperature; anda non-aqueous electrolyte in the pores of the porous membrane;wherein the ionic permeability of the porous, electrically insulating, thermally responsive membrane decreases at temperatures above the upper-critical solution temperature. 4. The battery of claim 3, wherein the polymer molecules are polybetaine molecules. 5. The battery of claim 4, wherein the polymer molecules are poly(sulfobetaine) polymer molecules. 6. The battery of claim 5, wherein the polymer molecules are poly(3-(N-2-methacryloyloxyethyl-N,N-dimethyl)ammonatobutane-sulfonate molecules. 7. The battery of claim 6, wherein the poly(3-(N-2-methacryloyloxyethyl-N,N-dimethyl)ammonatobutane-sulfonate molecules have an Mn in the range from about 100,000 to about 400,000 g/mol. 8. The battery of claim 3, wherein the substrate comprises graphene oxide sheets. 9. The battery of claim 3, wherein the first electrode comprises lithium metal and the non-aqueous electrolyte comprises a lithium salt and an organic solvent. 10. The battery of claim 8, wherein the first electrode comprises lithium metal and the non-aqueous electrolyte comprises a lithium salt and an organic solvent. 11. The battery of claim 10, wherein the polymer molecules are polybetaine molecules. 12. The battery of claim 3, wherein the second electrode comprises graphene sheets. 13. The battery of claim 8, wherein the second electrode comprises graphene sheets. 14. The battery of claim 4, wherein the substrate comprises graphene sheets. 15. A thermally responsive material comprising: an ion permeable, porous, electrically insulating membrane comprising:a porous substrate; andpolymer molecules covalently bonded to the substrate, the polymer molecules having an upper-critical solution temperature in a non-aqueous solution, the polymer molecules characterized in that they phase separate from the non-aqueous solution at temperatures below the upper-critical solution temperature, but undergo a reversible conformational change at the upper-critical solution temperature such that they are miscible in the non-aqueous solution at temperatures above the upper-critical solution temperature, wherein the polymer molecules are poly(3-(N-2-methacryloyloxyethyl-N,N-dimethyl)ammonatobutane-sulfonate molecules; andthe non-aqueous solution comprising ions in pores of the ion permeable, porous, electrically insulating membrane. 16. The material of claim 15, wherein the poly(3-(N-2-methacryloyloxyethyl-N,N-dimethyl)ammonatobutane-sulfonate molecules have an Mn in the range from about 100,000 to about 400,000 g/mol.
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