Integration of Si biocomplex building blocks into porous Si for self-organization of multifunctional structures

Anca Angelescu; Irina Kleps; Nina Kovtyukhova; Sergiy Putselyk; Volodymyr Kudryavtsev; Alexsander Gorchinskiy; Galina Popova; Eugenia Buzaneva

doi:10.1016/S0928-4931(01)00484-2

Integration of Si biocomplex building blocks into porous Si for self-organization of multifunctional structures

Anca Angelescu, Irina Kleps, Nina Kovtyukhova, Sergiy Putselyk, Volodymyr Kudryavtsev, Alexsander Gorchinskiy, Galina Popova, Eugenia Buzaneva

Chemistry

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We developed the nanotechnology of the self-organization of the multifunctional structures from Si biocomplex and nano-Si crystals in por-Si using the integration of Si biocomplex building blocks into por-Si under UV illumination and optical control of self-organization process. Physico-chemical electronic and optical of the nanostructures were detected by AFM, IR spectroscopy. Intense photoluminescence with the maxima at 455 HM (2.73 eV) and 750 HM (1.65 eV), the maximal reflectance at 370 nm, diode properties with/without UV-illumination are characteristic for these structures. Some experimental evidences of bioactivity of these structures have been obtained.

Original language	English (US)
Pages (from-to)	243-245
Number of pages	3
Journal	Materials Science and Engineering C
Volume	19
Issue number	1-2
DOIs	https://doi.org/10.1016/S0928-4931(01)00484-2
State	Published - Jan 2 2002

All Science Journal Classification (ASJC) codes

General Medicine

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10.1016/S0928-4931(01)00484-2

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title = "Integration of Si biocomplex building blocks into porous Si for self-organization of multifunctional structures",

abstract = "We developed the nanotechnology of the self-organization of the multifunctional structures from Si biocomplex and nano-Si crystals in por-Si using the integration of Si biocomplex building blocks into por-Si under UV illumination and optical control of self-organization process. Physico-chemical electronic and optical of the nanostructures were detected by AFM, IR spectroscopy. Intense photoluminescence with the maxima at 455 HM (2.73 eV) and 750 HM (1.65 eV), the maximal reflectance at 370 nm, diode properties with/without UV-illumination are characteristic for these structures. Some experimental evidences of bioactivity of these structures have been obtained.",

author = "Anca Angelescu and Irina Kleps and Nina Kovtyukhova and Sergiy Putselyk and Volodymyr Kudryavtsev and Alexsander Gorchinskiy and Galina Popova and Eugenia Buzaneva",

note = "Funding Information: This work was partly supported by INCO COPERNICUS SBLED Project 977037.",

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T1 - Integration of Si biocomplex building blocks into porous Si for self-organization of multifunctional structures

AU - Angelescu, Anca

AU - Kleps, Irina

AU - Kovtyukhova, Nina

AU - Putselyk, Sergiy

AU - Kudryavtsev, Volodymyr

AU - Gorchinskiy, Alexsander

AU - Popova, Galina

AU - Buzaneva, Eugenia

N1 - Funding Information: This work was partly supported by INCO COPERNICUS SBLED Project 977037.

PY - 2002/1/2

Y1 - 2002/1/2

N2 - We developed the nanotechnology of the self-organization of the multifunctional structures from Si biocomplex and nano-Si crystals in por-Si using the integration of Si biocomplex building blocks into por-Si under UV illumination and optical control of self-organization process. Physico-chemical electronic and optical of the nanostructures were detected by AFM, IR spectroscopy. Intense photoluminescence with the maxima at 455 HM (2.73 eV) and 750 HM (1.65 eV), the maximal reflectance at 370 nm, diode properties with/without UV-illumination are characteristic for these structures. Some experimental evidences of bioactivity of these structures have been obtained.

AB - We developed the nanotechnology of the self-organization of the multifunctional structures from Si biocomplex and nano-Si crystals in por-Si using the integration of Si biocomplex building blocks into por-Si under UV illumination and optical control of self-organization process. Physico-chemical electronic and optical of the nanostructures were detected by AFM, IR spectroscopy. Intense photoluminescence with the maxima at 455 HM (2.73 eV) and 750 HM (1.65 eV), the maximal reflectance at 370 nm, diode properties with/without UV-illumination are characteristic for these structures. Some experimental evidences of bioactivity of these structures have been obtained.

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EP - 245

JO - Materials Science and Engineering C

JF - Materials Science and Engineering C

IS - 1-2

ER -

Integration of Si biocomplex building blocks into porous Si for self-organization of multifunctional structures

Abstract

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