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Syntes av nanomaterial för UV-skydd

Diarienummer
UKR24-0012
Projektledare
Brychka, Alla
Start- och slutdatum
241001-250930
Beviljat belopp
1 000 000 kr
Förvaltande organisation
Stockholm University
Forskningsområde
Materialvetenskap och materialteknologier

Summary

Mål Forskning om nya oorganiska material som UV-filter. Fokus kommer att ligga på att undersöka nya nanomaterial baserade på ceriumoxid med potentiellt bättre egenskaper än dagens oorganiska och organiska UV-filter. Planen Utveckling av en metod och verifiering av en metod för framställning av nanomaterial baserade på ceriumoxid. Fastställande av egenskaperna hos dessa nanomaterial. Screeningstudier av dessa nanomaterial. Förväntade resultat Teknik för att framställa stabila och säkra nanomaterial - pulver och dispersioner baserade på ceriumoxid. Dokumenterad UV-skyddande aktivitet hos de framställda nanomaterialen. Testning av tillämpningen som ämnen i kosmetika med skydd mot UV-strålar.

Populärvetenskaplig beskrivning

Natural solar radiation has both indisputable benefits and dangers for living organisms. Ultraviolet (UV) radiation as part of the solar spectrum in small amounts is necessary for the existence of living organisms. It also has a powerful bactericidal effect against viruses, bacteria, fungi, etc. UV radiation is divided into long-wave (315-400 nm, UVA), medium-wave (280-315 nm, UVB) and the most dangerous short-wave (10-280 nm, UVC). UVA and UVB radiation reaches the earth's surface. It is absorbed by human and animal skin and plants. But an excessive amount of UV radiation has a negative effect on living organisms, causing unwanted biochemical processes and mutations. It causes damage to the eyes and skin, accelerates aging, leads to the formation of melanoma or other types of skin cancer, destroys organic compounds - constituent substances of the tissues of living organisms. It also destroys products made of natural materials of plant and animal origin, in particular, wood, causing an undesirable change in color, structure and strength. Therefore, the creation of new safe materials with powerful UV protective properties for the production of consumer goods is extremely urgent. Sunscreens that contain organic or inorganic UV filters are commonly used, raising concerns about their toxicity and ecotoxicity. Our research focuses on nanomaterials as alternative inorganic UV filters in cosmetic and technical preparations. They combine the ability of better UV protection with the action of biological antioxidants with anti-inflammatory, anti-aging and therapeutic properties. New nanomaterials are thermo- and photo-stable, insoluble in water, non-toxic, safe and do not have unwanted pigmentation effect. They are used in small quantities and make it possible to increase the effectiveness and reduce the price of sunscreen preparations. The goal is to obtain nanomaterials with a number of competitive advantages: intense absorption in the most dangerous region of the UV spectrum (290-320 nm), low toxicity for humans, environmental friendliness and stability, for technical and cosmetic applications. Our research contributes to The Sustainable Development Goals, including Good health and well-being, Industry, innovation and infrastructure, Responsible consumption and production, etc.