Preparation of dithiocarbamatecellulose derivatives and their adsorption properties for trace elements
References (6)
- et al.
Anal. Chem.
(1974) - et al.
Jpn. Anal. (Bunseki Kagaku)
(1978) - (1973)
Cited by (45)
Uncovering the hydrophobic mechanism of a novel dithiocarbamate-hydroxamate surfactant towards galena
2021, Chemical Engineering ScienceCitation Excerpt :In-situ AFM images clearly showed that HAPTC covered the whole galena surface at pHs 6.2 and 9.0, while they were barely observed on sphalerite surface, inferring a much stronger adsorption affinity of HAPTC towards galena than that to sphalerite. Due to that HAPTC’s adsorption driving force mainly came from its polar groups, both hydroxamate and dithiocarbamate groups exhibited the preferable affinity to galena in comparison with sphalerite, being consistent with their reactive selectivity towards Pb2+ and Zn2+ ions (Imai et al., 1980; Song-Ping et al., 1996). Therefore, HAPTC achieved a selective beneficiation of galena from sphalerite.
Removal of antimony (III) by multi-walled carbon nanotubes from model solution and environmental samples
2013, Chemical Engineering Research and DesignCitation Excerpt :These interactions result from the delocalized electrons in the hexagonal arrays of carbon atoms on the surfaces of the CNTs. Although there are many research studies focused on the adsorption and removal of Sb(III) from aqueous solutions by different adsorbents (Deorkar and Tavlarides, 1997; Kathrinleuz et al., 2006; Hasany and Chaudhary, 1996; Imai et al., 1980; Xi et al., 2011; Wu et al., 2012; Leng et al., 2012; Wang et al., 2012; Xu et al., 2011), up to the best of author's knowledge, there is no such study applied carbon nanotubes as a promising and potential adsorbent. This manuscript represents the first attempt to study the adsorption of Sb(III) from a model solution and from real environmental samples by MWCNTs.
Biosorption of antimony from aqueous solution by lichen (Physcia tribacia) biomass
2010, Chemical Engineering JournalCitation Excerpt :Application of the ion-exchange process is rather expensive due to the cost of synthetic ion-exchange resins. Adsorption method is more effective in reducing heavy metal concentration [23–25]. However, adsorbents must have a large surface area and high polarity between the attractive forces on the adsorbent surface and adsorbate.
Equilibrium, thermodynamic and kinetic studies on adsorption of Sb(III) from aqueous solution using low-cost natural diatomite
2010, Chemical Engineering JournalEffective removal and recovery of antimony using metal-loaded saponified orange waste
2009, Journal of Hazardous MaterialsRemoval of heavy metal ions by using dithiocarbamated-sporopollenin
2007, Separation and Purification Technology