Dichlorophen - CAS 97-23-4
Catalog number:
97-23-4
Category:
Inhibitor
Not Intended for Therapeutic Use. For research use only.
Molecular Formula:
C13H10Cl2O2
Molecular Weight:
269.12
COA:
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Targets:
Antiparasitic
Description:
Dichlorophen is an anticestodal agent.
Publictions citing BOC Sciences Products
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Purity:
>98%
Synonyms:
DDM
MSDS:
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1.The effect of dichlorophen binding to silica nanoparticles on its photosensitized degradation in water.
Escalada JP1, Arce VB2, Porcal GV3, Biasutti MA3, Criado S3, García NA3, Mártire DO4. Water Res. 2014 Mar 1;50:229-36. doi: 10.1016/j.watres.2013.12.006. Epub 2013 Dec 12.
The production of dichlorophen (2,2'-methylenebis(4-chlorophenol), DCP) and its use as an anthelmintic and in pesticide products result in its direct release to the environment. To the purpose of modelling the possible photodegradation routes of DCP sorbed on sediments or suspended particles, the synthesis and characterization of silica nanoparticles modified with DCP (NP-DCP) is reported. The reactivity of NP-DCP with the excited states of riboflavin, a sensitizer usually present in natural waters, and with singlet oxygen were investigated. Comparison of the kinetic results obtained here to those previously reported for irradiated aqueous solutions of DCP allowed the discussion of the effect of adsorption of the pesticide on its photodegradation. We show with the aid of computer simulations that in natural waters the relevance of the different photodegradation routes dichlorophen is very much affected by attachment to sediments.
2.Impact of interactions between metal oxides to oxidative reactivity of manganese dioxide.
Taujale S1, Zhang H. Environ Sci Technol. 2012 Mar 6;46(5):2764-71. doi: 10.1021/es204294c. Epub 2012 Feb 24.
Manganese oxides typically exist as mixtures with other metal oxides in soil-water environments; however, information is only available on their redox activity as single oxides. To bridge this gap, we examined three binary oxide mixtures containing MnO(2) and a secondary metal oxide (Al(2)O(3), SiO(2) or TiO(2)). The goal was to understand how these secondary oxides affect the oxidative reactivity of MnO(2). SEM images suggest significant heteroaggregation between Al(2)O(3) and MnO(2) and to a lesser extent between SiO(2)/TiO(2) and MnO(2). Using triclosan and chlorophene as probe compounds, pseudofirst-order kinetic results showed that Al(2)O(3) had the strongest inhibitory effect on MnO(2) reactivity, followed by SiO(2) and then TiO(2). Al(3+) ion or soluble SiO(2) had comparable inhibitory effects as Al(2)O(3) or SiO(2), indicating the dominant inhibitory mechanism was surface complexation/precipitation of Al/Si species on MnO(2) surfaces.
3.A life-threatening dichlorophen poisoning case: clinical features and kinetics study.
Langrand J1, Moesch C, Le Grand R, Bloch V, Garnier R, Baud FJ, Megarbane B. Clin Toxicol (Phila). 2013 Mar;51(3):178-81. doi: 10.3109/15563650.2013.776069.
BACKGROUND: Human dichlorophen poisoning is rare. We aim to report a case of dichlorophen poisoning resulting in complete recovery despite life-threatening multiorgan failure and huge serum dichlorophen concentrations.
4.Effect directed analysis and mixture effects of estrogenic compounds in a sediment of the river Elbe.
Schmitt S1, Reifferscheid G, Claus E, Schlüsener M, Buchinger S. Environ Sci Pollut Res Int. 2012 Sep;19(8):3350-61. doi: 10.1007/s11356-012-0852-x. Epub 2012 Mar 16.
INTRODUCTION: Endocrine disrupting chemicals (EDCs) are present in the environment and can have serious effects on humans and wildlife. For the establishment of environmental quality guidelines and regulation of EDCs, a better understanding and knowledge of the occurrence and the behavior of environmental EDCs is necessary. The aim of the present study was to comprehensively identify substances that are responsible for the estrogenic effect of an environmental sediment sample taken from the river Elbe/Germany.
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CAS 97-23-4 Dichlorophen

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