公开(公告)号：US11684762B2

公开(公告)日：2023-06-27

申请号：US16651605

申请日：2018-02-02

Applicant: KOREA INSTITUTE OF ENERGY RESEARCH

Inventor： Nam-Jo Jeong ,  Ji Yeon Choi ,  Han-Ki Kim ,  Seung Cheol Yang ,  Kyo Sik Hwang ,  Ji-Hyung Han ,  Joo-Youn Nam ,  Eun-Jin Jwa ,  Soon-Chul Park ,  Yong-Seog Seo ,  Moon-Seok Jang

IPC: A61M37/00 ,  A61L31/14 ,  A61L31/02 ,  H01M8/22 ,  A61B5/0531 ,  A61N1/30

CPC classification number: A61M37/00 ,  A61L31/026 ,  A61L31/146 ,  H01M8/227 ,  A61B5/0531 ,  A61M2037/0007 ,  A61M2230/65 ,  A61N1/30 ,  H01M2250/30

Abstract: Disclosed is an energy self-sufficient real time bio-signal monitoring and nutrient and/or drug delivery system based on salinity gradient power generation. The energy self-sufficient real time bio-signal monitoring and/or nutrient delivery system based on salinity gradient power generation includes: an electricity generation and nutrient and/or drug delivery module including a reverse electrodialysis device which generates electricity by using a nutrient and/or drug solution and discharge a diluted nutrient solution; and a bio-signal measuring unit inserted into the electricity generation and nutrient and/or drug delivery module and configured to receive electricity from the electricity generation and nutrient and/or drug delivery module and measure a bio-signal.

公开(公告)号：US10427982B2

公开(公告)日：2019-10-01

申请号：US15267307

申请日：2016-09-16

Applicant: KOREA INSTITUTE OF ENERGY RESEARCH

Inventor： Namjo Jeong ,  Chan-Soo Kim ,  Ji Yeon Choi ,  Joo-youn Nam ,  Soon-chul Park ,  Moon seok Jang ,  Kangmin Chon ,  Ji-Hyung Han ,  Han-Ki Kim ,  Eun-Jin Jwa

IPC: C04B35/00 ,  C04B35/628 ,  B22F1/00 ,  C01B33/02 ,  C01B32/05

Abstract: A method includes: supplying sources or nanoparticles of any one or two or more combinations selected from a group which consists of a carbon source, a doping source, a doped element containing carbon source, and a waste plastic source into a high-temperature and high-pressure closed autoclave, completely closing the high-temperature and high-pressure closed autoclave, and forming a nanoparticle-carbon core-shell structure by a single process by coating a carbon layer on the surface of the nanoparticles or forming a core-shell structure of nanoparticle-doped carbon by the single process by coating a carbon layer doped with the doped element on the surface of the nanoparticles under pressure self-generated in the autoclave and a reaction temperature in the range of 500 to 850° C. by heating the autoclave.

公开(公告)号：US20170081248A1

公开(公告)日：2017-03-23

申请号：US15267307

申请日：2016-09-16

Applicant: KOREA INSTITUTE OF ENERGY RESEARCH

Inventor： Namjo Jeong ,  Chan-Soo Kim ,  Ji Yeon Choi ,  Joo-Youn Nam ,  Soon-Chul Park ,  Moon Seok Jang ,  Kangmin Chon ,  Ji-Hyung Han ,  Han-Ki Kim ,  Eun-Jin Jwa

IPC: C04B35/628

CPC classification number: C04B35/62839 ,  B22F1/0018 ,  B22F1/02 ,  B22F9/22 ,  B22F2998/10 ,  B22F2999/00 ,  C01B32/05 ,  C01B33/02 ,  C04B35/62884 ,  C04B35/62886 ,  C04B2235/52 ,  B22F2201/013

Abstract: A method includes: supplying sources or nanoparticles of any one or two or more combinations selected from a group which consists of a carbon source, a doping source, a doped element containing carbon source, and a waste plastic source into a high-temperature and high-pressure closed autoclave, completely closing the high-temperature and high-pressure closed autoclave, and forming a nanoparticle-carbon core-shell structure by a single process by coating a carbon layer on the surface of the nanoparticles or forming a core-shell structure of nanoparticle-doped carbon by the single process by coating a carbon layer doped with the doped element on the surface of the nanoparticles under pressure self-generated in the autoclave and a reaction temperature in the range of 500 to 850° C. by heating the autoclave.