array(1) { [0]=> object(Apache_Solr_Document)#24 (3) { ["_documentBoost":protected]=> bool(false) ["_fields":protected]=> array(6) { ["content_id"]=> array(1) { [0]=> string(13) "DIRECTORY_600" } ["content_title"]=> array(1) { [0]=> string(15) "MASSIMO BOTTINI" } ["description"]=> array(1) { [0]=> string(61018) "Inserire qui il curriculumInsert here the curriculum a:72:{i:0;a:14:{s:9:"citazione";s:337:"Cruz, M., Ferreira, C.r., Tovani, C.b., de Oliveira, F.a., Bolean, M., Caseli, L., et al. (2020). Phosphatidylserine controls calcium phosphate nucleation and growth on lipid monolayers: A physicochemical understanding of matrix vesicle-driven biomineralization. JOURNAL OF STRUCTURAL BIOLOGY, 212(2), 107607 [10.1016/j.jsb.2020.107607].";s:4:"data";s:10:"2020-08-26";s:2:"id";s:20:"PUBBLICAZIONE_397854";s:6:"handle";s:11:"2108/254513";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:163:"Phosphatidylserine controls calcium phosphate nucleation and growth on lipid monolayers: A physicochemical understanding of matrix vesicle-driven biomineralization";s:9:"metadata6";s:159:"Cruz, Mae; Ferreira, Cr; Tovani, Cb; de Oliveira, Fa; Bolean, M; Caseli, L; Mebarek, S; Luis Millán, J; Buchet, R; Bottini, M; Ciancaglini, P; Paula Ramos, A";s:9:"metadata7";s:25:"10.1016/j.jsb.2020.107607";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:1;a:14:{s:9:"citazione";s:283:"Veschi, E.a., Bolean, M., Strzelecka-kiliszek, A., Bandorowicz-pikula, J., Pikula, S., Granjon, T., et al. (2020). Localization of annexin A6 in matrix vesicles during physiological mineralization. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 21(4), 1367-1384 [10.3390/ijms21041367].";s:4:"data";s:7:"2020-02";s:2:"id";s:20:"PUBBLICAZIONE_376046";s:6:"handle";s:11:"2108/235340";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:81:"Localization of annexin A6 in matrix vesicles during physiological mineralization";s:9:"metadata6";s:186:"Veschi, Ea; Bolean, M; Strzelecka-kiliszek, A; Bandorowicz-pikula, J; Pikula, S; Granjon, T; Mebarek, S; Magne, D; Ramos, Ap; Rosato, N; Millan, Jl; Buchet, R; Bottini, M; Ciancaglini, P";s:9:"metadata7";s:20:"10.3390/ijms21041367";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:2;a:14:{s:9:"citazione";s:351:"Bolean, M., Izzi, B., van Kerckhoven, S., Bottini, M., Ramos, A., Millan, J., et al. (2020). Matrix vesicle biomimetics harboring Annexin A5 and alkaline phosphatase bind to the native collagen matrix produced by mineralizing vascular smooth muscle cells. BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS, 1864(8), 129629 [10.1016/j.bbagen.2020.129629].";s:4:"data";s:4:"2020";s:2:"id";s:20:"PUBBLICAZIONE_397847";s:6:"handle";s:11:"2108/254507";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:161:"Matrix vesicle biomimetics harboring Annexin A5 and alkaline phosphatase bind to the native collagen matrix produced by mineralizing vascular smooth muscle cells";s:9:"metadata6";s:100:"Bolean, M; Izzi, B; van Kerckhoven, S; Bottini, M; Ramos, A; Millan, J; Hoylaerts, M; Ciancaglini, P";s:9:"metadata7";s:28:"10.1016/j.bbagen.2020.129629";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:3;a:14:{s:9:"citazione";s:289:"Favarin, B., Bolean, M., Ramos, A., Magrini, A., Rosato, N., Millan, J., et al. (2020). Lipid composition modulates ATP hydrolysis and calcium phosphate mineral propagation by TNAP-harboring proteoliposomes. ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS, 691, 108482 [10.1016/j.abb.2020.108482].";s:4:"data";s:4:"2020";s:2:"id";s:20:"PUBBLICAZIONE_397851";s:6:"handle";s:11:"2108/254511";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:118:"Lipid composition modulates ATP hydrolysis and calcium phosphate mineral propagation by TNAP-harboring proteoliposomes";s:9:"metadata6";s:103:"Favarin, B; Bolean, M; Ramos, A; Magrini, A; Rosato, N; Millan, J; Bottini, M; Costa, A; Ciancaglini, P";s:9:"metadata7";s:25:"10.1016/j.abb.2020.108482";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:4;a:14:{s:9:"citazione";s:242:"Tovani, C., Ferreira, C., Simao, A., Bolean, M., Coppeta, L., Rosato, N., et al. (2020). Characterization of the in vitro osteogenic response to submicron TiO(2) particles of varying structure and crystallinity. ACS OMEGA, 5(27), 16491-16501.";s:4:"data";s:4:"2020";s:2:"id";s:20:"PUBBLICAZIONE_397849";s:6:"handle";s:11:"2108/254509";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:121:"Characterization of the in vitro osteogenic response to submicron TiO(2) particles of varying structure and crystallinity";s:9:"metadata6";s:104:"Tovani, C; Ferreira, C; Simao, A; Bolean, M; Coppeta, L; Rosato, N; Bottini, M; Ciancaglini, P; Ramos, A";s:9:"metadata7";s:24:"10.1021/acsomega.0c00900";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:5;a:14:{s:9:"citazione";s:221:"Wu, J., Liang, H., Li, Y., Shi, Y., Bottini, M., Chen, Y., et al. (2020). Cationic block copolymer nanoparticles with tunable DNA affinity for treating rheumatoid arthritis. ADVANCED FUNCTIONAL MATERIALS, 30(27), 2000391.";s:4:"data";s:4:"2020";s:2:"id";s:20:"PUBBLICAZIONE_397834";s:6:"handle";s:11:"2108/254493";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:98:"Cationic block copolymer nanoparticles with tunable DNA affinity for treating rheumatoid arthritis";s:9:"metadata6";s:59:"Wu, J; Liang, H; Li, Y; Shi, Y; Bottini, M; Chen, Y; Liu, L";s:9:"metadata7";s:22:"10.1002/adfm.202000391";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:6;a:14:{s:9:"citazione";s:218:"de Oliveira, F., Narisawa, S., Bottini, M., & Millan, J. (2020). Visualization of mineral-targeted alkaline phosphatase binding to sites of calcification in vivo. JOURNAL OF BONE AND MINERAL RESEARCH, 35(9), 1765-1771.";s:4:"data";s:4:"2020";s:2:"id";s:20:"PUBBLICAZIONE_397838";s:6:"handle";s:11:"2108/254503";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:96:"Visualization of mineral-targeted alkaline phosphatase binding to sites of calcification in vivo";s:9:"metadata6";s:50:"de Oliveira, F; Narisawa, S; Bottini, M; Millan, J";s:9:"metadata7";s:17:"10.1002/jbmr.4038";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:7;a:14:{s:9:"citazione";s:277:"Derradi, R., Bolean, M., Simao, A., Caseli, L., Millan, J.l., Bottini, M., et al. (2019). Cholesterol regulates the incorporation and catalytic activity of tissue-nonspecific alkaline phosphatase in DPPC monolayers. LANGMUIR, 35(47), 15232-15241 [10.1021/acs.langmuir.9b02590].";s:4:"data";s:7:"2019-11";s:2:"id";s:20:"PUBBLICAZIONE_376068";s:6:"handle";s:11:"2108/235355";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:124:"Cholesterol regulates the incorporation and catalytic activity of tissue-nonspecific alkaline phosphatase in DPPC monolayers";s:9:"metadata6";s:95:"Derradi, R; Bolean, M; Simao, Ams; Caseli, L; Millan, Jl; Bottini, M; Ciancaglini, P; Ramos, Ap";s:9:"metadata7";s:28:"10.1021/acs.langmuir.9b02590";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:8;a:14:{s:9:"citazione";s:261:"Liu, L., Hu, F., Wang, H., Wu, X., Eltahan, A.S., Stanford, S., et al. (2019). Secreted protein acidic and rich in cysteine mediated biomimetic delivery of methotrexate by albumin-based nanomedicines for rheumatoid arthritis therapy. ACS NANO, 13(5), 5036-5048.";s:4:"data";s:7:"2019-04";s:2:"id";s:20:"PUBBLICAZIONE_354342";s:6:"handle";s:11:"2108/217024";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:153:"Secreted protein acidic and rich in cysteine mediated biomimetic delivery of methotrexate by albumin-based nanomedicines for rheumatoid arthritis therapy";s:9:"metadata6";s:107:"Liu, L; Hu, F; Wang, H; Wu, X; Eltahan, AS; Stanford, S; Bottini, N; Xiao, H; Bottini, M; Guo, W; Liang, X-";s:9:"metadata7";s:23:"10.1021/acsnano.9b01710";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:9;a:14:{s:9:"citazione";s:249:"Plaut, J.S., Strzelecka-Kiliszek, A., Bozycki, L., Pikula, S., Buchet, R., Mebarek, S., et al. (2019). Quantitative atomic force microscopy provides new insight into matrix vesicle mineralization. ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS, 667, 14-21.";s:4:"data";s:7:"2019-04";s:2:"id";s:20:"PUBBLICAZIONE_354340";s:6:"handle";s:11:"2108/217022";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:92:"Quantitative atomic force microscopy provides new insight into matrix vesicle mineralization";s:9:"metadata6";s:231:"Plaut, JS; Strzelecka-Kiliszek, A; Bozycki, L; Pikula, S; Buchet, R; Mebarek, S; Chadli, M; Bolean, M; Simao, AMS; Ciancaglini, P; Magrini, A; Rosato, N; Magne, D; Girard-Egrot, A; Farquharson, C; Esener, SC; Millan, JL; Bottini, M";s:9:"metadata7";s:25:"10.1016/j.abb.2019.04.003";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:10;a:14:{s:9:"citazione";s:281:"Li, X., Bottini, M., Zhang, L., Zhang, S., Chen, J., Zhang, T., et al. (2019). Core-satellite nanomedicines for in vivo real-time monitoring of enzyme-activatable drug release by fluorescence and photoacoustic dual-modal imaging. ACS NANO, 13(1), 176-186 [10.1021/acsnano.8b05136].";s:4:"data";s:4:"2019";s:2:"id";s:20:"PUBBLICAZIONE_354344";s:6:"handle";s:11:"2108/217026";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:149:"Core-satellite nanomedicines for in vivo real-time monitoring of enzyme-activatable drug release by fluorescence and photoacoustic dual-modal imaging";s:9:"metadata6";s:116:"Li, X; Bottini, M; Zhang, L; Zhang, S; Chen, J; Zhang, T; Liu, L; Rosato, N; Ma, X; Shi, X; Wu, Y; Guo, W; Liang, X-";s:9:"metadata7";s:23:"10.1021/acsnano.8b05136";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:11;a:14:{s:9:"citazione";s:299:"Simao, A., Bolean, M., Favarin, B.Z., Veschi, E.A., Tovani, C.B., Ramos, A.P., et al. (2019). Lipid microenvironment affects the ability of proteoliposomes harboring TNAP to induce mineralization without nucleators. JOURNAL OF BONE AND MINERAL METABOLISM, 37(4), 607-613 [10.1007/s00774-018-0962-8].";s:4:"data";s:4:"2019";s:2:"id";s:20:"PUBBLICAZIONE_354338";s:6:"handle";s:11:"2108/217020";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:120:"Lipid microenvironment affects the ability of proteoliposomes harboring TNAP to induce mineralization without nucleators";s:9:"metadata6";s:120:"Simao, AMS; Bolean, M; Favarin, BZ; Veschi, EA; Tovani, CB; Ramos, AP; Bottini, M; Buchet, R; Millan, JL; Ciancaglini, P";s:9:"metadata7";s:25:"10.1007/s00774-018-0962-8";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:12;a:14:{s:9:"citazione";s:319:"Bhattacharya, K., Sacchetti, C., Costa, P.m., Sommertune, J., Brandner, B.d., Magrini, A., et al. (2018). Nitric oxide dependent degradation of polyethylene glycol-modified single-walled carbon nanotubes: Implications for intra-articular delivery. ADVANCED HEALTHCARE MATERIALS, 7(6), e1700916 [10.1002/adhm.201700916].";s:4:"data";s:4:"2018";s:2:"id";s:20:"PUBBLICAZIONE_354351";s:6:"handle";s:11:"2108/217032";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:140:"Nitric oxide dependent degradation of polyethylene glycol-modified single-walled carbon nanotubes: Implications for intra-articular delivery";s:9:"metadata6";s:127:"Bhattacharya, K; Sacchetti, C; Costa, Pm; Sommertune, J; Brandner, Bd; Magrini, A; Rosato, N; Bottini, N; Bottini, M; Fadeel, B";s:9:"metadata7";s:22:"10.1002/adhm.201700916";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:13;a:14:{s:9:"citazione";s:316:"Bottini, M., Mebarek, S., Anderson, K.L., Strzelecka-Kiliszek, A., Bozycki, L., Simao, A., et al. (2018). Matrix vesicles from chondrocytes and osteoblasts: Their biogenesis, properties, functions and biomimetic models. BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS, 1862(3), 532-546 [10.1016/j.bbagen.2017.11.005].";s:4:"data";s:4:"2018";s:2:"id";s:20:"PUBBLICAZIONE_354353";s:6:"handle";s:11:"2108/217034";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:112:"Matrix vesicles from chondrocytes and osteoblasts: Their biogenesis, properties, functions and biomimetic models";s:9:"metadata6";s:191:"Bottini, M; Mebarek, S; Anderson, KL; Strzelecka-Kiliszek, A; Bozycki, L; Simao, AMS; Bolean, M; Ciancaglini, P; Pikula, JB; Pikula, S; Magne, D; Volkmann, N; Hanein, D; Millan, JL; Buchet, R";s:9:"metadata7";s:28:"10.1016/j.bbagen.2017.11.005";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:14;a:14:{s:9:"citazione";s:290:"Chen, J., Liu, L., Motevalli, S.m., Wu, X., Yang, X.-., Li, X., et al. (2018). Light-triggered retention and cascaded therapy of albumin-based theranostic nanomedicines to alleviate tumor adaptive treatment tolerance. ADVANCED FUNCTIONAL MATERIALS, 28(17), 1707291 [10.1002/adfm.201707291].";s:4:"data";s:4:"2018";s:2:"id";s:20:"PUBBLICAZIONE_354359";s:6:"handle";s:11:"2108/217040";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:137:"Light-triggered retention and cascaded therapy of albumin-based theranostic nanomedicines to alleviate tumor adaptive treatment tolerance";s:9:"metadata6";s:115:"Chen, J; Liu, L; Motevalli, Sm; Wu, X; Yang, X-; Li, X; Han, L; Magrini, A; Guo, W; Chang, J; Bottini, M; Liang, X-";s:9:"metadata7";s:22:"10.1002/adfm.201707291";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:15;a:14:{s:9:"citazione";s:262:"Eltahan, A.S., Liu, L., Okeke, C.I., Huang, M., Han, L., Chen, J., et al. (2018). NVP-BEZ235/Chlorin-e6 co-loaded nanoparticles ablate breast cancer by biochemical and photodynamic synergistic effects. NANO RESEARCH, 11(9), 4846-4858 [10.1007/s12274-018-2074-0].";s:4:"data";s:4:"2018";s:2:"id";s:20:"PUBBLICAZIONE_354357";s:6:"handle";s:11:"2108/217038";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:118:"NVP-BEZ235/Chlorin-e6 co-loaded nanoparticles ablate breast cancer by biochemical and photodynamic synergistic effects";s:9:"metadata6";s:96:"Eltahan, AS; Liu, L; Okeke, CI; Huang, M; Han, L; Chen, J; Xue, X; Bottini, M; Guo, W; Liang, X-";s:9:"metadata7";s:25:"10.1007/s12274-018-2074-0";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:16;a:14:{s:9:"citazione";s:334:"Guo, W., Chen, J., Liu, L., Eltahan, A.s., Rosato, N., Yu, J., et