TY - GEN
T1 - Development of adsorbent prussian blue (PB) impregnated through the grafting of covalent organic polymers (COPs) for the removal of radioactivity cesium (Cs-137)
AU - Kim, Bokseong
AU - Kim, Youngsug
AU - Kang, Sungwon
AU - Oh, Daemin
AU - Kim, Sol
AU - Hwang, Yuhoon
AU - Seo, Younggyo
N1 - Publisher Copyright:
© 2018 Trans Tech Publications, Switzerland.
PY - 2018
Y1 - 2018
N2 - This study aims to utilize Prussian Blue (PB) to develop a high performance adsorbent for removing radioactive cesium from radioactive accidents. Prussian blue (PB) can adsorb selectively to cesium (Cs), which is high in adsorption efficiency, but has a disadvantage that it is difficult to recover after adsorption, so there is a high concern about secondary environmental pollution. Therefore, this study modified the surface of powder activated carbon (PAC) particles by using covalent organic polymer (COP) for stable immobilization of PB, and developed a PB-impregnated adsorbent (COP-PAC-PB). Synthesis of COP-PAC-PB was performed by sequentially reacting with iron (III) chloride and potassium ferrocyanide solution to synthesize PB in COP pore (In-situ). The maximum adsorption of COP-PAC-PB on cesium was 19 mg/g and the removal efficiency for radioactivity cesium (Cs-137, 60 Bq/kg) was 97.3%. In addition, PB was synthesized by the same method as that of COP-PAC-PB, which is a modification product of the unmodified group (PAC, Ox-PAC), and UV-vis analysis was performed to compare PB desorption characteristics after washing Respectively. In the unmodified group (PAC-PB, Ox-PAC-PB), a large amount of PB was desorbed when washed once to 6 times. In the case of COP-PAC-PB, it was not. As a result, the surface of the PAC particles was effectively modified using COP, and the adsorbent with Prussian blue stably immobilized was developed.
AB - This study aims to utilize Prussian Blue (PB) to develop a high performance adsorbent for removing radioactive cesium from radioactive accidents. Prussian blue (PB) can adsorb selectively to cesium (Cs), which is high in adsorption efficiency, but has a disadvantage that it is difficult to recover after adsorption, so there is a high concern about secondary environmental pollution. Therefore, this study modified the surface of powder activated carbon (PAC) particles by using covalent organic polymer (COP) for stable immobilization of PB, and developed a PB-impregnated adsorbent (COP-PAC-PB). Synthesis of COP-PAC-PB was performed by sequentially reacting with iron (III) chloride and potassium ferrocyanide solution to synthesize PB in COP pore (In-situ). The maximum adsorption of COP-PAC-PB on cesium was 19 mg/g and the removal efficiency for radioactivity cesium (Cs-137, 60 Bq/kg) was 97.3%. In addition, PB was synthesized by the same method as that of COP-PAC-PB, which is a modification product of the unmodified group (PAC, Ox-PAC), and UV-vis analysis was performed to compare PB desorption characteristics after washing Respectively. In the unmodified group (PAC-PB, Ox-PAC-PB), a large amount of PB was desorbed when washed once to 6 times. In the case of COP-PAC-PB, it was not. As a result, the surface of the PAC particles was effectively modified using COP, and the adsorbent with Prussian blue stably immobilized was developed.
KW - Activated carbon
KW - Covalent organic polymers(COPs)
KW - Cs-137
KW - Prussian blue
KW - Radioactive adsorption
UR - https://www.scopus.com/pages/publications/85052739258
U2 - 10.4028/www.scientific.net/KEM.773.405
DO - 10.4028/www.scientific.net/KEM.773.405
M3 - Conference contribution
AN - SCOPUS:85052739258
SN - 9783035713374
T3 - Key Engineering Materials
SP - 405
EP - 409
BT - Applied Engineering, Materials and Mechanics II
A2 - Hu, Jong Wan
PB - Trans Tech Publications Ltd
T2 - 3rd International Conference on Applied Engineering, Materials and Mechanics, ICAEMM 2018
Y2 - 20 April 2018 through 22 April 2018
ER -