Functionalized Sepiolitic Clay Nanofibers as a Natural Ingredient in Medical Cosmetics
Year 2021,
Volume: 8 Issue: 2, 471 - 476, 31.05.2021
Birgül Benli
,
Ecehan Gönül
Abstract
Medical clay also known as medicinal clay was first used in Mesopotamia around 2500 B.C and is still a relevant topic today. Among typical medical clays, sepiolite, a fibrous clay in the family of palygorskite is often ignored by cosmetic brands as it is not found abundantly in nature as much as other clays like bentonite. However, much of the world reserves of this clay are in Turkey.
In this study, antibacterial sepiolite clay was prepared from nanosilver added dispersed sepiolite samples. These Ag-nanoparticles (Ag-NPs) were formed according to green synthesis under microwave heating using the additives like alginate polymer and ascorbic acid later these fibers were put through serial dilution antibacterial tests using gram +/- bacteria (ATCC 25922 and ATCC 25923) for general quality control and determining minimum inhibitory concentrations. Although the best antibacterial clay samples (Ag-NPs have theoretically 30mg/L of silver content) were washed at least five times with distilled water, it was observed that their antibacterial stability was still maintained. Finally, the morphology of sepiolite fibers smaller than 40 nm was characterized by AFM images show that highly dispersed single fibers can be used as a natural raw material and have a great opportunity in the development of new products in the cosmetic and medical sector.
Supporting Institution
TUBITAK
Project Number
MAG-217M275
Thanks
The authors would like to thank the Engineering Research Group of the Scientific and Technological Research Council of Turkey (TUBITAK) for supporting our project: MAG-217M275 entitled Improvement of Surface Properties of Body-soluble Magnesium Implants by Coating with Biodegradable Alginate Based Sepiolite Composite Thin Films.
This paper was presented at the 4th International Cosmetic Congress as an oral presentation.
References
- Benli, B. Nanotechnology with clay-based nanostructures since ancient ages. Kibited, 2008; 1(3): 143-162.
- Galan, EP. The identification and nomenclature of sepiolite and palygorskite (a historical perspective). In book: Natural Mineral Nanotubes: Properties and Applications, Pooria Pasbakhsh, G. Jock Churchman (Editors), Apple Academic Press. 2015, Chapter 3: 69-84.
- Galindo-Lopez, A, Viseras, C. Pharmaceutical and Cosmetic Applications of Clays. Interface Science and Technology, 2004; 1: 267-289.
- Cavallaro, G, Fakhrullin, R, Pasbakhh, P. Clay nanoparticles: Properties and Applications. 2020, 1st Edition, Elsevier.
- Benli, B, Du, H, Celik, MS. The anisotropic characteristics of natural fibrous sepiolite as revealed by contact angle, surface free energy, AFM, and molecular dynamics simulation. Colloid. Surface. 2012; A 408: 22–31.
- García-Romero, E., Suárez, M. Sepiolite–palygorskite: Textural study and genetic considerations. Appl. Clay Sci. 2013; 86: 129–144.
- Tian, L, Wang, L, Wang, K. et al. The preparation and properties of porous sepiolite Ceramics. Sci. Rep. 2019; 9: 7337.
- Benli, B, Yalın, C. The influence of silver and copper ions on the antibacterial activity and local electrical properties of single sepiolite fiber: A conductive atomic force microscopy (C-AFM) study. Applied Clay Science. 2017; 146: 449-456.
- Ruiz-Hitzky, E. Molecular access to intracrystalline tunnels of sepiolite. J. Mater. Chem., 2001; 11: 86-91.
- Aranda, P, Darder, M, Wicklein, B, Rytwo, G, Ruiz‐Hitzky, E. Clay–Organic Interfaces for Design of Functional Hybrid Materials. (Eds. Delvile, M, Taubert, A) Hybrid Organic‐Inorganic Interfaces: Towards Advanced Functional Materials. Wiley‐VCH Verlag GmbH & Co., 2017.
- Ipe, DS, Kumar PT, Sudheesh, LRM, Hamlet, SM. Silver Nanoparticles at Biocompatible Dosage Synergistically Increases Bacterial Susceptibility to Antibiotics. Frontiers in Microbiology. 2020; 11, 1074: 1-11.
- Benli, B. Effects of humic acid release from sepiolite on the interfacial and rheological properties of alkaline dispersions. Applied Clay Science. 2014; 102: 1-7.
Year 2021,
Volume: 8 Issue: 2, 471 - 476, 31.05.2021
Birgül Benli
,
Ecehan Gönül
Project Number
MAG-217M275
References
- Benli, B. Nanotechnology with clay-based nanostructures since ancient ages. Kibited, 2008; 1(3): 143-162.
- Galan, EP. The identification and nomenclature of sepiolite and palygorskite (a historical perspective). In book: Natural Mineral Nanotubes: Properties and Applications, Pooria Pasbakhsh, G. Jock Churchman (Editors), Apple Academic Press. 2015, Chapter 3: 69-84.
- Galindo-Lopez, A, Viseras, C. Pharmaceutical and Cosmetic Applications of Clays. Interface Science and Technology, 2004; 1: 267-289.
- Cavallaro, G, Fakhrullin, R, Pasbakhh, P. Clay nanoparticles: Properties and Applications. 2020, 1st Edition, Elsevier.
- Benli, B, Du, H, Celik, MS. The anisotropic characteristics of natural fibrous sepiolite as revealed by contact angle, surface free energy, AFM, and molecular dynamics simulation. Colloid. Surface. 2012; A 408: 22–31.
- García-Romero, E., Suárez, M. Sepiolite–palygorskite: Textural study and genetic considerations. Appl. Clay Sci. 2013; 86: 129–144.
- Tian, L, Wang, L, Wang, K. et al. The preparation and properties of porous sepiolite Ceramics. Sci. Rep. 2019; 9: 7337.
- Benli, B, Yalın, C. The influence of silver and copper ions on the antibacterial activity and local electrical properties of single sepiolite fiber: A conductive atomic force microscopy (C-AFM) study. Applied Clay Science. 2017; 146: 449-456.
- Ruiz-Hitzky, E. Molecular access to intracrystalline tunnels of sepiolite. J. Mater. Chem., 2001; 11: 86-91.
- Aranda, P, Darder, M, Wicklein, B, Rytwo, G, Ruiz‐Hitzky, E. Clay–Organic Interfaces for Design of Functional Hybrid Materials. (Eds. Delvile, M, Taubert, A) Hybrid Organic‐Inorganic Interfaces: Towards Advanced Functional Materials. Wiley‐VCH Verlag GmbH & Co., 2017.
- Ipe, DS, Kumar PT, Sudheesh, LRM, Hamlet, SM. Silver Nanoparticles at Biocompatible Dosage Synergistically Increases Bacterial Susceptibility to Antibiotics. Frontiers in Microbiology. 2020; 11, 1074: 1-11.
- Benli, B. Effects of humic acid release from sepiolite on the interfacial and rheological properties of alkaline dispersions. Applied Clay Science. 2014; 102: 1-7.