Application of TiO2 nanoparticles for obtaining self- decontaminating smart textiles
Primena nanočestica TiO2 za dobijanje samodekontaminirajućih pametnih tekstila
Authors
Senić, ŽeljkoBauk, Sonja
Vitorović-Todorović, Maja
Pajić, Nataša
Samolov, Aleksandra
Rajić, Dušan
Article (Published version)
Metadata
Show full item recordAbstract
The worldwide use of pesticides together with the possibility of chemical warfare agent's usage in military actions, terrorist attacks or in accidents, increased the risks of chemical contamination occurrence and consequently stipulated the need for the development of new protective materials and equipment with improved properties. Present day protective gear and incorporated materials afford only physical protection/barrier against toxic chemicals. Current research activities are thus directed towards the design of the so-called 'smart textiles', which are capable of 'self-decontamination', i.e. decomposition of toxic chemicals. This goal can be achieved by metal oxide nanoparticles incorporation onto textile substrates. For this purpose, TiO2 nanoparticles have shown as the most promising, because of the easiness of their synthesis, low price and low toxicity. In this article we described the low temperature methods of TiO2 nanoparticles synthesis (for a special application on textil...es), different ways of their deposition on different types of textiles and the methods for testing the properties of thus obtained textiles.
Široka upotreba pesticida u svetu, zajedno sa mogućnošću upotrebe bojnih otrova u vojnim akcijama, terorističkim napadima ili akcidentnim situacijama, povećala je rizik od pojave hemijske kontaminacije i shodno tome uslovila potrebu za razvojem novih zaštitnih materijala i opreme sa poboljšanim karakteristikama. Današnja zaštitna oprema kao i materijali inkorporirani u nju pruža samo fizičku zaštitu - barijeru protiv toksičnih hemikalija. Zbog toga su današnje istraživačke aktivnosti usmerene ka dizajnu takozvanih 'pametnih tekstila' koji mogu da vrše samodekontaminaciju odn. razlaganje toksičnih jedinjenja. Ovaj cilj se može postići inkorporacijom nanočestica metalnih oksida na tekstilne supstrate. Za ovu svrhu nanočestice TiO2 su se pokazale najboljim, zbog lakoće njihove sinteze, niske cene prekursora i niske toksičnosti. U ovom radu smo opisali metode za sintezu nanočestica TiO2 na niskim temperaturama (za specijalnu upotrebu na tekstilu), različite načine njihovog nanošenja na raz...ličite tipove tekstila, kao i metode za testiranje osobina ovako dobijenih tekstila.
Keywords:
photocatalysis / TiO2 / textile materials / self-decontaminating materials / synthesis / chemical contamination / fotokataliza / nanočestice / titandioksid / tekstil / tekstilni materijali / samodekontaminirajući materijali / metoda sinteze / hemijska kontaminacijaSource:
Scientific Technical Review, 2011, 61, 3-4, 63-72Funding / projects:
- Application of nanomaterials in the improvement of respiratory and percutaneous protective equipment in ecological disbalance conditions caused by radioactive chemical and biological contamination (RS-MESTD-Technological Development (TD or TR)-34034)
Institution/Community
VinčaTY - JOUR AU - Senić, Željko AU - Bauk, Sonja AU - Vitorović-Todorović, Maja AU - Pajić, Nataša AU - Samolov, Aleksandra AU - Rajić, Dušan PY - 2011 UR - https://vinar.vin.bg.ac.rs/handle/123456789/11773 AB - The worldwide use of pesticides together with the possibility of chemical warfare agent's usage in military actions, terrorist attacks or in accidents, increased the risks of chemical contamination occurrence and consequently stipulated the need for the development of new protective materials and equipment with improved properties. Present day protective gear and incorporated materials afford only physical protection/barrier against toxic chemicals. Current research activities are thus directed towards the design of the so-called 'smart textiles', which are capable of 'self-decontamination', i.e. decomposition of toxic chemicals. This goal can be achieved by metal oxide nanoparticles incorporation onto textile substrates. For this purpose, TiO2 nanoparticles have shown as the most promising, because of the easiness of their synthesis, low price and low toxicity. In this article we described the low temperature methods of TiO2 nanoparticles synthesis (for a special application on textiles), different ways of their deposition on different types of textiles and the methods for testing the properties of thus obtained textiles. AB - Široka upotreba pesticida u svetu, zajedno sa mogućnošću upotrebe bojnih otrova u vojnim akcijama, terorističkim napadima ili akcidentnim situacijama, povećala je rizik od pojave hemijske