Baseline investigation on plasticizers, bisphenol A
Baseline investigation on plasticizers, bisphenol A, polycyclic aromatic hydrocarbons and heavy metals in the surface soil of the informal electronic waste recycling workshops and nearby open dumpsites in Indian metropolitan cities - ScienceDirect Abstract Introduction Section snippets References (56) Cited by (69) Recommended articles (6)
Baseline investigation on plasticizers, bisphenol A
The method detection limit (MDL) ranged between 0.09 and 0.24 ng/g for plasticizers, 0.07–0.61 ng/g for PAHs and 0.06 ng/g for BPA. With each set of five samples, one spiked procedural and solvent blank were run to check for background contamination, peak identification and quantification.
Baseline investigation on plasticizers, bisphenol A
Baseline investigation on plasticizers, bisphenol A, polycyclic aromatic hydrocarbons and heavy metals in the surface soil of the informal electronic waste recycling workshops and nearby open dumpsites in Indian metropolitan cities Environ Pollut. 2025 May;248:1036-1045. doi: 10.1016/j.envpol.2018.11.010. Epub 2018 Nov 5. Authors
Baseline investigation on plasticizers, bisphenol a
Electronic waste (e-waste) has emerged as a global environmental problem because of its massive production volume and un-structured management policy. Since the rate of e-waste accumulation is startling and the combinatorial effects of toxicants are complex, we have investigated six phthalic acid esters ((PAEs), bis (2-ethylhexyl) adipate (DEHA)), bisphenol A (BPA), sixteen polycyclic aromatic...
Investigation of Influence of Various Plasticizers and
This paper analyzes the effect of various plasticizers and alloying additives on the technological properties of powder steel SP35G2N4D2M. Preparation of Powder Mixtures The PL-8 grade diffusion-alloyed powder manufactured by “Severstal” PJSC was utilized in this study.
- Should bio-based plasticizers be valorized in industrial processes?
- Valorization of bio-based plasticizers in several industrial processes is presented. The current industrial revolution emphasized the necessity to use environmentally friendlier sources and strategies to meet the bio-based economy challenges of the modern world.
- Should petroleum-based plasticizers be replaced with bioplasticizers?
- The substitution of petroleum-based plasticizers with bioplasticizers offers noteworthy advantages, such as recyclability, biodegradability, high lubricant power, low diffusion coefficients in the polymeric matrix and very low volatility.
- Is there a bio-based plasticizer for rubber?
- The goal of this review is to design an ultimate bio-based plasticizer for rubber that fulfills all the requirements of an efficient plasticizer and to elaborate the multidisciplinary action that how microscopic particles induce advancements in the macroscopic properties of the bulk (rubber). 2. Generalities about plasticizers
- What are bio-based plasticizers based on epoxidized oils?
- Bio-based plasticizers based on epoxidized oils from different sources such as cottonseed oil, coconut oil, sunflower oil, castor oil, linseed oil and soybean oil have been reported as environmental plasticizer (Bouchoul et al., 2014; Ferri et al., 2017; Jia et al., 2017; Fu et al., 2019; Cheng et al., 2019; Gama et al., 2019; Ye et al., 2019).
- What factors influence the design of efficient plasticizers?
- Numerous parameters such as solubility, polarity, and structural compatibility are considered important and can influence the designing of efficient plasticizers. In this context, a plethora of research has given their structural attributes along with their compatibility with different elastomers and plastics.
- Why is bioplasticizer a good plasticizer?
- Structural features of a bioplasticizer decide plasticizing ability. By refining the compatibility of bioplasticizer, the lifetime of the polymer can be improved. Plasticizers, which are involved in secondary interactions with the polymer matrix, developed various extents of compatibility with it.
