TY  - JOUR
AU  - Milojkov, Dušan
AU  - Sokić, Miroslav
AU  - Radosavljević-Mihajlović, Ana
AU  - Stanić, Vojislav
AU  - Manojlović, Vaso
AU  - Mutavdzić, Dragosav R.
AU  - Milanović, Marija
PY  - 2021
UR  - https://ritnms.itnms.ac.rs/handle/123456789/568
AB  - Coupled substitution of fluorapatite (FAP) crystal lattice plays an important role in the engineering of optically active nanomaterials. Uniform fluorapatite nanopowders doped with praseodymium (Pr3+) and carbonate (CO32-) ions have been successfully synthesized by precipitation method under room temperature (25 degrees C). The structural, morphological, chemical and optical properties of monophase material were characterized by X-ray diffraction (XRD), Fourier Transform Infrared and Far Infrared Spectroscopy (FTIR and FIR, respectively), Scanning Electron Microscopy with Energy Dispersive Spectroscopy (SEM/EDS), Transmission Electron Microscopy (TEM) and Photoluminescence Spectroscopy (PL). Coupled substitution of FAP crystal lattice with Pr3+ and CO32- reduces the crystallite size with a constant c/a ratio of 1.72. FTIR study showed that synthesized nanopowders were AB-type CO32- substitution, and FIR study revealed new Pr-O vibrations. TEM analysis was found that synthesized nanopowders were composed of irregular spheres in the nanometer range. The fluorescence of FAP nanoparticles was in the violet-blue region of the visible part of the spectrum. When Pr3+ was doped in a lattice, the violet-blue emission becomes sharper due to reabsorption. MCR-ALS analyses of fluorescence spectra indicated the shift of the maximum to the blue color with the increase in the concentration of Pr3+ ions. Additionally, luminescent nanopowders demonstrated significant antibacterial activity against Escherichia coli. As the obtained nanoparticles showed a good absorption of ultraviolet A light and reabsorption of blue-green luminescence, they are suitable for further development of optically active nanomaterials for light filtering. Optically active PrCFAP nanopowders with antibacterial properties may be promising additives for the development of multifunctional cosmetic and health care products.
PB  - MDPI, Basel
T2  - Metals
T1  - Influence of Pr3+ and CO32- Ions Coupled Substitution on Structural, Optical and Antibacterial Properties of Fluorapatite Nanopowders Obtained by Precipitation
IS  - 9
VL  - 11
DO  - 10.3390/met11091384
UR  - conv_917
ER  - 

@article{
author = "Milojkov, Dušan and Sokić, Miroslav and Radosavljević-Mihajlović, Ana and Stanić, Vojislav and Manojlović, Vaso and Mutavdzić, Dragosav R. and Milanović, Marija",
year = "2021",
abstract = "Coupled substitution of fluorapatite (FAP) crystal lattice plays an important role in the engineering of optically active nanomaterials. Uniform fluorapatite nanopowders doped with praseodymium (Pr3+) and carbonate (CO32-) ions have been successfully synthesized by precipitation method under room temperature (25 degrees C). The structural, morphological, chemical and optical properties of monophase material were characterized by X-ray diffraction (XRD), Fourier Transform Infrared and Far Infrared Spectroscopy (FTIR and FIR, respectively), Scanning Electron Microscopy with Energy Dispersive Spectroscopy (SEM/EDS), Transmission Electron Microscopy (TEM) and Photoluminescence Spectroscopy (PL). Coupled substitution of FAP crystal lattice with Pr3+ and CO32- reduces the crystallite size with a constant c/a ratio of 1.72. FTIR study showed that synthesized nanopowders were AB-type CO32- substitution, and FIR study revealed new Pr-O vibrations. TEM analysis was found that synthesized nanopowders were composed of irregular spheres in the nanometer range. The fluorescence of FAP nanoparticles was in the violet-blue region of the visible part of the spectrum. When Pr3+ was doped in a lattice, the violet-blue emission becomes sharper due to reabsorption. MCR-ALS analyses of fluorescence spectra indicated the shift of the maximum to the blue color with the increase in the concentration of Pr3+ ions. Additionally, luminescent nanopowders demonstrated significant antibacterial activity against Escherichia coli. As the obtained nanoparticles showed a good absorption of ultraviolet A light and reabsorption of blue-green luminescence, they are suitable for further development of optically active nanomaterials for light filtering. Optically active PrCFAP nanopowders with antibacterial properties may be promising additives for the development of multifunctional cosmetic and health care products.",
publisher = "MDPI, Basel",
journal = "Metals",
title = "Influence of Pr3+ and CO32- Ions Coupled Substitution on Structural, Optical and Antibacterial Properties of Fluorapatite Nanopowders Obtained by Precipitation",
number = "9",
volume = "11",
doi = "10.3390/met11091384",
url = "conv_917"
}