kontaminacije i shodno tome uslovila potrebu za razvojem novih zaštitnih materijala i opreme sa poboljšanim karakteristikama. Današnja zaštitna oprema kao i materijali inkorporirani u nju pruža samo fizičku zaštitu - barijeru protiv toksičnih hemikalija. Zbog toga su današnje istraživačke aktivnosti usmerene ka dizajnu takozvanih 'pametnih tekstila' koji mogu da vrše samodekontaminaciju odn. razlaganje toksičnih jedinjenja. Ovaj cilj se može postići inkorporacijom nanočestica metalnih oksida na tekstilne supstrate. Za ovu svrhu nanočestice TiO2 su se pokazale najboljim, zbog lakoće njihove sinteze, niske cene prekursora i niske toksičnosti. U ovom radu smo opisali metode za sintezu nanočestica TiO2 na niskim temperaturama (za specijalnu upotrebu na tekstilu), različite načine njihovog nanošenja na različite tipove tekstila, kao i metode za testiranje osobina ovako dobijenih tekstila. T2 - Scientific Technical Review T1 - Application of TiO2 nanoparticles for obtaining self- decontaminating smart textiles T1 - Primena nanočestica TiO2 za dobijanje samodekontaminirajućih pametnih tekstila VL - 61 IS - 3-4 SP - 63 EP - 72 UR - https://hdl.handle.net/21.15107/rcub_vinar_11773 ER -
@article{ author = "Senić, Željko and Bauk, Sonja and Vitorović-Todorović, Maja and Pajić, Nataša and Samolov, Aleksandra and Rajić, Dušan", year = "2011", abstract = "The worldwide use of pesticides together with the possibility of chemical warfare agent's usage in military actions, terrorist attacks or in accidents, increased the risks of chemical contamination occurrence and consequently stipulated the need for the development of new protective materials and equipment with improved properties. Present day protective gear and incorporated materials afford only physical protection/barrier against toxic chemicals. Current research activities are thus directed towards the design of the so-called 'smart textiles', which are capable of 'self-decontamination', i.e. decomposition of toxic chemicals. This goal can be achieved by metal oxide nanoparticles incorporation onto textile substrates. For this purpose, TiO2 nanoparticles have shown as the most promising, because of the easiness of their synthesis, low price and low toxicity. In this article we described the low temperature methods of TiO2 nanoparticles synthesis (for a special application on textiles), different ways of their deposition on different types of textiles and the methods for testing the properties of thus obtained textiles., Široka upotreba pesticida u svetu, zajedno sa mogućnošću upotrebe bojnih otrova u vojnim akcijama, terorističkim napadima ili akcidentnim situacijama, povećala je rizik od pojave hemijske kontaminacije i shodno tome uslovila potrebu za razvojem novih zaštitnih materijala i opreme sa poboljšanim karakteristikama. Današnja zaštitna oprema kao i materijali inkorporirani u nju pruža samo fizičku zaštitu - barijeru protiv toksičnih hemikalija. Zbog toga su današnje istraživačke aktivnosti usmerene ka dizajnu takozvanih 'pametnih tekstila' koji mogu da vrše samodekontaminaciju odn. razlaganje toksičnih jedinjenja. Ovaj cilj se može postići inkorporacijom nanočestica metalnih oksida na tekstilne supstrate. Za ovu svrhu nanočestice TiO2 su se pokazale najboljim, zbog lakoće njihove sinteze, niske cene prekursora i niske toksičnosti. U ovom radu smo opisali metode za sintezu nanočestica TiO2 na niskim temperaturama (za specijalnu upotrebu na tekstilu), različite načine njihovog nanošenja na različite tipove tekstila, kao i metode za testiranje osobina ovako dobijenih tekstila.", journal = "Scientific Technical Review", title = "Application of TiO2 nanoparticles for obtaining self- decontaminating smart textiles, Primena nanočestica TiO2 za dobijanje samodekontaminirajućih pametnih tekstila", volume = "61", number = "3-4", pages = "63-72", url = "https://hdl.handle.net/21.15107/rcub_vinar_11773" }
Senić, Ž., Bauk, S., Vitorović-Todorović, M., Pajić, N., Samolov, A.,& Rajić, D.. (2011). Application of TiO2 nanoparticles for obtaining self- decontaminating smart textiles. in Scientific Technical Review, 61(3-4), 63-72. https://hdl.handle.net/21.15107/rcub_vinar_11773
Senić Ž, Bauk S, Vitorović-Todorović M, Pajić N, Samolov A, Rajić D. Application of TiO2 nanoparticles for obtaining self- decontaminating smart textiles. in Scientific Technical Review. 2011;61(3-4):63-72. https://hdl.handle.net/21.15107/rcub_vinar_11773 .
Senić, Željko, Bauk, Sonja, Vitorović-Todorović, Maja, Pajić, Nataša, Samolov, Aleksandra, Rajić, Dušan, "Application of TiO2 nanoparticles for obtaining self- decontaminating smart textiles" in Scientific Technical Review, 61, no. 3-4 (2011):63-72, https://hdl.handle.net/21.15107/rcub_vinar_11773 .