Colloidal silica
Rating : 5.7
Evaluation | N. Experts | Evaluation | N. Experts |
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1 | 6 | ||
2 | 7 | ||
3 | 8 | ||
4 | 9 | ||
5 | 10 |
Cons:
Avoid excessive amounts (1)29 pts from Al222
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"Colloidal silica studies" about Colloidal silica Review Consensus 20 by AColumn (9309 pt) | 2021-Nov-30 12:51 |
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Compendium of the most significant studies with reference to properties, intake, effects.
Rozman B, Gosenca M, Gasperlin M, Padois K, Falson F. Dual influence of colloidal silica on skin deposition of vitamins C and E simultaneously incorporated in topical microemulsions. Drug Dev Ind Pharm. 2010 Jul;36(7):852-60. doi: 10.3109/03639040903541187.
Frenzel L , Lehmkühler F , Koof M , Lokteva I , Grübel G . The phase diagram of colloidal silica-PNIPAm core-shell nanogels. Soft Matter. 2020 Jan 2;16(2):466-475. doi: 10.1039/c9sm01884k.
Tobe S, Akimoto H, Shigematsu H, Watanabe T, Kikukawa M, Miyazawa H. Allergen inactivation with colloidal silica. J Oleo Sci. 2008;57(6):353-8. doi: 10.5650/jos.57.353.
Taub M, Axelson E, Park JH. Colloidal silica-coated tissue culture dishes for primary cell cultures: growth of rabbit renal proximal tubule cells. Biotechniques. 1998 Dec;25(6):990-4, 996. doi: 10.2144/98256st01.
Nia MH, Tavakolian M, Kiasat AR, van de Ven TGM. Hybrid Aerogel Nanocomposite of Dendritic Colloidal Silica and Hairy Nanocellulose: an Effective Dye Adsorbent. Langmuir. 2020 Oct 13;36(40):11963-11974. doi: 10.1021/acs.langmuir.0c02090.
Watanabe T, Yamamoto E, Uchida S, Cheng L, Wada H, Shimojima A, Kuroda K. Preparation of Sub-50 nm Colloidal Monodispersed Hollow Siloxane-Based Nanoparticles with Controlled Shell Structures. Langmuir. 2020 Nov 24;36(46):13833-13842. doi: 10.1021/acs.langmuir.0c02190.
Nia MH, Kiasat AR, van de Ven TGM. Dendritic Fibrous Colloidal Silica Internally Cross-linked by Bivalent Organic Cations: An Efficient Support for Dye Removal and the Reduction of Nitrobenzene Derivatives. Langmuir. 2021 Nov 23;37(46):13676-13688. doi: 10.1021/acs.langmuir.1c02308.
Björkegren S, Nordstierna L, Törncrona A, Palmqvist A. Hydrophilic and hydrophobic modifications of colloidal silica particles for Pickering emulsions. J Colloid Interface Sci. 2017 Feb 1;487:250-257. doi: 10.1016/j.jcis.2016.10.031.
Shirk K, Steiner C, Kim JW, Marquez M, Martinez CJ. Assembly of colloidal silica crystals inside double emulsion drops. Langmuir. 2013 Sep 24;29(38):11849-57. doi: 10.1021/la4019986.
Kim Y, Elschenbroich S, Sharma P, Sepiashvili L, Gramolini AO, Kislinger T. Use of colloidal silica-beads for the isolation of cell-surface proteins for mass spectrometry-based proteomics. Methods Mol Biol. 2011;748:227-41. doi: 10.1007/978-1-61779-139-0_16.
Kesarwani H, Sharma S, Mandal A. Application of Novel Colloidal Silica Nanoparticles in the Reduction of Adsorption of Surfactant and Improvement of Oil Recovery Using Surfactant Polymer Flooding. ACS Omega. 2021 Apr 19;6(17):11327-11339. doi: 10.1021/acsomega.1c00296.
Fujita Y, Kobayashi M. Transport of colloidal silica in unsaturated sand: Effect of charging properties of sand and silica particles. Chemosphere. 2016 Jul;154:179-186. doi: 10.1016/j.chemosphere.2016.03.105.
Wang J, Shen Y, Bai L, Lv D, Zhang A, Miao F, Tang M, Zhang J. Mesoporous silica shell alleviates cytotoxicity and inflammation induced by colloidal silica particles. Colloids Surf B Biointerfaces. 2014 Apr 1;116:334-42. doi: 10.1016/j.colsurfb.2013.12.036.
Stolz DB, Ross MA, Salem HM, Mars WM, Michalopoulos GK, Enomoto K. Cationic colloidal silica membrane perturbation as a means of examining changes at the sinusoidal surface during liver regeneration. Am J Pathol. 1999 Nov;155(5):1487-98. doi: 10.1016/S0002-9440(10)65464-8.
Dettman GL, Wilbur SM. Colloidal silica--aluminum modified--PVP density gradient centrifugation: centrifuge tube wall cell adherence, aggregation, separation properties and comparison to BSA and Ficoll. J Immunol Methods. 1979;27(3):205-17. doi: 10.1016/0022-1759(79)90218-7.
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"Descrizione" about Colloidal silica Review Consensus 29 by Al222 (19776 pt) | 2023-Jun-22 12:24 |
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Colloidal Silica consists of tiny particles of amorphous silicon dioxide, the common silica, dispersed in a water solution and are obtained by polymerising silica nuclei in a highly basic alkaline containing environment (pH value between 8.0 and 10.5). These particles are nanometric, ranging from 5 nm to 40 nm.
The name describes the structure of the molecule:
Silicon Dioxide or dioxosilane is a very common component.
The synthesis process takes place in different steps:
Colloidal Silica appears in the form of a white powder with a native particle size of 5nm to 40nm with functions of filling, thickening, strengthening and thixotropy of various materials. It is also found in the form of a transparent liquid.