Milojkov, D., Sokić, M., Radosavljević-Mihajlović, A., Stanić, V., Manojlović, V., Mutavdzić, D. R.,& Milanović, M.. (2021). Influence of Pr3+ and CO32- Ions Coupled Substitution on Structural, Optical and Antibacterial Properties of Fluorapatite Nanopowders Obtained by Precipitation. in Metals
MDPI, Basel., 11(9).
https://doi.org/10.3390/met11091384
conv_917

Milojkov D, Sokić M, Radosavljević-Mihajlović A, Stanić V, Manojlović V, Mutavdzić DR, Milanović M. Influence of Pr3+ and CO32- Ions Coupled Substitution on Structural, Optical and Antibacterial Properties of Fluorapatite Nanopowders Obtained by Precipitation. in Metals. 2021;11(9).
doi:10.3390/met11091384
conv_917 .

Milojkov, Dušan, Sokić, Miroslav, Radosavljević-Mihajlović, Ana, Stanić, Vojislav, Manojlović, Vaso, Mutavdzić, Dragosav R., Milanović, Marija, "Influence of Pr3+ and CO32- Ions Coupled Substitution on Structural, Optical and Antibacterial Properties of Fluorapatite Nanopowders Obtained by Precipitation" in Metals, 11, no. 9 (2021),
https://doi.org/10.3390/met11091384 .,
conv_917 .

TY  - JOUR
AU  - Milojkov, Dušan
AU  - Silvestre, Oscar F.
AU  - Stanić, Vojislav
AU  - Janjić, Goran V.
AU  - Mutavdzić, Dragosav R.
AU  - Milanović, Marija
AU  - Nieder, Jana B.
PY  - 2020
UR  - https://ritnms.itnms.ac.rs/handle/123456789/534
AB  - Fluorapatite doped with rare-earth elements has a wide-range of biomedical applications. Here, a new type of fluorapatite nanocrystals doped with praseodymium (FAP-Pr) with excitation-emission profiles in visible part of the spectrum is fabricated. Energy levels of Pr3+ activator ion contain metastable multiples states that offer the possibility of efficient multicolor emission lines in FAP nanocrystals. Three types of FAP-Pr nanocrystals with 0.1%, 0.5% and 1% atomic percent of Pr3+ (along with the undoped FAP control sample) are studied. Their novel chemical production method is described, the FAP-Pr nanocrystals structure, biocompatibility and the suitability for cell imaging are analyzed. Physicochemical characterization confirms crystals down to nanometer size. In addition, quantum-chemical calculation predicts that Pr3+ ions are incorporated into the FAP crystal lattice at Ca2 (6 h) sites. In vitro viability results shows that FAP-Pr nanocrystals are nontoxic to live cells. Additionally, the cell uptake of the FAP-Pr nanocrystals is studied using fluorescence-based widefield and confocal microscopy. The nanocrystals show characteristic green emission at 545 nm (P-3(0)-> H-3(5) transition of Pr3+ ion) and orange emission at 600 nm (D-1(2)-> H-3(4)), which we use to discriminate from cell autofluorescence background. Orthogonal projections across 3D confocal stacks show that the nanocrystals are able to enter the cells positioning themselves within the cytoplasm. Overall, the new FAP-Pr nanocrystals are biocompatible and of the tested types, the 0.5% Pr3+ doped nanocrystals show the highest promise as a tracking nanoparticle probe for bioimaging applications.
PB  - Elsevier, Amsterdam
T2  - Journal of Luminescence
T1  - Fabrication and characterization of luminescent Pr3+ doped fluorapatite nanocrystals as bioimaging contrast agents
VL  - 217
DO  - 10.1016/j.jlumin.2019.116757
UR  - conv_869
ER  - 

