S6172
Sodium persulfate
BioXtra, ≥99%
동의어(들):
Sodium peroxodisulfate
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크기 선택
제품정보 (DICE 배송 시 비용 별도)
Linear Formula:
Na2S2O8
CAS 번호:
Molecular Weight:
238.10
NACRES:
NA.25
PubChem Substance ID:
UNSPSC Code:
12161700
EC Number:
231-892-1
MDL number:
Assay:
≥99%
Solubility:
H2O: 1 M at 20 °C, clear, colorless
product line
BioXtra
Quality Level
assay
≥99%
reaction suitability
reagent type: oxidant
impurities
<0.0005% Phosphorus (P), <0.1% Insoluble matter
solubility
H2O: 1 M at 20 °C, clear, colorless
anion traces
chloride (Cl-): <0.05%
cation traces
Al: <0.0005%, Ca: <0.005%, Cu: <0.0005%, Fe: <0.0005%, K: <0.02%, Mg: <0.001%, Pb: <0.001%, Zn: <0.0005%
SMILES string
[Na+].[Na+].[O-]S(=O)(=O)OOS([O-])(=O)=O
InChI
1S/2Na.H2O8S2/c;;1-9(2,3)7-8-10(4,5)6/h;;(H,1,2,3)(H,4,5,6)/q2*+1;/p-2
InChI key
CHQMHPLRPQMAMX-UHFFFAOYSA-L
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Application
<ul>
<li><strong>Electrochemical treatment of organic pollutants in landfill leachate using a three-dimensional electrode system.</strong>: This study explores the electrochemical treatment of landfill leachate using a three-dimensional electrode system. Sodium persulfate is used as an oxidizing agent to degrade organic pollutants effectively, providing a potential method for waste management and environmental protection (Yu et al., 2020).</li>
<li><strong>The Box-Benkhen experimental design for the optimization of the electrocatalytic treatment of wastewaters with high concentrations of phenol and organic matter.</strong>: This paper discusses the optimization of electrocatalytic treatment processes for wastewater containing high levels of phenol and organic matter using sodium persulfate. The study provides valuable insights for improving wastewater treatment efficiency (GilPavas et al., 2009).</li>
<li><strong>Reaction of pectin and glycidyl methacrylate and ulterior formation of free films by reticulation.</strong>: This research involves the chemical modification of pectin with glycidyl methacrylate followed by cross-linking using sodium persulfate, leading to the formation of free-standing films. These films have potential applications in pharmaceuticals and food packaging (Maior et al., 2008).</li>
</ul>
<li><strong>Electrochemical treatment of organic pollutants in landfill leachate using a three-dimensional electrode system.</strong>: This study explores the electrochemical treatment of landfill leachate using a three-dimensional electrode system. Sodium persulfate is used as an oxidizing agent to degrade organic pollutants effectively, providing a potential method for waste management and environmental protection (Yu et al., 2020).</li>
<li><strong>The Box-Benkhen experimental design for the optimization of the electrocatalytic treatment of wastewaters with high concentrations of phenol and organic matter.</strong>: This paper discusses the optimization of electrocatalytic treatment processes for wastewater containing high levels of phenol and organic matter using sodium persulfate. The study provides valuable insights for improving wastewater treatment efficiency (GilPavas et al., 2009).</li>
<li><strong>Reaction of pectin and glycidyl methacrylate and ulterior formation of free films by reticulation.</strong>: This research involves the chemical modification of pectin with glycidyl methacrylate followed by cross-linking using sodium persulfate, leading to the formation of free-standing films. These films have potential applications in pharmaceuticals and food packaging (Maior et al., 2008).</li>
</ul>
signalword
Danger
Hazard Classifications
Acute Tox. 4 Oral - Ox. Sol. 3 - Resp. Sens. 1 - Skin Irrit. 2 - Skin Sens. 1 - STOT SE 3
target_organs
Respiratory system
저장 등급
5.1B - Oxidizing hazardous materials
wgk
WGK 1
flash_point_f
Not applicable
flash_point_c
Not applicable
ppe
Eyeshields, Faceshields, Gloves, type P3 (EN 143) respirator cartridges
N Sabri et al.
The Science of the total environment, 427-428, 382-389 (2012-05-15)
The objective of this work was to evaluate the removal of ibuprofen (IBP) using the oxidants hydrogen peroxide (H(2)O(2)) and sodium persulfate (Na(2)S(2)O(8)). The ability of magnetite (Fe(3)O(4)) to activate persulfate (PS) and H(2)O(2) for the oxidation of IBP at
Mushtaque Ahmad et al.
Journal of contaminant hydrology, 115(1-4), 34-45 (2010-05-05)
Persulfate dynamics in the presence of subsurface minerals was investigated as a basis for understanding persulfate activation for in situ chemical oxidation (ISCO). The mineral-mediated decomposition of persulfate and generation of oxidants and reductants was investigated with four iron and
Aikaterini Tsitonaki et al.
Water research, 42(4-5), 1013-1022 (2007-10-19)
The effects of heat-activated persulfate on indigenous microorganisms and microcosms augmented with Pseudomonas putida KT2440 were studied in laboratory batch reactors with aquifer material. Microscopic enumeration was used to measure the changes in cell density, and acetate consumption was used
Richard L Johnson et al.
Environmental science & technology, 42(24), 9350-9356 (2009-01-30)
Contaminant destruction with in situ chemical oxidation (ISCO) using persulfate (peroxydisulfate, S2O8(2-)) can be enhanced by activation, which increases the rate of persulfate decomposition to sulfate radicals (SO4*-). This step initiates a chain of radical reactions involving species (including SO4*-
Chenju Liang et al.
Water research, 42(15), 4091-4100 (2008-08-23)
The present study focused on evaluation of activated persulfate (PS) anion (S(2)O(8)(2-)) oxidative degradation of benzene, toluene, ethylbenzene, and xylene (constituents of gasoline and known collectively as BTEX) contamination. The results indicated that BTEX were effectively oxidized by PS in
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