Show metadata Hide metadata

(19)

(11)

2 394 312

(13)

(51)

IPC

H01M6/18(2006-01-01)

B82B1/00(2006-01-01)

(21) (22)

Application

2009114194/09, 2009-04-14

(24)

Start date

2009-04-14

(22)

Actual filing date

2009-04-14

(45)

Published

2010-07-10

(72)

Inventor

Kuz'Menko Aleksandr PavlovichEmel'Janov Sergej Gennad'EvichKuz'Menko Natal'Ja AleksandrovnaLeonenko Nina AleksandrovnaSiljutin Ivan Vasil'Evich

(73)

Holder

Gosudarstvennoe Obrazovatel'Noe Uchrezhdenie Vysshego Professional'Nogo Obrazovanija Gosudarstvennyj Tekhnicheskij Universitet" Kurskgtu

SOLID-STATE NANO-STRUCTURED CURRENT SOURCE Russian patent published in 2010 - IPC H01M6/18 B82B1/00

Abstract RU 2394312 C1

FIELD: electrical engineering.

SUBSTANCE: proposed primary current source comprises anode made from copper (or other transition metal) of various shape and sizes, and cathode made from nano-structured graphite coat on anode coated with current conducting film. Current generation inside source is caused by solid-phase dissolution of copper (or other transition metal) in nano-structured graphite.

EFFECT: longer continuous operation without recharging, higher specific power content, simplified design and chemical composition.

2 dwg

Similar patents RU2394312C1

Title	Year	Author	Number
SOLID-STATE ELECTROCHEMICAL CURRENT SOURCE	2010	Chaplygin Aleksej Nikolaevich Kiselev Sergej Aleksandrovich Tarasov Vladimir Vladimirovich Sapronov Konstantin Aleksandrovich	RU2449427C1
SUPERCAPACITOR CELL	2016	Gorokhovskij Aleksandr Vladilenovich Goffman Vladimir Georgievich Zhukov Nikolaj Dmitrievich Mitrokhin Valerij Viktorovich Skibina Yuliya Sergeevna	RU2646531C1
SOLID-STATE CHEMICAL CURRENT SUPPLY	1997	Potanin A.A. Vedeneev N.I.	RU2136083C1
SOLID-STATE SECONDARY POWER SUPPLY	2005	Potanin Aleksandr Arkad'Evich	RU2295178C2
PRIMARY CHEMICAL CURRENT SOURCE BASED ON GRAPHENE	2019	Cheglakov Andrej Valerevich Kornilov Denis Yurevich Geller Mark Mikhajlovich Gubin Sergej Pavlovich Tkachev Sergej Viktorovich Chuprov Pavel Nikolaevich Rychagov Aleksej Yurevich	RU2706015C1
METHOD TO PRODUCE NANOSTRUCTURED MULTILAYER 3D COMPOSITE MATERIAL FOR NEGATIVE ELECTRODE OF LITHIUM-ION BATTERY, COMPOSITE MATERIAL, NEGATIVE ELECTRODE AND LITHIUM-ION BATTERY	2011	Krivchenko Viktor Aleksandrovich Rakhimov Aleksandr Tursunovich Suetin Nikolaj Vladislavovich Pilevskij Andrej Aleksandrovich Evlashin Stanislav Aleksandrovich Itkis Daniil Mikhajlovich Semenenko Dmitrij Aleksandrovich	RU2459319C1
SYSTEM FOR HIGHLY EFFICIENT CONVERSION AND ACCUMULATION OF ENERGY USING CARBON NANOSTRUCTURED MATERIALS	2010	Rouvala Markku Antti Kjuesti Vehj Di Amaratunga Gekhan Vang Khaolan Unalan Khusnu Ehmrakh	RU2469442C1
METHOD FOR PRODUCING A MATERIAL FROM NANOPARTICLES AND FLUORIDE-ION ACCUMULATORS	2018	Witter, Raiker Mohammad, Irshad Molaiyan, Palanivel Kumar, Suresh	RU2764283C2
ELECTROCHEMICAL PRECIPITATION OF NANOSTRUCTURED CARBON FILM ON CURRENT-CONDUCTING MATERIALS	2012	Kozeev Aleksandr Alekseevich	RU2519438C1
ELECTROCHEMICAL PRECIPITATION OF FULLERENE FILM ON CURRENT-CONDUCTING MATERIALS	2012	Kozeev Aleksandr Alekseevich	RU2510675C1

RU 2 394 312 C1

Authors

Kuz'Menko Aleksandr Pavlovich

Emel'Janov Sergej Gennad'Evich

Kuz'Menko Natal'Ja Aleksandrovna

Leonenko Nina Aleksandrovna

Siljutin Ivan Vasil'Evich

Dates

2010-07-10—Published

2009-04-14—Filed