@article{
author = "Milojkov, Dušan and Silvestre, Oscar F. and Stanić, Vojislav and Janjić, Goran V. and Mutavdzić, Dragosav R. and Milanović, Marija and Nieder, Jana B.",
year = "2020",
abstract = "Fluorapatite doped with rare-earth elements has a wide-range of biomedical applications. Here, a new type of fluorapatite nanocrystals doped with praseodymium (FAP-Pr) with excitation-emission profiles in visible part of the spectrum is fabricated. Energy levels of Pr3+ activator ion contain metastable multiples states that offer the possibility of efficient multicolor emission lines in FAP nanocrystals. Three types of FAP-Pr nanocrystals with 0.1%, 0.5% and 1% atomic percent of Pr3+ (along with the undoped FAP control sample) are studied. Their novel chemical production method is described, the FAP-Pr nanocrystals structure, biocompatibility and the suitability for cell imaging are analyzed. Physicochemical characterization confirms crystals down to nanometer size. In addition, quantum-chemical calculation predicts that Pr3+ ions are incorporated into the FAP crystal lattice at Ca2 (6 h) sites. In vitro viability results shows that FAP-Pr nanocrystals are nontoxic to live cells. Additionally, the cell uptake of the FAP-Pr nanocrystals is studied using fluorescence-based widefield and confocal microscopy. The nanocrystals show characteristic green emission at 545 nm (P-3(0)-> H-3(5) transition of Pr3+ ion) and orange emission at 600 nm (D-1(2)-> H-3(4)), which we use to discriminate from cell autofluorescence background. Orthogonal projections across 3D confocal stacks show that the nanocrystals are able to enter the cells positioning themselves within the cytoplasm. Overall, the new FAP-Pr nanocrystals are biocompatible and of the tested types, the 0.5% Pr3+ doped nanocrystals show the highest promise as a tracking nanoparticle probe for bioimaging applications.",
publisher = "Elsevier, Amsterdam",
journal = "Journal of Luminescence",
title = "Fabrication and characterization of luminescent Pr3+ doped fluorapatite nanocrystals as bioimaging contrast agents",
volume = "217",
doi = "10.1016/j.jlumin.2019.116757",
url = "conv_869"
}

Milojkov, D., Silvestre, O. F., Stanić, V., Janjić, G. V., Mutavdzić, D. R., Milanović, M.,& Nieder, J. B.. (2020). Fabrication and characterization of luminescent Pr3+ doped fluorapatite nanocrystals as bioimaging contrast agents. in Journal of Luminescence
Elsevier, Amsterdam., 217.
https://doi.org/10.1016/j.jlumin.2019.116757
conv_869

Milojkov D, Silvestre OF, Stanić V, Janjić GV, Mutavdzić DR, Milanović M, Nieder JB. Fabrication and characterization of luminescent Pr3+ doped fluorapatite nanocrystals as bioimaging contrast agents. in Journal of Luminescence. 2020;217.
doi:10.1016/j.jlumin.2019.116757
conv_869 .

Milojkov, Dušan, Silvestre, Oscar F., Stanić, Vojislav, Janjić, Goran V., Mutavdzić, Dragosav R., Milanović, Marija, Nieder, Jana B., "Fabrication and characterization of luminescent Pr3+ doped fluorapatite nanocrystals as bioimaging contrast agents" in Journal of Luminescence, 217 (2020),
https://doi.org/10.1016/j.jlumin.2019.116757 .,
conv_869 .

