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Notes:

conferenceseries

.com

Volume 9

Journal of Biotechnology & Biomaterials

ISSN: 2155-952X

Biomaterials 2019

February 25-26, 2019

February 25-26, 2019 | London, UK

4

th

Annual Conference and Expo on

Biomaterials

Recent Publications

1. K Kulyk, B Palianytsia, J D Alexander, L Azizova, M Borysenko, M Kartel, M Larsson and T Kulik (2017) Kinetics of

valeric acid ketonization and ketenization in catalytic pyrolysis on nanosized SiO

2

, γ-Al

2

O

3

, CeO

2

/SiO

2

, Al

2

O

3

/SiO

2

and

TiO

2

/SiO

2

. ChemPhysChem 18:1943.

2. L R Azizova, TVKulik, B B Palianytsia and NA Lipkovska (2015)Thermal and hydrolytic stability of grafted ester groups

of carboxylic acids on the silica surface. J Therm. Anal. Calorim 122:517.

3. Liana Azizova, Tetiana V Kulik, Borys B Palianytsia, Aleksandr E Zemlyakov, Viktoriya N Tsikalova and Vasiliy Ya

Chirva (2005) Investigation of chemical transformations of thiophenylglycoside of muramyl dipeptide on the fumed

silica surface using TPD-MS, FTIR spectroscopy and ES IT MS. Nanoscale Research Letters 9:234.

4. T V Kulik, L R Azizova, B B Palyanytsya, A E Zemlyakov and V N Tsikalova (2010) Mass spectrometric investigation of

synthetic glycoside of muramyl dipeptide immobilized on fumed silica surface. Mater Sci Eng B. 169:114.

5. A E Zemlyakov, V N Tsikalova, L R Azizova, V Ya Chirva, E L Mulik, M V Shkalev, O V Kalyuzhin and M V Kiselevsky

(2008) Synthesis and Biological Activity of Aryl S-β-Glycosides of 1-Thio-N-Acetylmuramyl-L-Alanyl-D-isoglutamine.

Russ. J. Bioorg. Chem. 34:223.

Biography

Liana Azizova received her Master degree at Taurida National V.I. Vernadsky University in 2005. She got PhD in Surface Chemistry in 2013. She has her expertise in the

area of surface chemistry, surface characterization, catalytic reactions on the surface of inorganic oxides, their kinetics and mechanisms and synthesis of hybrid organic-

inorganic nanocomposites. It includes the development of biocompatible coating materials and composites for biomedical application. In particular, modification of polymer

and nanosized oxides surfaces by biologically active compounds and biopolymers (polysaccharides, glycopeptides, carboxylic acids), adsorption and determination of a

structure of an adsorption layer of biomolecules on a surface of inorganic oxides. Also, she dealt with heterogeneous catalytic reactions on the surface of inorganic oxides,

their kinetics and mechanisms. Another area of her activity is mass spectrometric investigation of biomolecules interaction with inorganic oxide surfaces and thermal

transformations of biomolecules on inorganic oxide surfaces using thermal analysis.

L.Azizova3@brighton.ac.uk