al. (2018). Laser-induced transformable BiS@HSA/DTX multiple nanorods for photoacoustic/computed tomography dual-modal imaging guided photothermal/chemo combinatorial anticancer therapy. ACS APPLIED MATERIALS & INTERFACES, 10(48), 41167-41177 [10.1021/acsami.8b16395].";s:4:"data";s:4:"2018";s:2:"id";s:20:"PUBBLICAZIONE_354346";s:6:"handle";s:11:"2108/217028";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:173:"Laser-induced transformable BiS@HSA/DTX multiple nanorods for photoacoustic/computed tomography dual-modal imaging guided photothermal/chemo combinatorial anticancer therapy";s:9:"metadata6";s:95:"Guo, W; Chen, J; Liu, L; Eltahan, As; Rosato, N; Yu, J; Wang, D; Chen, J; Bottini, M; Liang, X-";s:9:"metadata7";s:22:"10.1021/acsami.8b16395";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:17;a:14:{s:9:"citazione";s:239:"Mukherjee, S.P., Bondarenko, O., Kohonen, P., Andon, F.T., Brzicova, T., Gessner, I., et al. (2018). Macrophage sensing of single-walled carbon nanotubes via Toll-like receptors. SCIENTIFIC REPORTS, 8(1), 1115 [10.1038/s41598-018-19521-9].";s:4:"data";s:4:"2018";s:2:"id";s:20:"PUBBLICAZIONE_334373";s:6:"handle";s:11:"2108/201086";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:76:"Macrophage sensing of single-walled carbon nanotubes via Toll-like receptors";s:9:"metadata6";s:203:"Mukherjee, SP; Bondarenko, O; Kohonen, P; Andon, FT; Brzicova, T; Gessner, I; Mathur, S; Bottini, M; Calligari, P; Stella, L; Kisin, E; Shvedova, A; Autio, R; Salminen-Mankonen, H; Lahesmaa, R; Fadeel, B";s:9:"metadata7";s:26:"10.1038/s41598-018-19521-9";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:18;a:14:{s:9:"citazione";s:282:"Zhang, T., Huang, Y., Ma, X., Gong, N., Liu, X., Liu, L., et al. (2018). Fluorinated oligoethylenimine nanoassemblies for efficient siRNA-mediated gene silencing in serum-containing media by effective endosomal escape. NANO LETTERS, 18(10), 6301-6311 [10.1021/acs.nanolett.8b02553].";s:4:"data";s:4:"2018";s:2:"id";s:20:"PUBBLICAZIONE_354348";s:6:"handle";s:11:"2108/217030";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:144:"Fluorinated oligoethylenimine nanoassemblies for efficient siRNA-mediated gene silencing in serum-containing media by effective endosomal escape";s:9:"metadata6";s:144:"Zhang, T; Huang, Y; Ma, X; Gong, N; Liu, X; Liu, L; Ye, X; Hu, B; Li, C; Tian, J-; Magrini, A; Zhang, J; Guo, W; Xing, J-; Bottini, M; Liang, X-";s:9:"metadata7";s:28:"10.1021/acs.nanolett.8b02553";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:19;a:14:{s:9:"citazione";s:310:"Bolean, M., Borin, I.A., Simao, A., Bottini, M., Bagatolli, L.A., Hoylaerts, M.F., et al. (2017). Topographic analysis by atomic force microscopy of proteoliposomes matrix vesicle mimetics harboring TNAP and AnxA5. BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANES, 1859(10), 1911-1920 [10.1016/j.bbamem.2017.05.010].";s:4:"data";s:4:"2017";s:2:"id";s:20:"PUBBLICAZIONE_354361";s:6:"handle";s:11:"2108/217042";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:115:"Topographic analysis by atomic force microscopy of proteoliposomes matrix vesicle mimetics harboring TNAP and AnxA5";s:9:"metadata6";s:102:"Bolean, M; Borin, IA; Simao, AMS; Bottini, M; Bagatolli, LA; Hoylaerts, MF; Millan, JL; Ciancaglini, P";s:9:"metadata7";s:28:"10.1016/j.bbamem.2017.05.010";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:20;a:14:{s:9:"citazione";s:204:"Bolean, M., Simao, A., Barioni, M.B., Favarin, B.Z., Sebinelli, H.G., Veschi, E.A., et al. (2017). Biophysical aspects of biomineralization. BIOPHYSICAL REVIEWS, 9(5), 747-760 [10.1007/s12551-017-0315-1].";s:4:"data";s:4:"2017";s:2:"id";s:20:"PUBBLICAZIONE_354367";s:6:"handle";s:11:"2108/217048";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:40:"Biophysical aspects of biomineralization";s:9:"metadata6";s:150:"Bolean, M; Simao, AMS; Barioni, MB; Favarin, BZ; Sebinelli, HG; Veschi, EA; Janku, TAB; Bottini, M; Hoylaerts, MF; Itri, R; Millan, JL; Ciancaglini, P";s:9:"metadata7";s:25:"10.1007/s12551-017-0315-1";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:21;a:14:{s:9:"citazione";s:177:"Mukherjee, S.P., Bottini, M., & Fadeel, B. (2017). Graphene and the immune system: A romance of many dimensions. FRONTIERS IN IMMUNOLOGY, 8(JUN), 673 [10.3389/fimmu.2017.00673].";s:4:"data";s:4:"2017";s:2:"id";s:20:"PUBBLICAZIONE_354369";s:6:"handle";s:11:"2108/217050";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:60:"Graphene and the immune system: A romance of many dimensions";s:9:"metadata6";s:36:"Mukherjee, SP; Bottini, M; Fadeel, B";s:9:"metadata7";s:24:"10.3389/fimmu.2017.00673";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:22;a:14:{s:9:"citazione";s:285:"Palmieri, G., Rinaldi, A., Campagnolo, L., Tortora, M., Caso, M.f., Mattei, M., et al. (2017). Hyaluronic acid nanoporous microparticles with long in vivo joint residence time and sustained release. PARTICLE & PARTICLE SYSTEMS CHARACTERIZATION, 34(6), 1600411 [10.1002/ppsc.201600411].";s:4:"data";s:4:"2017";s:2:"id";s:20:"PUBBLICAZIONE_327046";s:6:"handle";s:11:"2108/194755";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:102:"Hyaluronic acid nanoporous microparticles with long in vivo joint residence time and sustained release";s:9:"metadata6";s:125:"Palmieri, G; Rinaldi, A; Campagnolo, L; Tortora, M; Caso, Mf; Mattei, M; Notargiacomo, A; Rosato, N; Bottini, M; Cavalieri, F";s:9:"metadata7";s:22:"10.1002/ppsc.201600411";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:23;a:14:{s:9:"citazione";s:248:"Bhattacharya, K., Mukherjee, S., Gallud, A., Burkert, S., Bistarelli, S., Bellucci, S., et al. (2016). Biological interactions of carbon-based nanomaterials: From coronation to degradation. NANOMEDICINE, 12(2), 333-351 [10.1016/j.nano.2015.11.011].";s:4:"data";s:4:"2016";s:2:"id";s:20:"PUBBLICAZIONE_303152";s:6:"handle";s:11:"2108/217138";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:85:"Biological interactions of carbon-based nanomaterials: From coronation to degradation";s:9:"metadata6";s:112:"Bhattacharya, K; Mukherjee, S; Gallud, A; Burkert, S; Bistarelli, S; Bellucci, S; Bottini, M; Star, A; Fadeel, B";s:9:"metadata7";s:26:"10.1016/j.nano.2015.11.011";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:24;a:14:{s:9:"citazione";s:190:"Bottini, M., & Foldvari, M. (2016). Targeted nanosystems as therapeutic and diagnostic tools: The beautiful voyage of nanomedicine. NANOMEDICINE, 12(2), 253-254 [10.1016/j.nano.2015.12.358].";s:4:"data";s:4:"2016";s:2:"id";s:20:"PUBBLICAZIONE_303154";s:6:"handle";s:11:"2108/217134";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:94:"Targeted nanosystems as therapeutic and diagnostic tools: The beautiful voyage of nanomedicine";s:9:"metadata6";s:23:"Bottini, M; Foldvari, M";s:9:"metadata7";s:26:"10.1016/j.nano.2015.12.358";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:25;a:14:{s:9:"citazione";s:178:"Bottini, M., Magrini, A., Fadeel, B., & Rosato, N. (2016). Tackling