TY  - CONF
AU  - Milojkov, Dušan
AU  - Stanić, Vojislav
AU  - Janjić, Goran
AU  - Mutavdžić, Dragosav
AU  - Nastasijević, Branislav
AU  - Radosavljević-Mihajlović, Ana
AU  - Milanović, Marija
PY  - 2017
UR  - https://ritnms.itnms.ac.rs/handle/123456789/961
AB  - Nanočestice apatita dopirane elementima retkih zemalja su intenzivno proučavane kao potencijalni luminiscentni materijali za obeležavanje ćelija i tkiva, u bioinženjeringu tkiva, za remodeliranje kostiju i posmatranje distribucije lekova [1-3]. Nanočestice Pr3+ dopiranih fluorapatita (Pr-FAP) sfernog oblika uspešno su sintetisane postupkom koprecipitacije i okarakterisane primenom XRD, FTIR, PL i SEM-EDX metoda. Emisija nanočestica fluorapatita (FAP) javlja se u ljubičastoj oblasti 
vidljivog dela spektra, uz crveni pomak u oblast zelene boje kada je Pr3+ ugrađen u rešetku. MCR-ALS (Multivariate Curve Resolution-Alternating Least Squares) analiza fluorescentnog spektara i ab initio proračuni ukazuju da se joni Pr3+ nalaze u Pr-FAP rešetki na Ca2 (6h) položaju. Pretpostavljamo da je mehanizam zamene Ca2+ jona sa Pr3+ jonima praćen kompenzacijom naelektrisanja ugrađivanjem CO32- jona u strukturi ili 
formiranjem šupljina na položajima jona metala. Dobijeni uzorci pokazali su mali stepen hemolize, a stepen hemolize se povećava sa smanjenjem veličine kristalita. Rezultati hemolize ukazuju da se ove sintetičke
nanočestice mogu potencijalno koristiti za dalja biomedicinska istraživanja, kao što su obeležavanje ćelija i tkiva, bioinženjering, za terapiju karcinoma i ispitivanje distribucije leka.
AB  - The apatite nanoparticles doped with rear earth elements have been extensively studied as a potential luminescence inorganic material for cells and tissue labeling, bioimaging in tissue engineering and bone re-modelling, and for observing the distribution and drug delivery [1-3]. Sphere-like nanoparticles of Pr3+ doped fluorapatite (Pr-FAP) have been successfully 
synthesized by co-precipitation method and characterized by XRD, FTIR, PL and SEM EDX methods. Emission of fluorapatite nanoparticles (FAP) occurs in violet region of visible part of spectrum, with red shift to green color region when Pr3+ is doped in lattice. MCR-ALS (Multivariate Curve Resolution-Alternating Least Squares) analyses of fluorescence spectra and ab initio calculation indicated that Pr3+ ions are located in Pr FAP lattice at Ca2 (6h) sites. We assume that the mechanism of substitution of Ca2+ with Pr3+ ion is accompanied with charge compensation by incorporation of CO32- ions in structure or by vacancies formation on metal ions position. The obtained samples showed a small degree of hemolysis, and degree of hemolysis 
increases with decrease in crystallite size. The results of hemolysis suggest that the synthesized nanoparticles can be potentially used for further biomedical research, such as cells and tissue labeling, bioimaging, cancer therapy and drug delivery.
PB  - Belgrade : Serbian Ceramic Society
C3  - XXIV Kонференција српског кристалографског друштва
T1  - Nanočestice Pr3+ dopiranih fluorapatita dobijenih koprecipitacionom metodom
T1  - Pr3+ doped fluorapatite nanoparticles obtained by co-precipitation method
EP  - 19
SP  - 18
ER  - 