In industry, it is used in the form of "Fumed silica" synthesized by pyrolysis method in which halogenated silanes (hydrolyzed chlorosilane) react with oxygen and hydrogen at high temperature.
This type of silica is used in many industries:
Where it comes from
It is found in the earth's crust, in rocks in crystalline or amorphous form.
What it is used for and where
Food
In particular, in food can be used in foods, food supplements and other as anti-caking agent. Labelled as food additive thickener E551 in the European Food Additives List, its function is to avoid clumping in sauces, food supplements, cooking salt, dry foods. "Anti-caking agents" are substances that reduce the tendency of individual particles of a food product to adhere to each other.
Pharmaceuticals
In the pharmaceutical industry, colloidal silica improves powder flow as it acts on breaking the interparticle force of silica particles adhering to the product surface. It is a thickening agent. Food thickeners are normally used to facilitate the ingestion of drugs in tablet form. Some thickeners directly influence the dissolution and disintegration of tablets and may even delay their dissolution.
It should not exceed 2% of the total weight of the product in which it is inserted.
Cosmetics
Thickening agent.
Other uses
Safety
Regarding its toxicity, we must refer to nanoparticles, rather than milligrams (2) since its presence derives, mainly in the environment, from plastics, rubber, ceramics, paints, adhesives and others and it is also the product of coal combustion (3).
The potential risk of nanoparticles from air pollution has recently attracted a great deal of attention. Although the toxicology of nanoparticles has been extensively studied, little work has been reported on the combined effect of silicon dioxide (SiO2) nanoparticles and cold exposure at the cellular level.
The haze problem has a major impact on public health, and has been a widespread concern in recent years. Studies have shown that ultrafine particulate matter (PM 0.1 ), which is equivalent to nanoparticles, is harmful to humans. The increasing use of nanoparticles for a wide range of commercial, industrial, and biomedical applications has led to safety concerns (4).
In this study, the genotoxic effects of SiO2EN20(-) and SiO2EN100(-) were elucidated using four genotoxicity assays in standardized Good Laboratory Practice system protocols. Although the different exposure routes in this study may induce genotoxicity from SiO2EN20(-) and SiO2EN100(-) in different organs in in vivo systems, the data suggest that SiO2 are not genotoxic substances based on OECD test guidelines (5).
The results of this research confirmed that the addition of colloidal silica in microemulsion simultaneously loaded with vitamins C and E improved the skin bioavailability of the vitamins due to its dual influence on the delivery characteristics of the microemulsion and the properties of the skin (6).
General features:
Synonyms:
References_______________________________________________________________________
(1) Tran DT, Majerová D, Veselý M, Kulaviak L, Ruzicka MC, Zámostný P. On the mechanism of colloidal silica action to improve flow properties of pharmaceutical excipients. Int J Pharm. 2019 Feb 10;556:383-394. doi: 10.1016/j.ijpharm.2018.11.066.
(2) Petrick L, Rosenblat M, Paland N, Aviram M. Silicon dioxide nanoparticles increase macrophage atherogenicity: Stimulation of cellular cytotoxicity, oxidative stress, and triglycerides accumulation. Environ Toxicol. 2016 Jun;31(6):713-23. doi: 10.1002/tox.22084.
(3) Dai C, Huang Y, Zhou Y. Research progress about the relationship between nanoparticles silicon dioxide and lung cancer. Zhongguo Fei Ai Za Zhi. 2014 Oct 20;17(10):760-4. Chinese. doi: 10.3779/j.issn.1009-3419.2014.10.09.
Hassankhani R, Esmaeillou M, Tehrani AA, Nasirzadeh K, Khadir F, Maadi H. In vivo toxicity of orally administrated silicon dioxide nanoparticles in healthy adult mice. Environ Sci Pollut Res Int. 2015 Jan;22(2):1127-32. doi: 10.1007/s11356-014-3413-7.
(4) Zhang Y, Li X, Lin Y, Zhang L, Guo Z, Zhao D, Yang D. The combined effects of silicon dioxide nanoparticles and cold air exposure on the metabolism and inflammatory responses in white adipocytes. Toxicol Res (Camb). 2017 Jul 6;6(5):705-710. doi: 10.1039/c7tx00145b.
(5) Kwon JY, Kim HL, Lee JY, Ju YH, Kim JS, Kang SH, Kim YR, Lee JK, Jeong J, Kim MK, Maeng EH, Seo YR. Undetactable levels of genotoxicity of SiO2 nanoparticles in in vitro and in vivo tests. Int J Nanomedicine. 2014 Dec 15;9 Suppl 2(Suppl 2):173-81. doi: 10.2147/IJN.S57933. Erratum in: Int J Nanomedicine. 2015;10:4621.
(5) Kwon JY, Kim HL, Lee JY, Ju YH, Kim JS, Kang SH, Kim YR, Lee JK, Jeong J, Kim MK, Maeng EH, Seo YR. Undetactable levels of genotoxicity of SiO2 nanoparticles in in vitro and in vivo tests. Int J Nanomedicine. 2014 Dec 15;9 Suppl 2(Suppl 2):173-81. doi: 10.2147/IJN.S57933. Erratum in: Int J Nanomedicine. 2015;10:4621.
(6) Rozman B, Gosenca M, Gasperlin M, Padois K, Falson F. Dual influence of colloidal silica on skin deposition of vitamins C and E simultaneously incorporated in topical microemulsions. Drug Dev Ind Pharm. 2010 Jul;36(7):852-60. doi: 10.3109/03639040903541187.
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Component type:   Chemical Main substances:   Silica Last update:   2022-12-08 12:52:47 | Chemical Risk:   |