chondrocyte hypertrophy with multifunctional nanoparticles. GENE THERAPY, 23(7), 560-564 [10.1038/gt.2016.33].";s:4:"data";s:4:"2016";s:2:"id";s:20:"PUBBLICAZIONE_303158";s:6:"handle";s:11:"2108/217125";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:67:"Tackling chondrocyte hypertrophy with multifunctional nanoparticles";s:9:"metadata6";s:44:"Bottini, M; Magrini, A; Fadeel, B; Rosato, N";s:9:"metadata7";s:18:"10.1038/gt.2016.33";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:26;a:14:{s:9:"citazione";s:258:"Chaudhary, S., Kuzynski, M., Bottini, M., Beniash, E., Dokland, T., Mobley, C., et al. (2016). Phosphate induces formation of matrix vesicles during odontoblast-initiated mineralization in vitro. MATRIX BIOLOGY, 52-54, 284-300 [10.1016/j.matbio.2016.02.003].";s:4:"data";s:4:"2016";s:2:"id";s:20:"PUBBLICAZIONE_303157";s:6:"handle";s:11:"2108/217129";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:99:"Phosphate induces formation of matrix vesicles during odontoblast-initiated mineralization in vitro";s:9:"metadata6";s:134:"Chaudhary, S; Kuzynski, M; Bottini, M; Beniash, E; Dokland, T; Mobley, C; Yadav, M; Poliard, A; Kellermann, O; Millan, J; Napierala, D";s:9:"metadata7";s:28:"10.1016/j.matbio.2016.02.003";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:27;a:14:{s:9:"citazione";s:310:"Yadav, M., Bottini, M., Cory, E., Bhattacharya, K., Kuss, P., Narisawa, S., et al. (2016). Skeletal mineralization deficits and impaired biogenesis and function of chondrocyte-derived matrix vesicles in Phospho1-/- and Phospho1/Pit1 double-knockout mice. JOURNAL OF BONE AND MINERAL RESEARCH, 31(6), 1275-1286.";s:4:"data";s:4:"2016";s:2:"id";s:20:"PUBBLICAZIONE_303156";s:6:"handle";s:11:"2108/217132";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:162:"Skeletal mineralization deficits and impaired biogenesis and function of chondrocyte-derived matrix vesicles in Phospho1-/- and Phospho1/Pit1 double-knockout mice";s:9:"metadata6";s:123:"Yadav, M; Bottini, M; Cory, E; Bhattacharya, K; Kuss, P; Narisawa, S; Sah, R; Beck, L; Fadeel, B; Farquharson, C; Millan, J";s:9:"metadata7";s:17:"10.1002/jbmr.2790";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:28;a:14:{s:9:"citazione";s:265:"Stanford, S.M., Aleman Muench, G.R., Bartok, B., Sacchetti, C., Kiosses, W.B., Sharma, J., et al. (2014). TGFβ responsive tyrosine phosphatase promotes rheumatoid synovial fibroblast invasiveness. ANNALS OF THE RHEUMATIC DISEASES [10.1136/annrheumdis-2014-205790].";s:4:"data";s:10:"2014-11-06";s:2:"id";s:20:"PUBBLICAZIONE_231926";s:6:"handle";s:11:"2108/113716";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:90:"TGFβ responsive tyrosine phosphatase promotes rheumatoid synovial fibroblast invasiveness";s:9:"metadata6";s:156:"Stanford, SM; Aleman Muench, GR; Bartok, B; Sacchetti, C; Kiosses, WB; Sharma, J; Maestre, MF; Bottini, M; Mustelin, T; Boyle, DL; Firestein, GS; Bottini, N";s:9:"metadata7";s:31:"10.1136/annrheumdis-2014-205790";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:29;a:14:{s:9:"citazione";s:221:"Bottini, M., Sacchetti, C., Pietroiusti, A., Bellucci, S., Magrini, A., Rosato, N., et al. (2014). Targeted nanodrugs for cancer therapy: prospects and challenges. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 14(1), 98-114.";s:4:"data";s:7:"2014-01";s:2:"id";s:20:"PUBBLICAZIONE_176606";s:6:"handle";s:10:"2108/85667";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:63:"Targeted nanodrugs for cancer therapy: prospects and challenges";s:9:"metadata6";s:88:"Bottini, M; Sacchetti, C; Pietroiusti, A; Bellucci, S; Magrini, A; Rosato, N; Bottini, N";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:30;a:14:{s:9:"citazione";s:225:"Bhattacharya, K., Sacchetti, C., El-Sayed, R., Fornara, A., Kotchey, G.P., Gaugler, J.A., et al. (2014). Enzymatic 'stripping' and degradation of PEGylated carbon nanotubes. NANOSCALE, 6(24), 14686-14690 [10.1039/c4nr03604b].";s:4:"data";s:4:"2014";s:2:"id";s:20:"PUBBLICAZIONE_231924";s:6:"handle";s:11:"2108/113714";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:67:"Enzymatic 'stripping' and degradation of PEGylated carbon nanotubes";s:9:"metadata6";s:112:"Bhattacharya, K; Sacchetti, C; El-Sayed, R; Fornara, A; Kotchey, GP; Gaugler, JA; Star, A; Bottini, M; Fadeel, B";s:9:"metadata7";s:18:"10.1039/c4nr03604b";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:31;a:14:{s:9:"citazione";s:244:"Kuzynski, M., Goss, M., Bottini, M., Yadav, M.C., Mobley, C., Winters, T., et al. (2014). Dual role of the TRPS1 transcription factor in dentin mineralization. THE JOURNAL OF BIOLOGICAL CHEMISTRY, 289(40), 27481-27493 [10.1074/jbc.M114.550129].";s:4:"data";s:4:"2014";s:2:"id";s:20:"PUBBLICAZIONE_231915";s:6:"handle";s:11:"2108/113708";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:68:"Dual role of the TRPS1 transcription factor in dentin mineralization";s:9:"metadata6";s:127:"Kuzynski, M; Goss, M; Bottini, M; Yadav, MC; Mobley, C; Winters, T; Poliard, A; Kellermann, O; Lee, B; Millan, JL; Napierala, D";s:9:"metadata7";s:23:"10.1074/jbc.M114.550129";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:32;a:14:{s:9:"citazione";s:245:"Sacchetti, C., Liu-Bryan, R., Magrini, A., Rosato, N., Bottini, N., & Bottini, M. (2014). Polyethylene-glycol-modified single-walled carbon nanotubes for intra-Articular delivery to chondrocytes. ACS NANO, 8(12), 12280-12291 [10.1021/nn504537b].";s:4:"data";s:4:"2014";s:2:"id";s:20:"PUBBLICAZIONE_231943";s:6:"handle";s:11:"2108/113727";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:104:"Polyethylene-glycol-modified single-walled carbon nanotubes for intra-Articular delivery to chondrocytes";s:9:"metadata6";s:73:"Sacchetti, C; Liu-Bryan, R; Magrini, A; Rosato, N; Bottini, N; Bottini, M";s:9:"metadata7";s:17:"10.1021/nn504537b";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:33;a:14:{s:9:"citazione";s:265:"Campagnolo, L., Massimiani, M., Palmieri, G., Bernardini, R., Sacchetti, C., Bergamaschi, A., et al. (2013). Biodistribution and toxicity of pegylated single wall carbon nanotubes in pregnant mice. PARTICLE AND FIBRE TOXICOLOGY, 10(1), 21 [10.1186/1743-8977-10-21].";s:4:"data";s:10:"2013-06-06";s:2:"id";s:20:"PUBBLICAZIONE_161859";s:6:"handle";s:10:"2108/79768";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/17";s:9:"metadata4";N;s:9:"metadata5";s:88:"Biodistribution and toxicity of pegylated single wall carbon nanotubes in pregnant mice.";s:9:"metadata6";s:140:"Campagnolo, L; Massimiani, M; Palmieri, G; Bernardini, R; Sacchetti, C; Bergamaschi, A; Vecchione, L; Magrini, A; Bottini, M; Pietroiusti, A";s:9:"metadata7";s:23:"10.1186/1743-8977-10-21";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:34;a:14:{s:9:"citazione";s:316:"Sacchetti, C., Motamedchaboki, K., Magrini, A., Palmieri, G., Mattei, M., Bernardini, S., et al. (2013). Surface polyethylene glycol conformation influences the protein corona of