@conference{
author = "Milojkov, Dušan and Stanić, Vojislav and Janjić, Goran and Mutavdžić, Dragosav and Nastasijević, Branislav and Radosavljević-Mihajlović, Ana and Milanović, Marija",
year = "2017",
abstract = "Nanočestice apatita dopirane elementima retkih zemalja su intenzivno proučavane kao potencijalni luminiscentni materijali za obeležavanje ćelija i tkiva, u bioinženjeringu tkiva, za remodeliranje kostiju i posmatranje distribucije lekova [1-3]. Nanočestice Pr3+ dopiranih fluorapatita (Pr-FAP) sfernog oblika uspešno su sintetisane postupkom koprecipitacije i okarakterisane primenom XRD, FTIR, PL i SEM-EDX metoda. Emisija nanočestica fluorapatita (FAP) javlja se u ljubičastoj oblasti 
vidljivog dela spektra, uz crveni pomak u oblast zelene boje kada je Pr3+ ugrađen u rešetku. MCR-ALS (Multivariate Curve Resolution-Alternating Least Squares) analiza fluorescentnog spektara i ab initio proračuni ukazuju da se joni Pr3+ nalaze u Pr-FAP rešetki na Ca2 (6h) položaju. Pretpostavljamo da je mehanizam zamene Ca2+ jona sa Pr3+ jonima praćen kompenzacijom naelektrisanja ugrađivanjem CO32- jona u strukturi ili 
formiranjem šupljina na položajima jona metala. Dobijeni uzorci pokazali su mali stepen hemolize, a stepen hemolize se povećava sa smanjenjem veličine kristalita. Rezultati hemolize ukazuju da se ove sintetičke
nanočestice mogu potencijalno koristiti za dalja biomedicinska istraživanja, kao što su obeležavanje ćelija i tkiva, bioinženjering, za terapiju karcinoma i ispitivanje distribucije leka., The apatite nanoparticles doped with rear earth elements have been extensively studied as a potential luminescence inorganic material for cells and tissue labeling, bioimaging in tissue engineering and bone re-modelling, and for observing the distribution and drug delivery [1-3]. Sphere-like nanoparticles of Pr3+ doped fluorapatite (Pr-FAP) have been successfully 
synthesized by co-precipitation method and characterized by XRD, FTIR, PL and SEM EDX methods. Emission of fluorapatite nanoparticles (FAP) occurs in violet region of visible part of spectrum, with red shift to green color region when Pr3+ is doped in lattice. MCR-ALS (Multivariate Curve Resolution-Alternating Least Squares) analyses of fluorescence spectra and ab initio calculation indicated that Pr3+ ions are located in Pr FAP lattice at Ca2 (6h) sites. We assume that the mechanism of substitution of Ca2+ with Pr3+ ion is accompanied with charge compensation by incorporation of CO32- ions in structure or by vacancies formation on metal ions position. The obtained samples showed a small degree of hemolysis, and degree of hemolysis 
increases with decrease in crystallite size. The results of hemolysis suggest that the synthesized nanoparticles can be potentially used for further biomedical research, such as cells and tissue labeling, bioimaging, cancer therapy and drug delivery.",
publisher = "Belgrade : Serbian Ceramic Society",
journal = "XXIV Kонференција српског кристалографског друштва",
title = "Nanočestice Pr3+ dopiranih fluorapatita dobijenih koprecipitacionom metodom, Pr3+ doped fluorapatite nanoparticles obtained by co-precipitation method",
pages = "19-18"
}

Milojkov, D., Stanić, V., Janjić, G., Mutavdžić, D., Nastasijević, B., Radosavljević-Mihajlović, A.,& Milanović, M.. (2017). Nanočestice Pr3+ dopiranih fluorapatita dobijenih koprecipitacionom metodom. in XXIV Kонференција српског кристалографског друштва
Belgrade : Serbian Ceramic Society., 18-19.

Milojkov D, Stanić V, Janjić G, Mutavdžić D, Nastasijević B, Radosavljević-Mihajlović A, Milanović M. Nanočestice Pr3+ dopiranih fluorapatita dobijenih koprecipitacionom metodom. in XXIV Kонференција српског кристалографског друштва. 2017;:18-19..

Milojkov, Dušan, Stanić, Vojislav, Janjić, Goran, Mutavdžić, Dragosav, Nastasijević, Branislav, Radosavljević-Mihajlović, Ana, Milanović, Marija, "Nanočestice Pr3+ dopiranih fluorapatita dobijenih koprecipitacionom metodom" in XXIV Kонференција српског кристалографског друштва (2017):18-19.

