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Abiotic and biotic degradation of five aromatic organosilicon compounds in aqueous media: Structure degradability relationships

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Abiotic and biotic degradation of five aromatic organosilicon compounds in aqueous media: Structure degradability relationships. / Grabitz, Elisa; Olsson, Oliver; Amsel, Ann-Kathrin et al.
In: Journal of Hazardous Materials, Vol. 392, 122429, 15.06.2020.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Grabitz, E, Olsson, O, Amsel, A-K, Rummel, B, Mitzel, NW & Kümmerer, K 2020, 'Abiotic and biotic degradation of five aromatic organosilicon compounds in aqueous media: Structure degradability relationships', Journal of Hazardous Materials, vol. 392, 122429. https://doi.org/10.1016/j.jhazmat.2020.122429

APA

Grabitz, E., Olsson, O., Amsel, A.-K., Rummel, B., Mitzel, N. W., & Kümmerer, K. (2020). Abiotic and biotic degradation of five aromatic organosilicon compounds in aqueous media: Structure degradability relationships. Journal of Hazardous Materials, 392, Article 122429. https://doi.org/10.1016/j.jhazmat.2020.122429

Vancouver

Grabitz E, Olsson O, Amsel AK, Rummel B, Mitzel NW, Kümmerer K. Abiotic and biotic degradation of five aromatic organosilicon compounds in aqueous media: Structure degradability relationships. Journal of Hazardous Materials. 2020 Jun 15;392:122429. Epub 2020 Mar 4. doi: 10.1016/j.jhazmat.2020.122429

Bibtex

@article{ddf7e595e9544b9d9e3ebf45c44bb1f9,
title = "Abiotic and biotic degradation of five aromatic organosilicon compounds in aqueous media: Structure degradability relationships",
abstract = "Silicones have many applications and are produced in large quantities. Despite their potential toxicity, information on their environmental mineralisation is scarce. Therefore, we investigated a group of five organosilicon compounds (o-MeOC 6H 4SiMe 3 (1), p-MeOC 6H 4SiMe 3 (2), (p-MeOC 6H 4) 2SiMe 2 (3), o-Me 2NC 6H 4SiMe 3 (4) and p-Me 2NC 6H 4SiMe 3 (5)), recently developed to be {\textquoteleft}benign by design{\textquoteright} based on their readily degradable core structure. Five different degradability tests were performed, one assessing hydrolytic and two analysing biological and photolytic stability, respectively. All substances, except (p-MeOC 6H 4) 2SiMe 2 (3), hydrolysed within 24 h to 50% indicating that this is one of the major pathways of their primary elimination. In agreement with previous research, none of the substances was readily biodegradable. In contrast, 100% of p-Me 2NC 6H 4SiMe 3 (5) was primarily eliminated by photolytic and hydrolytic processes. The elimination rates of the other substances ranged from 7% to 64%. Irradiation at shorter wavelengths increased both the extent and speed of photodegradation. Eleven transformation products of p-Me 2NC 6H 4SiMe 3 (5) were detected, all of which were completely eliminated within 64 min of irradiation with a Hg lamp (200–400 nm). The insertion of an electron-donating group on the benzene ring like in p-Me 2NC 6H 4SiMe 3 (5) clearly enhanced photolytic degradability but further research is necessary to achieve truly biodegradable silicones. ",
keywords = "Chemistry, Silicons, Closed Bottle test, Manometric Respirometry Test, Hydrolysis, Photolysis, Transformation product",
author = "Elisa Grabitz and Oliver Olsson and Ann-Kathrin Amsel and Britta Rummel and Mitzel, {Norbert W.} and Klaus K{\"u}mmerer",
year = "2020",
month = jun,
day = "15",
doi = "10.1016/j.jhazmat.2020.122429",
language = "English",
volume = "392",
journal = "Journal of Hazardous Materials",
issn = "0304-3894",
publisher = "Elsevier B.V.",

}

RIS

TY - JOUR

T1 - Abiotic and biotic degradation of five aromatic organosilicon compounds in aqueous media

T2 - Structure degradability relationships

AU - Grabitz, Elisa

AU - Olsson, Oliver

AU - Amsel, Ann-Kathrin

AU - Rummel, Britta

AU - Mitzel, Norbert W.