polyethylene glycol-modified single-walled carbon nanotubes: potential implications on biological performance. ACS NANO, 7(3), 1974-1989.";s:4:"data";s:10:"2013-03-26";s:2:"id";s:20:"PUBBLICAZIONE_160963";s:6:"handle";s:10:"2108/78871";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:183:"Surface polyethylene glycol conformation influences the protein corona of polyethylene glycol-modified single-walled carbon nanotubes: potential implications on biological performance";s:9:"metadata6";s:117:"Sacchetti, C; Motamedchaboki, K; Magrini, A; Palmieri, G; Mattei, M; Bernardini, S; Rosato, N; Bottini, N; Bottini, M";s:9:"metadata7";s:17:"10.1021/nn400409h";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:35;a:14:{s:9:"citazione";s:255:"Sacchetti, C., Rapini, N., Magrini, A., Cirelli, E., Bellucci, S., Mattei, M., et al. (2013). In vivo targeting of intratumor regulatory T cells using PEG-modified single-walled carbon nanotubes. BIOCONJUGATE CHEMISTRY, 24(6), 852-858 [10.1021/bc400070q].";s:4:"data";s:4:"2013";s:2:"id";s:20:"PUBBLICAZIONE_162968";s:6:"handle";s:10:"2108/79292";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:100:"In vivo targeting of intratumor regulatory T cells using PEG-modified single-walled carbon nanotubes";s:9:"metadata6";s:106:"Sacchetti, C; Rapini, N; Magrini, A; Cirelli, E; Bellucci, S; Mattei, M; Rosato, N; Bottini, N; Bottini, M";s:9:"metadata7";s:17:"10.1021/bc400070q";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:36;a:14:{s:9:"citazione";s:122:"Bottini, M., & Bottini, N. (2012). Modified carbon nanotubes: from nanomedicine to nanotoxicology, 8462, 84620T-84620T-11.";s:4:"data";s:4:"2012";s:2:"id";s:20:"PUBBLICAZIONE_162970";s:6:"handle";s:10:"2108/78351";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:62:"Modified carbon nanotubes: from nanomedicine to nanotoxicology";s:9:"metadata6";s:22:"Bottini, M; Bottini, N";s:9:"metadata7";s:17:"10.1117/12.931232";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:37;a:14:{s:9:"citazione";s:246:"Rapini, N., Bottini, N., & Bottini, M. (2012). Nanocarriers of antisense oligonucleotides in diabetes. In L. Lan-Anh, R.J. Hunter, & V.R. Preedy (a cura di), Nanotechnology and nanomedicine in diabetes (pp. 59-78). Science Publishers - CRC Press.";s:4:"data";s:4:"2012";s:2:"id";s:20:"PUBBLICAZIONE_145024";s:6:"handle";s:10:"2108/70788";s:9:"metadata1";s:19:"Contributo in libro";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:54:"Nanocarriers of antisense oligonucleotides in diabetes";s:9:"metadata6";s:33:"Rapini, N; Bottini, N; Bottini, M";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:38;a:14:{s:9:"citazione";s:167:"Bottini, M., Rosato, N., & Bottini, N. (2011). PEG-modified carbon nanotubes in biomedicine: current status and challenges ahead. BIOMACROMOLECULES, 12(10), 3381-3393.";s:4:"data";s:10:"2011-10-10";s:2:"id";s:19:"PUBBLICAZIONE_79623";s:6:"handle";s:10:"2108/51576";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:81:"PEG-modified carbon nanotubes in biomedicine: current status and challenges ahead";s:9:"metadata6";s:33:"Bottini, M; Rosato, N; Bottini, N";s:9:"metadata7";s:17:"10.1021/bm201020h";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:39;a:14:{s:9:"citazione";s:251:"Bottini, M., Dawson Marcia, I., & Mustelin, T. (2011). Carbon nanotube-based inorganic supramolecular nanoassemblies. In H.S. Nalwa (a cura di), Encyclopedia of nanoscience and nanotechnology (pp. 153-177). Stevenson Ranch : American Scientific Publ..";s:4:"data";s:4:"2011";s:2:"id";s:20:"PUBBLICAZIONE_145064";s:6:"handle";s:10:"2108/70750";s:9:"metadata1";s:19:"Contributo in libro";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:61:"Carbon nanotube-based inorganic supramolecular nanoassemblies";s:9:"metadata6";s:41:"Bottini, M; Dawson Marcia, I; Mustelin, T";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:40;a:14:{s:9:"citazione";s:207:"Bottini, M., Rosato, N., Gloria, F., Adanti, S., Corradino, N., Bergamaschi, A., et al. (2011). Public optimism towards nanomedicine. INTERNATIONAL JOURNAL OF NANOMEDICINE, 6, 3473-3485 [10.2147/IJN.S26340].";s:4:"data";s:4:"2011";s:2:"id";s:20:"PUBBLICAZIONE_132757";s:6:"handle";s:10:"2108/66140";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:36:"Public optimism towards nanomedicine";s:9:"metadata6";s:85:"Bottini, M; Rosato, N; Gloria, F; Adanti, S; Corradino, N; Bergamaschi, A; Magrini, A";s:9:"metadata7";s:18:"10.2147/IJN.S26340";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:41;a:14:{s:9:"citazione";s:241:"Delogu, L.G., Stanford, S.M., Santelli, E., Magrini, A., Bergamaschi, A., Motamedchaboki, K., et al. (2010). Carbon nanotube-based nanocarriers: the importance of keeping it clean. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 10(8), 5293-5301.";s:4:"data";s:7:"2010-08";s:2:"id";s:19:"PUBBLICAZIONE_47932";s:6:"handle";s:10:"2108/40279";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:70:"Carbon nanotube-based nanocarriers: the importance of keeping it clean";s:9:"metadata6";s:132:"Delogu, LG; Stanford, SM; Santelli, E; Magrini, A; Bergamaschi, A; Motamedchaboki, K; Rosato, N; Mustelin, T; Bottini, N; Bottini, M";s:9:"metadata7";s:21:"10.1166/jnn.2010.3083";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:42;a:14:{s:9:"citazione";s:261:"Delogu, L., Magrini, A., Bergamaschi, A., Rosato, N., Dawson, M., Bottini, N., et al. (2009). Conjugation of antisense oligonucleotides to PEGylated carbon nanotubes enables efficient knockdown of PTPN22 in T lymphocytes. BIOCONJUGATE CHEMISTRY, 20(3), 427-431.";s:4:"data";s:10:"2009-03-18";s:2:"id";s:20:"PUBBLICAZIONE_136498";s:6:"handle";s:10:"2108/66772";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:126:"Conjugation of antisense oligonucleotides to PEGylated carbon nanotubes enables efficient knockdown of PTPN22 in T lymphocytes";s:9:"metadata6";s:83:"Delogu, L; Magrini, A; Bergamaschi, A; Rosato, N; Dawson, M; Bottini, N; Bottini, M";s:9:"metadata7";s:17:"10.1021/bc800540j";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:43;a:14:{s:9:"citazione";s:193:"Wu, S., Bottini, M., Rickert, R., Mustelin, T., & Tautz, L. (2009). In silico screening for PTPN22 inhibitors: active hits from an inactive phosphatase conformation. CHEMMEDCHEM, 4(3), 440-444.";s:4:"data";s:7:"2009-03";s:2:"id";s:19:"PUBBLICAZIONE_79616";s:6:"handle";s:10:"2108/47253";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:96:"In silico screening for PTPN22 inhibitors: active hits from an inactive phosphatase conformation";s:9:"metadata6";s:52:"Wu, S; Bottini, M; Rickert, R; Mustelin, T; Tautz, L";s:9:"metadata7";s:22:"10.1002/cmdc.200800375";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:44;a:14:{s:9:"citazione";s:251:"Cato, M., D'Annibale, F., Mills, D., Cerignoli, F., Dawson, M., Bergamaschi, E., et al. (2008). Cell-type specific and cytoplasmic targeting of PEGylated carbon nanotube-based nanoassemblies. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 8(5), 2259-2269.";s:4:"data";s:7:"2008-05";s:2:"id";s:20:"PUBBLICAZIONE_134916";s:6:"handle";s:10:"2108/66529";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:94:"Cell-type specific and cytoplasmic targeting of PEGylated carbon nanotube-based nanoassemblies";s:9:"metadata6";s:161:"Cato, M; D'Annibale, F; Mills, D; Cerignoli, F; Dawson, M; Bergamaschi, E; Bottini, N; Magrini, A; Bergamaschi, A; Rosato, N; Rickert, R; Mustelin, T; Bottini, M";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:45;a:14:{s:9:"citazione";s:206:"Bottini, M., Dawson, M.I., & Mustelin, T. (2008). Carbon nanotube-based inorganic composites. In Chemistry of carbon nanotubes (pp. 25-34). Stevenson Ranch, California : Vladimir A. Basiuk, Elena V. Basiuk.";s:4:"data";s:4:"2008";s:2:"id";s:20:"PUBBLICAZIONE_145104";s:6:"handle";s:10:"2108/70787";s:9:"metadata1";s:19:"Contributo in libro";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:42:"Carbon nanotube-based inorganic composites";s:9:"metadata6";s:35:"Bottini, M; Dawson, MI; Mustelin, T";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:46;a:14:{s:9:"citazione";s:122:"Bottini, M., & Mustelin, T. (2007). Carbon materials: Nanosynthesis by candlelight. NATURE NANOTECHNOLOGY, 2(10), 599-600.";s:4:"data";s:7:"2007-10";s:2:"id";s:19:"PUBBLICAZIONE_79611";s:6:"handle";s:10:"2108/45137";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:46:"Carbon materials: Nanosynthesis by candlelight";s:9:"metadata6";s:23:"Bottini, M; Mustelin, T";s:9:"metadata7";s:22:"10.1038/nnano.2007.316";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:47;a:14:{s:9:"citazione";s:269:"Shiryaev, S., Remacle, A., Ratnikov, B., Nelson, N., Savinov, A., Wei, G., et al. (2007). Targeting host cell furin proprotein convertases as a therapeutic strategy against bacterial toxins and viral pathogens. THE JOURNAL OF BIOLOGICAL CHEMISTRY, 282(29), 20847-20853.";s:4:"data";s:10:"2007-07-20";s:2:"id";s:19:"PUBBLICAZIONE_79615";s:6:"handle";s:10:"2108/45138";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:119:"Targeting host cell furin proprotein convertases as a therapeutic strategy against bacterial toxins and viral pathogens";s:9:"metadata6";s:229:"Shiryaev, S; Remacle, A; Ratnikov, B; Nelson, N; Savinov, A; Wei, G; Bottini, M; Rega, M; Parent, A; Desjardins, R; Fugere, M; Day, R; Sabet, M; Pellecchia, M; Liddington, R; Smith, J; Mustelin, T; Guiney, D; Lebl, M; Strongin, A";s:9:"metadata7";s:22:"10.1074/jbc.M703847200";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:48;a:14:{s:9:"citazione";s:275:"Bottini, M., Cerignoli, F., Mills, D., D'Annibale, F., Leone, M., Rosato, N., et al. (2007). Luminescent silica nanobeads: characterization and evaluation as efficient cytoplasmatic transporters for T-lymphocytes. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 129(25), 7814-7823.";s:4:"data";s:10:"2007-06-27";s:2:"id";s:19:"PUBBLICAZIONE_79617";s:6:"handle";s:10:"2108/45131";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:119:"Luminescent silica nanobeads: characterization and evaluation as efficient cytoplasmatic transporters for T-lymphocytes";s:9:"metadata6";s:126:"Bottini, M; Cerignoli, F; Mills, D; D'Annibale, F; Leone, M; Rosato, N; Magrini, A; Pellecchia, M; Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:17:"10.1021/ja070245c";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:49;a:14:{s:9:"citazione";s:209:"Bellucci, S., Bergamaschi, A., Bottini, M., Magrini, A., & Mustelin, T. (2007). Biomedical platforms based on composite nanomaterials and cellular toxicity. JOURNAL OF PHYSICS. CONFERENCE SERIES, 61(1), 95-98.";s:4:"data";s:4:"2007";s:2:"id";s:18:"PUBBLICAZIONE_4119";s:6:"handle";s:10:"2108/45332";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:75:"Biomedical platforms based on composite nanomaterials and cellular toxicity";s:9:"metadata6";s:64:"Bellucci, S; Bergamaschi, A; Bottini, M; Magrini, A; Mustelin, T";s:9:"metadata7";s:26:"10.1088/1742-6596/61/1/020";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:50;a:14:{s:9:"citazione";s:231:"Bottini, M., D'Annibale, F., Magrini, A., Cerignoli, F., Arimura, Y., Dawson, M., et al. (2007). Quantum dot-doped silica nanoparticles as probes for targeting of T-lymphocytes. INTERNATIONAL JOURNAL OF NANOMEDICINE, 2(2), 227-233.";s:4:"data";s:4:"2007";s:2:"id";s:19:"PUBBLICAZIONE_79613";s:6:"handle";s:10:"2108/45140";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:79:"Quantum dot-doped silica nanoparticles as probes for targeting of T-lymphocytes";s:9:"metadata6";s:130:"Bottini, M; D'Annibale, F; Magrini, A; Cerignoli, F; Arimura, Y; Dawson, M; Bergamaschi, E; Rosato, N; Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:31:"http://dx.doi.org/10.2147/IJN.S";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:51;a:14:{s:9:"citazione";s:183:"Bottini, M., Magrini, A., Dawson, M., Rosato, N., Bergamaschi, A., & Mustelin, T. (2007). Noncovalently silylated carbon nanotubes decorated with quantum dots. CARBON, 45(3), 673-676.";s:4:"data";s:4:"2007";s:2:"id";s:18:"PUBBLICAZIONE_3384";s:6:"handle";s:10:"2108/45333";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:68:"Noncovalently silylated carbon nanotubes decorated with quantum dots";s:9:"metadata6";s:75:"Bottini, M; Magrini, A; Dawson, M.I; Rosato, N; Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:28:"10.1016/j.carbon.2006.11.027";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:52;a:14:{s:9:"citazione";s:273:"Bottini, M., Cerignoli, F., Tautz, L., Rosato, N., Bergamaschi, A., & Mustelin, T. (2006). Adsorption of streptavidin onto single-walled carbon nanotubes: application in fluorescent supramolecular nanoassemblies. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 6(12), 3693-3698.";s:4:"data";s:7:"2006-12";s:2:"id";s:19:"PUBBLICAZIONE_79607";s:6:"handle";s:10:"2108/43386";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:120:"Adsorption of streptavidin onto single-walled carbon nanotubes: application in fluorescent supramolecular nanoassemblies";s:9:"metadata6";s:74:"Bottini, M; Cerignoli, F; Tautz, L; Rosato, N; Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:20:"10.1166/jnn.2006.627";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:53;a:14:{s:9:"citazione";s:298:"Bergamaschi, E., Bussolati, O., Magrini, A., Bottini, M., Migliore, L., Bellucci, S., et al. (2006). Nanomaterials and lung toxicity: interactions with airways cells and relevance for occupational health risk assessment. INTERNATIONAL JOURNAL OF IMMUNOPATHOLOGY AND PHARMACOLOGY, 19(4 Suppl), 3-10.";s:4:"data";s:7:"2006-10";s:2:"id";s:20:"PUBBLICAZIONE_134902";s:6:"handle";s:10:"2108/66638";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:118:"Nanomaterials and lung toxicity: interactions with airways cells and relevance for occupational health risk