TY  - CONF
AU  - Milojkov, Dušan
AU  - Stanić, Vojislav
AU  - Janjić, Goran
AU  - Mutavdžić, Dragosav
AU  - Milanović, Marija
PY  - 2017
UR  - https://ritnms.itnms.ac.rs/handle/123456789/960
AB  - The fluorapatite (FAP) nanoparticles doped with rear earth elements have been extensively studied as a potential luminescence inorganic material for in-vitro and in vivo cells and tissue bioimaging [1-3]. Luminescent nanoparticles of undoped and Pr3+ doped fluorapatite (Pr-FAP) have been successfully synthesized by co-precipitation method followed by calcination. Obtained materials are characterized by XRD, FTIR FAR, PLE-PL and SEM-EDAX methods, and theoretical prediction of structural changes was also done.
Emission of FAP nanoparticles occurs in violet-blue region of visible part of 
spectrum under excitation in UV region. Introducing the Pr3+ into the lattice causes the red or blue shift depending of Pr3+ concentration and synthesis conditions. MCR-ALS analyses of fluorescence spectra and ab initio calculation indicated that Pr3+ ions are located in Pr-FAP lattice at Ca2 (6h) sites. Assumed mechanism of substitution of Ca2+ with Pr3+ ion is accompanied with charge compensation by incorporation of CO32- ions into the structure or by vacancies formation on metal ions position. Synthesized nanoparticles can be potentially used as a luminescent nanomaterials in biomedicine for targeting, bioimaging, drug delivery and therapy.
PB  - Novi Sad : University of Novi Sad, Faculty of Technology
C3  - 12th Conference for Young Scientists in Ceramics, CYSC-2017
T1  - Luminescent Pr3+ doped fluorapatite nanoparticles with different excitation-emission profiles
EP  - 73
SP  - 73
ER  - 

@conference{
author = "Milojkov, Dušan and Stanić, Vojislav and Janjić, Goran and Mutavdžić, Dragosav and Milanović, Marija",
year = "2017",
abstract = "The fluorapatite (FAP) nanoparticles doped with rear earth elements have been extensively studied as a potential luminescence inorganic material for in-vitro and in vivo cells and tissue bioimaging [1-3]. Luminescent nanoparticles of undoped and Pr3+ doped fluorapatite (Pr-FAP) have been successfully synthesized by co-precipitation method followed by calcination. Obtained materials are characterized by XRD, FTIR FAR, PLE-PL and SEM-EDAX methods, and theoretical prediction of structural changes was also done.
Emission of FAP nanoparticles occurs in violet-blue region of visible part of 
spectrum under excitation in UV region. Introducing the Pr3+ into the lattice causes the red or blue shift depending of Pr3+ concentration and synthesis conditions. MCR-ALS analyses of fluorescence spectra and ab initio calculation indicated that Pr3+ ions are located in Pr-FAP lattice at Ca2 (6h) sites. Assumed mechanism of substitution of Ca2+ with Pr3+ ion is accompanied with charge compensation by incorporation of CO32- ions into the structure or by vacancies formation on metal ions position. Synthesized nanoparticles can be potentially used as a luminescent nanomaterials in biomedicine for targeting, bioimaging, drug delivery and therapy.",
publisher = "Novi Sad : University of Novi Sad, Faculty of Technology",
journal = "12th Conference for Young Scientists in Ceramics, CYSC-2017",
title = "Luminescent Pr3+ doped fluorapatite nanoparticles with different excitation-emission profiles",
pages = "73-73"
}

Milojkov, D., Stanić, V., Janjić, G., Mutavdžić, D.,& Milanović, M.. (2017). Luminescent Pr3+ doped fluorapatite nanoparticles with different excitation-emission profiles. in 12th Conference for Young Scientists in Ceramics, CYSC-2017
Novi Sad : University of Novi Sad, Faculty of Technology., 73-73.

Milojkov D, Stanić V, Janjić G, Mutavdžić D, Milanović M. Luminescent Pr3+ doped fluorapatite nanoparticles with different excitation-emission profiles. in 12th Conference for Young Scientists in Ceramics, CYSC-2017. 2017;:73-73..

Milojkov, Dušan, Stanić, Vojislav, Janjić, Goran, Mutavdžić, Dragosav, Milanović, Marija, "Luminescent Pr3+ doped fluorapatite nanoparticles with different excitation-emission profiles" in 12th Conference for Young Scientists in Ceramics, CYSC-2017 (2017):73-73.