AU - Kümmerer, Klaus

PY - 2020/6/15

Y1 - 2020/6/15

N2 - Silicones have many applications and are produced in large quantities. Despite their potential toxicity, information on their environmental mineralisation is scarce. Therefore, we investigated a group of five organosilicon compounds (o-MeOC 6H 4SiMe 3 (1), p-MeOC 6H 4SiMe 3 (2), (p-MeOC 6H 4) 2SiMe 2 (3), o-Me 2NC 6H 4SiMe 3 (4) and p-Me 2NC 6H 4SiMe 3 (5)), recently developed to be ‘benign by design’ based on their readily degradable core structure. Five different degradability tests were performed, one assessing hydrolytic and two analysing biological and photolytic stability, respectively. All substances, except (p-MeOC 6H 4) 2SiMe 2 (3), hydrolysed within 24 h to 50% indicating that this is one of the major pathways of their primary elimination. In agreement with previous research, none of the substances was readily biodegradable. In contrast, 100% of p-Me 2NC 6H 4SiMe 3 (5) was primarily eliminated by photolytic and hydrolytic processes. The elimination rates of the other substances ranged from 7% to 64%. Irradiation at shorter wavelengths increased both the extent and speed of photodegradation. Eleven transformation products of p-Me 2NC 6H 4SiMe 3 (5) were detected, all of which were completely eliminated within 64 min of irradiation with a Hg lamp (200–400 nm). The insertion of an electron-donating group on the benzene ring like in p-Me 2NC 6H 4SiMe 3 (5) clearly enhanced photolytic degradability but further research is necessary to achieve truly biodegradable silicones.

AB - Silicones have many applications and are produced in large quantities. Despite their potential toxicity, information on their environmental mineralisation is scarce. Therefore, we investigated a group of five organosilicon compounds (o-MeOC 6H 4SiMe 3 (1), p-MeOC 6H 4SiMe 3 (2), (p-MeOC 6H 4) 2SiMe 2 (3), o-Me 2NC 6H 4SiMe 3 (4) and p-Me 2NC 6H 4SiMe 3 (5)), recently developed to be ‘benign by design’ based on their readily degradable core structure. Five different degradability tests were performed, one assessing hydrolytic and two analysing biological and photolytic stability, respectively. All substances, except (p-MeOC 6H 4) 2SiMe 2 (3), hydrolysed within 24 h to 50% indicating that this is one of the major pathways of their primary elimination. In agreement with previous research, none of the substances was readily biodegradable. In contrast, 100% of p-Me 2NC 6H 4SiMe 3 (5) was primarily eliminated by photolytic and hydrolytic processes. The elimination rates of the other substances ranged from 7% to 64%. Irradiation at shorter wavelengths increased both the extent and speed of photodegradation. Eleven transformation products of p-Me 2NC 6H 4SiMe 3 (5) were detected, all of which were completely eliminated within 64 min of irradiation with a Hg lamp (200–400 nm). The insertion of an electron-donating group on the benzene ring like in p-Me 2NC 6H 4SiMe 3 (5) clearly enhanced photolytic degradability but further research is necessary to achieve truly biodegradable silicones.

KW - Chemistry

KW - Silicons

KW - Closed Bottle test

KW - Manometric Respirometry Test

KW - Hydrolysis

KW - Photolysis

KW - Transformation product

UR - http://www.scopus.com/inward/record.url?scp=85082674135&partnerID=8YFLogxK

U2 - 10.1016/j.jhazmat.2020.122429

DO - 10.1016/j.jhazmat.2020.122429

M3 - Journal articles

C2 - 32208309

VL - 392

JO - Journal of Hazardous Materials

JF - Journal of Hazardous Materials

SN - 0304-3894

M1 - 122429

ER -

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