Yu. M. Spivak scite author profile

Hydrophilic layers of porous silicon are prepared by single-or two-step anodization and characterized by evaluating their surface hydrophilicity and contents of functional groups using IR spectroscopy and adsorption of acid-base indicators with different p a values. The surface functional composition of the synthesized samples is shown to be adjustable depending on the anodization current density. The surface of samples obtained at anodization current density 30 mA/cm 2 is predominantly occupied with p a 2.5 corresponding to ≡Si-OH groups. The increase of current density to 80 mA/cm 2 results in the increase of surface functional nonuniformity with the formation of versatile centers, primarily Lewis acidic sites corresponding to Si atoms, as indicated by selective indicator adsorption in agreement with the disappearance of Si-H bonds in IR spectra and overall surface disordering according to SEM and AFM data.

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XANES and IR spectroscopy study of the electronic structure and chemical composition of porous silicon on n- and p-type substrates

Lenshin

Кашкаров

Seredin

et al. 2011

Semiconductors

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Investigations of nanoreactors on the basis of p-type porous silicon: Electron structure and phase composition

Lenshin¹,

Кашкаров²,

Spivak³

et al. 2012

Materials Chemistry and Physics

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Combined effect of demagnetizing field and induced magnetic anisotropy on the magnetic properties of manganese–zinc ferrite composites

Babayan

Moučka

Sapurina

et al. 2012

Journal of Magnetism and Magnetic Materials

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Yu. M. Spivak

Porous silicon with embedded metal oxides for gas sensing applications

Surface Functionality Features of Porous Silicon Prepared and Treated in Different Conditions

XANES and IR spectroscopy study of the electronic structure and chemical composition of porous silicon on n- and p-type substrates

Investigations of nanoreactors on the basis of p-type porous silicon: Electron structure and phase composition

Combined effect of demagnetizing field and induced magnetic anisotropy on the magnetic properties of manganese–zinc ferrite composites

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