assessment";s:9:"metadata6";s:107:"Bergamaschi, E; Bussolati, O; Magrini, A; Bottini, M; Migliore, L; Bellucci, S; Iavicoli, I; Bergamaschi, A";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:54;a:14:{s:9:"citazione";s:271:"Bottini, M., Cerignoli, F., Dawson, M., Magrini, A., Rosato, N., & Mustelin, T. (2006). Full-length single-walled carbon nanotubes decorated with streptavidin-conjugated quantum dots as multivalent intracellular fluorescent nanoprobes. BIOMACROMOLECULES, 7(8), 2259-2263.";s:4:"data";s:7:"2006-08";s:2:"id";s:19:"PUBBLICAZIONE_79614";s:6:"handle";s:10:"2108/43412";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:146:"Full-length single-walled carbon nanotubes decorated with streptavidin-conjugated quantum dots as multivalent intracellular fluorescent nanoprobes";s:9:"metadata6";s:71:"Bottini, M; Cerignoli, F; Dawson, M; Magrini, A; Rosato, N; Mustelin, T";s:9:"metadata7";s:17:"10.1021/bm0602031";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:55;a:14:{s:9:"citazione";s:336:"Bottini, M., Magrini, A., Rosato, N., Bergamaschi, A., & Mustelin, T. (2006). Dispersion of pristine single-walled carbon nanotubes in water by a thiolated organosilane: application in supramolecular nanoassemblies. JOURNAL OF PHYSICAL CHEMISTRY. B, CONDENSED MATTER, MATERIALS, SURFACES, INTERFACES & BIOPHYSICAL, 110(28), 13685-13688.";s:4:"data";s:10:"2006-07-20";s:2:"id";s:19:"PUBBLICAZIONE_79619";s:6:"handle";s:10:"2108/43389";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:136:"Dispersion of pristine single-walled carbon nanotubes in water by a thiolated organosilane: application in supramolecular nanoassemblies";s:9:"metadata6";s:62:"Bottini, M; Magrini, A; Rosato, N; Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:17:"10.1021/jp062668r";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:56;a:14:{s:9:"citazione";s:273:"Bottini, M., Magrini, A., Di Venere, A., Bellucci, S., Dawson, M., Rosato, N., et al. (2006). Synthesis and characterization of supramolecular nanostructures of carbon nanotubes and ruthenium-complex Luminophores. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 6(5), 1381-1386.";s:4:"data";s:7:"2006-05";s:2:"id";s:19:"PUBBLICAZIONE_79606";s:6:"handle";s:10:"2108/43417";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:118:"Synthesis and characterization of supramolecular nanostructures of carbon nanotubes and ruthenium-complex Luminophores";s:9:"metadata6";s:100:"Bottini, M; Magrini, A; Di Venere, A; Bellucci, S; Dawson, M; Rosato, N; Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:19:"10.1166/jnn2006.164";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:57;a:14:{s:9:"citazione";s:356:"Bottini, M., Balasubramanian, C., Dawson, M., Bergamaschi, A., Bellucci, S., & Mustelin, T. (2006). Isolation and characterization of fluorescent nanoparticles from pristine and oxidized electric arc-produced single-walled carbon nanotubes. JOURNAL OF PHYSICAL CHEMISTRY. B, CONDENSED MATTER, MATERIALS, SURFACES, INTERFACES & BIOPHYSICAL, 110(2), 831-836.";s:4:"data";s:10:"2006-01-19";s:2:"id";s:19:"PUBBLICAZIONE_79609";s:6:"handle";s:10:"2108/43414";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:139:"Isolation and characterization of fluorescent nanoparticles from pristine and oxidized electric arc-produced single-walled carbon nanotubes";s:9:"metadata6";s:83:"Bottini, M; Balasubramanian, C; Dawson, M; Bergamaschi, A; Bellucci, S; Mustelin, T";s:9:"metadata7";s:17:"10.1021/jp055503b";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:58;a:14:{s:9:"citazione";s:189:"Bottini, M., Bruckner, S., Nika, K., Bottini, N., Bellucci, S., Magrini, A., et al. (2006). Multi-walled carbon nanotubes induce T lymphocyte apoptosis. TOXICOLOGY LETTERS, 160(2), 121-126.";s:4:"data";s:10:"2006-01-05";s:2:"id";s:19:"PUBBLICAZIONE_79608";s:6:"handle";s:10:"2108/43415";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:59:"Multi-walled carbon nanotubes induce T lymphocyte apoptosis";s:9:"metadata6";s:98:"Bottini, M; Bruckner, S; Nika, K; Bottini, N; Bellucci, S; Magrini, A; Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:28:"10.1016/j.toxlet.2005.06.020";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:59;a:14:{s:9:"citazione";s:356:"Bellucci, S., Balasubramanian, C., Bergamaschi, A., Bottini, M., Magrini, A., & Mustelin, T. (2006). Biomedical applications of carbon nanotubes find the related cellular toxicity. In Technical Proceedings of the 2006 Nsti Nanotechnology Conference and Trade Show, Volume 2 Format: Perfect Bind (pp.217-220). The Nano Science & Technology Institute (NSTI).";s:4:"data";s:4:"2006";s:2:"id";s:18:"PUBBLICAZIONE_3106";s:6:"handle";s:10:"2108/43469";s:9:"metadata1";s:21:"Intervento a convegno";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:78:"Biomedical applications of carbon nanotubes find the related cellular toxicity";s:9:"metadata6";s:84:"Bellucci, S; Balasubramanian, C; Bergamaschi, A; Bottini, M; Magrini, A; Mustelin, T";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:60;a:14:{s:9:"citazione";s:220:"Bottini, M., Brukner, S., Mustelin, T., Bottini, N., Magrini, A., & Bergamaschi, B. (2006). Single wall carbon nanotubes induce cell apoptosis. In XXVIII International congress on occupational health (ICOH) (pp.245-246).";s:4:"data";s:4:"2006";s:2:"id";s:20:"PUBBLICAZIONE_140466";s:6:"handle";s:10:"2108/68445";s:9:"metadata1";s:21:"Intervento a convegno";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:50:"Single wall carbon nanotubes induce cell apoptosis";s:9:"metadata6";s:75:"Bottini, M; Brukner, S; Mustelin, T; Bottini, N; Magrini, A; Bergamaschi, B";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:61;a:14:{s:9:"citazione";s:266:"Bottini, M., Magrini, A., Bergamaschi, E., Coppeta, L., Somma, G., Pietroiusti, A., et al. (2006). Streptavidin abdsorption on single wall nanotube: Realization of fluorescent nanostructures. GIORNALE ITALIANO DI MEDICINA DEL LAVORO ED ERGONOMIA, 28((Suppl 3)), 127.";s:4:"data";s:4:"2006";s:2:"id";s:20:"PUBBLICAZIONE_141332";s:6:"handle";s:10:"2108/68751";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:91:"Streptavidin abdsorption on single wall nanotube: Realization of fluorescent nanostructures";s:9:"metadata6";s:93:"Bottini, M; Magrini, A; Bergamaschi, E; Coppeta, L; Somma, G; Pietroiusti, A; Bergamaschi, A.";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:62;a:14:{s:9:"citazione";s:228:"Bottini, M., Magrini, A., Dawson, M.I., Bergamaschi, A., & Mustelin, T. (2006). Non-destructive decoration of full-length multi-walled carbon nanotubes with variable amounts of silica gel nanoparticles. CARBON, 44(7), 1301-1303.";s:4:"data";s:4:"2006";s:2:"id";s:19:"PUBBLICAZIONE_15271";s:6:"handle";s:10:"2108/43421";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:121:"Non-destructive decoration of full-length multi-walled carbon nanotubes with variable amounts of silica gel nanoparticles";s:9:"metadata6";s:62:"Bottini, M; Magrini, A; Dawson, MI;Bergamaschi, A; Mustelin, T";s:9:"metadata7";s:29:"10.1016/j.carbon..2006.01.003";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:63;a:14:{s:9:"citazione";s:204:"Bottini, M., Tautz, L., Huynh, H., Monosov, E., Bottini, N., Dawson, M., et