TY  - CONF
AU  - Milojkov, Dušan
AU  - Stanić, Vojislav
AU  - Janjić, Goran
AU  - 
AU  - 
PY  - 2016
UR  - https://ritnms.itnms.ac.rs/handle/123456789/962
AB  - Hidroksiapatit (HAp) i fluorapatit (FAp) su dobro poznati biomaterijali jer pred stavljaju glavne komponente kostiju i zuba. Sintetički HAp i FAp se smatraju potencijal nim biomaterijalima zbog svojih bioloških, biokompatibilnih i antibakterijskih aktivnosti. Razni metalni joni korišćeni su za dopiranje hidroksiapatitnih i fluorapatitnih biomateri jala, sa ciljem da se dobiju bolja svojstva [1]. HAp i FAp dopirani retkim zemljama (RE) 
su potencijalni luminescentni biomarkeri. Još jedna veoma bitna karakteristika nanočestičnih bioapatita je mogućnost zamene jona metala, kao što su joni lantanida koji predstavljaju nove luminescentne centre. Da bi kreirali model sistem za kvantno-hemijske proračune koji mogu da reprodukuju fluorescentne spektre dopiranih fluorapatita, urađena je analiza kristalnih struktura. Ana liza kristalnih struktura dobijenih iz Baze kristalnih struktura časopisa „American Miner alogist“ (AMCSD) pokazala je da FAp imaju heksagonalnu simetriju (prostorna grupa P63/m ), koja je izgrađena od jona metala (Ca, Sr, NA, Ce, Mn, La, Nd, Cd, Di, U ili Th), trovalentne anjonske grupe (PO43−ili SiO43−), i monovalentnog anjona (F-, OH-, i Cl-). U ovim strukturama postoje dva simetrijski neekvivalentna položaja jona Ca2+: položaji I i II (vidi sliku dole). Ab initio proračuni fluorescentnih spektara su urađeni za tri geometrije, sa jonima metala u položajima I i II položaju, dok treći model sistem sadrži tri katjona matala, tri PO43− jona i F− jon u centru (luminiscentni centar). Treći model sistem pokazao je najbolje slaganje sa eksperimentalnim podacima.
AB  - Hydroxiapatite (HAp) and fluorapatite (FAp) are well known biomaterials being the main components of bones and teeth. The synthetic HAp and FAp are considered as potential biomaterial due to bioactive and biocompatible and antibacterial activity. Various metal ions, have been used to doped hydroxyapatite and fluorapatite biomaterials with in order to get better activity [1]. The rare-earth (RE) doped HAp and FAp are prospective lumi nescent biomarkers. Another very important characteristic of nanosized bioapatite is its structural capacity to accept many ionic substitutions such as lanthanide ions as new lu minescent centers. To create a model system for quantum-chemical calculations that can reproduce the fluorescent spectra of doped fluorapatite analysis of crystal structure were done.The anal ysis of crystal structures extracted from American Mineralogist Crystal Structure Database 
shown that FAp has a hexagonal symmetry (space group P63/m), with metal cation (Ca, Sr, Na, Ce, Mn, La, Nd, Cd, Dy, U or Th), trivalent anionic group (PO4 or SiO4), and monovalent anion (F−, OH−, and Cl−). In these structures there are two non equivalent Ca2+ positions: position I and position II (see figure below). Ab initio calculations of fluores cence spectra were done on three geometries with metal ion in positions I and II, while the third model system contains three metal cations, three PO43− anions and F− ion in the center 
(luminescence center). The third model system showed the best agreement with the exper imental data.
PB  - Belgrade : Serbian Crystallographic Society
C3  - XXIII Kонференција српског кристалографског друштва
T1  - Model sistemi za fluorescenciju fluorapatita zasnovani na kristalografskim i kvantno-hemijskim podacima
T1  - Model systems for fluorescence of fluorapatite based on crystallographic and quantum-chemical data
EP  - 97
SP  - 96
ER  - 

