Positron annihilation study of iron oxide nanoparticles in mesoporous silica MCM-41 template

• Autorzy: Surowiec Z. , Wiertel M. , Zaleski R. , Budzyński M. , Goworek J.
• Języki publikacji: EN

Abstrakty

EN

The subject of investigation were the samples obtained by impregnation of MCM-41 template with an aqueous solution prepared from Fe(NO3)3ź9H2O. As a result of such a procedure, iron oxides deposits on MCM-41 were formed. The Mössbauer studies revealed an occurrence of Fe3O4 nanocrystallites in the both ferri- and superparamagnetic states. Almost 80% small particles exist in a paramagnetic state. The positron annihilation lifetime spectroscopy (PALS) spectra were measured in air or in vacuum. The long-lived ortho-positronium (o-Ps) components and their intensities are time dependent due to air molecules interaction with iron oxide nanocrystallites and silica walls surfaces. The adsorption of air on the nanocrystallites surface causes a total screening of their surface and a raise of the o-Ps lifetime values. Observed anti-quenching effect is a result of competition of two phenomena: practically switching off a pick-off mechanism related to interaction of o-Ps with magnetite nanoparticles and considerably weaker usual quenching by paramagnetic oxygen molecules.

Słowa kluczowe

EN

positron annihilation; Mössbauer effect; MCM-41 porous silica; superparamagnetic nanoparticles

• Wydawca: Institute of Nuclear Chemistry and Technology
• Czasopismo: Nukleonika
• Rocznik: 2010
• Tom: Vol. 55, No. 1
• Strony: 91--96
• Opis fizyczny: Bibliogr. 17 poz., rys.

Twórcy

autor

Surowiec Z.

autor

Wiertel M.

autor

Zaleski R.

autor

Budzyński M.

autor

Goworek J.

• Institute of Physics, Maria Curie-Skłodowska University, 1 M. Curie-Skłodowskiej Sq., 20-031 Lublin, Poland, Tel.: +48 81 537 6220, Fax: +48 81 537 6191,

Bibliografia

• 1. Barrett EP, Joyner LG, Halenda PP (1951) The determination of pore volume and area distribution in porous substances. Computations from nitrogen isotherms. J Am Chem Soc 73:373–380
• 2. Beck JS, Vartuli JC, Roth WJ et al. (1992) A new family of mesoporous sieves prepared with liquid crystal templates.J Am Chem Soc 114:10834–10843
• 3. Boskovic S, Hill AJ, Turney TW, Gee ML, Stevens GW, O’Connor AJ (2006) Probing the microporous nature of hierarchically templated mesoporous silica via positron annihilation spectroscopy. Prog Solid State Chem 34;2/4:67–75
• 4. Chuang SY, Tao SJ (1971) Study of various properties of silica gel by positron annihilation. J Chem Phys 54:4902–4907
• 5. Grün M, Unger KK, Matsumoto A, Tsutsumi K (1997) Ordered microporous/mesoporous MCM-41 type adsorbents: novel routes in synthesis, product characterization and specification. In: McEnaney B, Mays JT, Rouquerol J, Rodriguez-Reynoso F, Sing KSW, Unger KK (eds) Characterization of porous solids IV. The Royal Society of Chemistry, London, pp 80–89
• 6. Gupta A, Sun JZ (1999) Spin-polarized transport and magnetoresistance in magnetic oxides. J Magn Magn Mater 200;1/3:24–43
• 7. Kansy J (1994) Microcomputer program for analysis of positron annihilation lifetime spectra. Nucl Instrum Methods Phys Res A 374:235–244
• 8. Kobayashi Y, Ito K, Oka T, Hirata K (2007) Positronium chemistry in porous materials. Radiat Phys Chem 76:224–230
• 9. Malini KA, Anantharaman MR, Gupta A (2004) Low temperature Mössbauer studies on magnetic nanocomposites. Bull Mater Sci 27:361–366
• 10. Pankhurst QA, Pollard RJ (1993) Fine-particle magnetic oxides. J Phys: Condens Matter 5:8487–8508
• 11. Takatani H, Fuminobu Hori F, Nakanishi M, Oshima R (2004) Positron annihilation study on Au-Pd nanoparticles prepared by sonochemical technique. Mater Sci Forum 445/446:192–194
• 12. Xue DS, Zhang LY, Li FS (2004) Synthesis and Mössbauer study of maghemite nanowire arrays. Hyperfine Interact 156/157:41–46
• 13. Yang SG, Zhu H, Yu DL, Jin ZQ, Tang SL, Du YW (2000) Preparation and magnetic property of Fe nanowire array. J Magn Magn Mater 222:97–100
• 14. Zaleski R (2006) Measurement and analysis of the positron annihilation lifetime spectra for mesoporous silica. Acta Phys Pol A 110:729–738
• 15. Zaleski R, Wawryszczuk J, Borówka A, Goworek J, Goworek T (2003) Temperature changes of the template structure in MCM-41 type materials; positron annihilation studies. Microporous Mesoporous Mater 62:47–60
• 16. Zhang HY, He YJ, Chen YB, Wang HY (2002) Structure and positron annihilation spectra of tin incorporated in mesoporous molecular sieves. J Appl Phys 92;12:7636–7640
• 17. Zhou P, Xue D, Luo H, Shi H (2002) Temperature dependence of the Mössbauer effect on prussian blue nanowires. Hyperfine Interact 142:601–606