al. (2005). Covalent decoration of multi-walled carbon nanotubes with silica nanoparticles. CHEMICAL COMMUNICATIONS(6), 758-760.";s:4:"data";s:10:"2005-02-14";s:2:"id";s:19:"PUBBLICAZIONE_79621";s:6:"handle";s:10:"2108/42109";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:78:"Covalent decoration of multi-walled carbon nanotubes with silica nanoparticles";s:9:"metadata6";s:91:"Bottini, M; Tautz, L; Huynh, H; Monosov, E; Bottini, N; Dawson, M; Bellucci, S; Mustelin, T";s:9:"metadata7";s:16:"10.1039/b412876a";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:64;a:14:{s:9:"citazione";s:199:"Bottini, M., & Gloria-Bottini, F. (2004). Seasonal variation of genotype-specific fertility and adaptation to endemic diseases: a study in past malarial areas of Italy. HUMAN BIOLOGY, 76(6), 837-848.";s:4:"data";s:7:"2004-12";s:2:"id";s:19:"PUBBLICAZIONE_79622";s:6:"handle";s:10:"2108/40645";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:125:"Seasonal variation of genotype-specific fertility and adaptation to endemic diseases: a study in past malarial areas of Italy";s:9:"metadata6";s:29:"Bottini, M; Gloria-Bottini, F";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:65;a:14:{s:9:"citazione";s:306:"Bottini, M., Brukner, S., Bottini, N., Mustelin, T., Bellucci, S., Tombolini, F., et al. (2004). Short single wall carbon nanotubes induce cell apoptosis: a preliminary study. In Dagli amianti alle nanoparticelle: dall'esperienza del passato la chiave la chiave per risolvere i problemi del futuro (pp.54).";s:4:"data";s:7:"2004-06";s:2:"id";s:20:"PUBBLICAZIONE_140461";s:6:"handle";s:10:"2108/68437";s:9:"metadata1";s:21:"Intervento a convegno";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:77:"Short single wall carbon nanotubes induce cell apoptosis: a preliminary study";s:9:"metadata6";s:102:"Bottini, M; Brukner, S; Bottini, N; Mustelin, T; Bellucci, S; Tombolini, F; Magrini, A; Bergamaschi, A";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:66;a:14:{s:9:"citazione";s:274:"Bottini, M., Brukner, S., Nika, K., Bottini, N., Mustelin, T., Bellucci, S., et al. (2004). Carbon nanotubes induce cell apoptosis: a preliminary study. In Dagli amianti alle nanoparticelle: dall'esperienza del passato la chiave per risolvere i problemi del futuro (pp.53).";s:4:"data";s:7:"2004-06";s:2:"id";s:20:"PUBBLICAZIONE_140456";s:6:"handle";s:10:"2108/68434";s:9:"metadata1";s:21:"Intervento a convegno";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:59:"Carbon nanotubes induce cell apoptosis: a preliminary study";s:9:"metadata6";s:91:"Bottini, M;Brukner, S; Nika, K; Bottini, N; Mustelin, T; Bellucci, S; Magrini, A; Bottini,M";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:67;a:14:{s:9:"citazione";s:288:"Ghibelli, L., De Nicola, M., Bottini, M., Magrini, A., & Bergamaschi, A. (2004). Intracellular targeting of nanotubes and effect on intracellular parameters. In Dagli amianti alle nanoparticelle: dall'esperienza del passato la chiave la chiave per risolvere i problemi del futuro (pp.55).";s:4:"data";s:7:"2004-06";s:2:"id";s:20:"PUBBLICAZIONE_140459";s:6:"handle";s:10:"2108/68436";s:9:"metadata1";s:21:"Intervento a convegno";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:75:"Intracellular targeting of nanotubes and effect on intracellular parameters";s:9:"metadata6";s:65:"Ghibelli, L; De Nicola, M; Bottini, M; Magrini, A; Bergamaschi, A";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:68;a:14:{s:9:"citazione";s:198:"Bottini, M., Di Venere, A., Lugli, P., & Rosato, N. (2004). Conformation and stability of myoglobin in dilute and crowded organically modified media. JOURNAL OF NON-CRYSTALLINE SOLIDS, 343, 101-108.";s:4:"data";s:4:"2004";s:2:"id";s:18:"PUBBLICAZIONE_2491";s:6:"handle";s:10:"2108/40678";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:88:"Conformation and stability of myoglobin in dilute and crowded organically modified media";s:9:"metadata6";s:45:"Bottini, M; Di Venere, A; Lugli, P; Rosato, N";s:9:"metadata7";s:32:"10.1016/j.jnoncrysol.2004.08.061";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:69;a:14:{s:9:"citazione";s:238:"Bottini, M., Di Venere, A., Tautz, L., Desideri, A., Lugli, P., Avigliano, L., et al. (2004). Structural Stability of Azurin Encapsulated in Sol-Gel Glasses: A Fluorometric Study. JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY, 30(3), 205-214.";s:4:"data";s:4:"2004";s:2:"id";s:19:"PUBBLICAZIONE_82337";s:6:"handle";s:10:"2108/26648";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:84:"Structural Stability of Azurin Encapsulated in Sol-Gel Glasses: A Fluorometric Study";s:9:"metadata6";s:82:"Bottini, M; Di Venere, A; Tautz, L; Desideri, A; Lugli, P; Avigliano, L; Rosato, N";s:9:"metadata7";s:34:"10.1023/B:JSST.0000039527.88843.18";s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:70;a:14:{s:9:"citazione";s:207:"Bottini, M., Magrini, A., & Bergamaschi, A. (2003). Environmental and occupational impact carbon nanotubes. Paper presented at EuroNanoForum 2003 - European and International Forum on Nanotchnology, trieste.";s:4:"data";s:4:"2003";s:2:"id";s:20:"PUBBLICAZIONE_140455";s:6:"handle";s:10:"2108/68433";s:9:"metadata1";s:21:"Intervento a convegno";s:9:"metadata2";N;s:9:"metadata3";s:36:"Settore MED/44 - Medicina del Lavoro";s:9:"metadata4";N;s:9:"metadata5";s:54:"Environmental and occupational impact carbon nanotubes";s:9:"metadata6";s:38:"Bottini, M; Magrini, A; Bergamaschi, A";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}i:71;a:14:{s:9:"citazione";s:325:"Bottini, M., Magrini, A., Bottini, N., & Bergamaschi, A. (2003). Nanotubes and fullerenes: An overview of the possible environmental and biological impact of bio-nanotechnologies [Nanotubi e fullereni: Attuali vedute sul possibile impatto ambientale e biologico delle bio-nanotecnologie]. MEDICINA DEL LAVORO, 94(6), 497-505.";s:4:"data";s:4:"2003";s:2:"id";s:18:"PUBBLICAZIONE_1322";s:6:"handle";s:10:"2108/50323";s:9:"metadata1";s:19:"Articolo su rivista";s:9:"metadata2";N;s:9:"metadata3";s:14:"Settore BIO/10";s:9:"metadata4";N;s:9:"metadata5";s:222:"Nanotubes and fullerenes: An overview of the possible environmental and biological impact of bio-nanotechnologies [Nanotubi e fullereni: Attuali vedute sul possibile impatto ambientale e biologico delle bio-nanotecnologie]";s:9:"metadata6";s:50:"Bottini, M; Magrini, A; Bottini, N; Bergamaschi, A";s:9:"metadata7";N;s:9:"metadata8";N;s:9:"metadata9";N;s:10:"metadata10";N;}}" } ["meta_keywords"]=> array(1) { [0]=> string(1) "," } ["reserved"]=> array(1) { [0]=> string(1) "0" } ["auth_ip"]=> array(1) { [0]=> string(1) "0" } } ["_fieldBoosts":protected]=> array(6) { ["content_id"]=> bool(false) ["content_title"]=> bool(false) ["description"]=> bool(false) ["meta_keywords"]=> bool(false) ["reserved"]=> bool(false) ["auth_ip"]=> bool(false) } } }