@conference{
author = "Milojkov, Dušan and Stanić, Vojislav and Janjić, Goran and  and ",
year = "2016",
abstract = "Hidroksiapatit (HAp) i fluorapatit (FAp) su dobro poznati biomaterijali jer pred stavljaju glavne komponente kostiju i zuba. Sintetički HAp i FAp se smatraju potencijal nim biomaterijalima zbog svojih bioloških, biokompatibilnih i antibakterijskih aktivnosti. Razni metalni joni korišćeni su za dopiranje hidroksiapatitnih i fluorapatitnih biomateri jala, sa ciljem da se dobiju bolja svojstva [1]. HAp i FAp dopirani retkim zemljama (RE) 
su potencijalni luminescentni biomarkeri. Još jedna veoma bitna karakteristika nanočestičnih bioapatita je mogućnost zamene jona metala, kao što su joni lantanida koji predstavljaju nove luminescentne centre. Da bi kreirali model sistem za kvantno-hemijske proračune koji mogu da reprodukuju fluorescentne spektre dopiranih fluorapatita, urađena je analiza kristalnih struktura. Ana liza kristalnih struktura dobijenih iz Baze kristalnih struktura časopisa „American Miner alogist“ (AMCSD) pokazala je da FAp imaju heksagonalnu simetriju (prostorna grupa P63/m ), koja je izgrađena od jona metala (Ca, Sr, NA, Ce, Mn, La, Nd, Cd, Di, U ili Th), trovalentne anjonske grupe (PO43−ili SiO43−), i monovalentnog anjona (F-, OH-, i Cl-). U ovim strukturama postoje dva simetrijski neekvivalentna položaja jona Ca2+: položaji I i II (vidi sliku dole). Ab initio proračuni fluorescentnih spektara su urađeni za tri geometrije, sa jonima metala u položajima I i II položaju, dok treći model sistem sadrži tri katjona matala, tri PO43− jona i F− jon u centru (luminiscentni centar). Treći model sistem pokazao je najbolje slaganje sa eksperimentalnim podacima., Hydroxiapatite (HAp) and fluorapatite (FAp) are well known biomaterials being the main components of bones and teeth. The synthetic HAp and FAp are considered as potential biomaterial due to bioactive and biocompatible and antibacterial activity. Various metal ions, have been used to doped hydroxyapatite and fluorapatite biomaterials with in order to get better activity [1]. The rare-earth (RE) doped HAp and FAp are prospective lumi nescent biomarkers. Another very important characteristic of nanosized bioapatite is its structural capacity to accept many ionic substitutions such as lanthanide ions as new lu minescent centers. To create a model system for quantum-chemical calculations that can reproduce the fluorescent spectra of doped fluorapatite analysis of crystal structure were done.The anal ysis of crystal structures extracted from American Mineralogist Crystal Structure Database 
shown that FAp has a hexagonal symmetry (space group P63/m), with metal cation (Ca, Sr, Na, Ce, Mn, La, Nd, Cd, Dy, U or Th), trivalent anionic group (PO4 or SiO4), and monovalent anion (F−, OH−, and Cl−). In these structures there are two non equivalent Ca2+ positions: position I and position II (see figure below). Ab initio calculations of fluores cence spectra were done on three geometries with metal ion in positions I and II, while the third model system contains three metal cations, three PO43− anions and F− ion in the center 
(luminescence center). The third model system showed the best agreement with the exper imental data.",
publisher = "Belgrade : Serbian Crystallographic Society",
journal = "XXIII Kонференција српског кристалографског друштва",
title = "Model sistemi za fluorescenciju fluorapatita zasnovani na kristalografskim i kvantno-hemijskim podacima, Model systems for fluorescence of fluorapatite based on crystallographic and quantum-chemical data",
pages = "97-96"
}

Milojkov, D., Stanić, V., Janjić, G., ,& . (2016). Model sistemi za fluorescenciju fluorapatita zasnovani na kristalografskim i kvantno-hemijskim podacima. in XXIII Kонференција српског кристалографског друштва
Belgrade : Serbian Crystallographic Society., 96-97.

Milojkov D, Stanić V, Janjić G, , . Model sistemi za fluorescenciju fluorapatita zasnovani na kristalografskim i kvantno-hemijskim podacima. in XXIII Kонференција српског кристалографског друштва. 2016;:96-97..

Milojkov, Dušan, Stanić, Vojislav, Janjić, Goran, , , "Model sistemi za fluorescenciju fluorapatita zasnovani na kristalografskim i kvantno-hemijskim podacima" in XXIII Kонференција српског кристалографског друштва (2016):96-97.