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Available online at www.sciencedirect.com science @poinecrs J foal and Ma iiatarias ELSEVIER Journal of Magnetism and Magnetic Materials 293 (2005) 947-956 www.elsevier.com/locate/jmmm Author index to volume 293 Acar, H.Y.c., R.S. Garaas, F. Syud, P. Bonitatebus and Babincova, M., see Babinec, P. 394 A.M. Kulkarni, Superparamagnetic nanoparticles Babinec, P., M. Babincova, P. Sourivong and D. stabilized by polymerized PEGylated coatings Leszczynska, Efficient treatment of pigmented B16 Ahn, J.-P., see Woo, K. 177 melanoma using photosensitized long-circulating Aksnes, E., see Fonnum, G. magnetofullerenosomes 394 Alexiou, C., R. Jurgons, R. Schmid, A. Hilpert, C. Babinec, P., see Babincova, M. 341 Bergemann, F. Parak and H. Iro, In vitro and in vivo Badescu, V., see Rotariu, O. 589 investigations of targeted chemotherapy with mag- Bae, S.-Y., see Wang, S.X. 731 netic nanoparticles 389 Bagelova, J., see Koneracka, M. 271 Ally, J., B. Martin, M.B. Khamesee, W. Roa and A. Bahadur, D., see Ambashta, R.D. 8 Amirfazli, Magnetic targeting of aerosol particles for Bahadur, D., see Giri, J. 55 cancer therapy 442 Bahadur, D., see Giri, J. 62 Ambashta, R.D., S.M. Yusuf, M.D. Mukadam, S. Bahaj, A.S., see Marius, M.S. 567 Singh, P.K. Wattal and D. Bahadur, Physical and Bakuzis, A.F., see Castro, L.L. 553 chemical properties of nanoscale magnetite-based Bao, X., see Xu, H. 514 solvent extractant Bao, Y. and K.M. Krishnan, Preparation of functiona- Amirfazli, A., see Ally, J. lized and gold-coated cobalt nanocrystals for bio- Ananou, B., A. Baronnet, Y. Ksari, J. Marfaing, S. medical applications 15 Regnier, P. Rochette, A. Sulpice and A. Stepanov, Barbee, K.A., see Yellen, B.B. 647 Magnetic properties of marine tertiary tephra Barbosa, L.S., see Guedes, M.H.A. 283 investigated over a wide temperature range Baronnet, A., see Ananou, B. 816 Ando, T., see Hirota, N. Barthelmess, M., see Pels, C. 885 Anker, J.N., C.J. Behrend, H. Huang and R. Kopelman, Bautista, M.C., O. Bomati-Miguel, M. del Puerto Magnetically-modulated optical nanoprobes (Mag- Morales, C.J. Serna and S. Veintemillas-Verdaguer, MOONS) and systems Surface characterisation of dextran-coated iron Anker, J.N., see Behrend, C.J. oxide nanoparticles prepared by laser pyrolysis and Anker, J.N., see McNaughton, B.H. coprecipitation 20 Anker, J.N., see Roberts, T.G. Beaugnon, E., see Hirota, N. 87 Ao, L.-M., see Gao, F. Behrend, C.J., J.N. Anker, B.H. McNaughton and R. Ao, L.-M., see Pan, B.-F. Kopelman, Microrheology with modulated optical Argherie, D., see Sincai, M. nanoprobes (MOONs) 663 Asthana, S., see Giri, J. Behrend, C.J., see Anker, J.N. 655 Athey, P., see Winter, P. Bellare, J., see Giri, J. 62 Aviles, M.O., A.D. Ebner, H. Chen, A.J. Rosengart, Benes, M., see Korecka, L. 349 M.D. Kaminski and J.A. Ritter, Theoretical analysis Bergemann, C., see Alexiou, C. 389 of a transdermal ferromagnetic implant for retention Bergemann, C., see Schillinger, U. 501 of magnetic drug carrier particles Berling, D., see Stephan, R. 746 Azevedo, R.B., see Eloi, M.T.A. Bettge, M., see Chatterjee, J. 303 Azevedo, R.B., see Garcia, M.P. Beznosov, A., see Fertman, E. 787 Azevedo, R.B., see Guedes, M.H.A. Bhojani, M.S., see Kopelman, R. 404 Bhushan, B., see Hansen, W.S. 826 Babincova, M. and P. Babinec, Dopamine mediated iron Bica, D., see Sincai, M. 438 release from ferritin is enhanced at higher tempera- Bilkova, Z., see Korecka, L. 349 tures: Possible implications for fever-induced Par- Biskupek, J.. U. Kaiser, H. Lichte, A. Lenk, T. kinson’s disease 341 Gemming, G. Pasold and W. Witthuhn, TEM- doi: 10.1016/S0304-8853(05)00492-0 948 Author index to volume 293 characterization of magnetic samarium- and cobalt- Chaudhuri, B.K., see Pal, S. 872 rich-nanocrystals formed in hexagonal SiC Chaves, S.B., see Garcia, M.P. 277 Bohmer, V., see Griittner, C. Chen, C.J., see Chatterjee, J. 303 Bolmont, D., see Stephan, R. Chen, H., A.D. Ebner, M.D. Kaminski, A.J. Rosengart Bolte, M., see Pels, C. and J.A. Ritter, Analysis of magnetic drug carrier Bomati-Miguel, O., see Bautista, M.C. particle capture by a magnetizable intravascular Bonfim, M., see Fukumoto, K. stent—2: parametric study with multi-wire two- Bonitatebus, P., see Acar, H.Y.c. dimensional model Borm, P., see Miiller-Schulte, D. Chen, H., see Aviles, M.O. Bose, E., see Pal, S. Chen, H., see Rosengart, A.J. Brill, T., see Schillinger, U. Chen, Y.Y., see Pal, S. Bruce, I.J., see del Campo, A. Chenevert, T.L., see Kopelman, R. Brusentsov, N.A., T.N. Brusentsova, E.Yu. Filinova, Chiriac, H., A.-E. Moga, G. lacob and O.C. Mungiu, V.D. Kuznetsov, L.I. Shumakov and N.Y. Jurchen- Amorphous magnetic microspheres for biomedical ko, Magnetic fluid thermochemotherapy of murine applications tumors 450 Chiriac, H., M. Tibu, A.-E. Moga and D.D. Herea, Brusentsov, N.A., see Brusentsova, T.N. 298 Magnetic GMI sensor for detection of biomolecules Brusentsova, T.N., N.A. Brusentsov, V.D. Kuznetsov Chorny, M., see Yellen, B.B. and V.N. Nikiforov, Synthesis and investigation of Clement, J.H., see Schwalbe, M. magnetic properties of Gd-substituted Mn—Zn ferrite Coelho, J.P., see Guedes, M.H.A. nanoparticles as a potential low-7, agent for Coldea, M., see Eniu, D. magnetic fluid hyperthermia Coroiu, I. and V. Cristea, Proton NMR relaxivity of Brusentsova, T.N., see Brusentsov, N.A. blood samples in the presence of iron, gadolinium Bruus, H., see Mikkelsen, C. and dysprosium compounds Bruus, H., see Smistrup, K. Cristea, V., see Coroiu, I. Bubendorff, J.L., see Stephan, R. Buck, S.M., see Kopelman, R. da Silva, L.P., see Garcia, M.P. Buske, N., see Moller, W. da Silva, M.F., see Castro, L.L. Buske, N., see Schwalbe, M. Dailey, J.P.. see Vadala, M.L. Buznikov, N.A., 1.T. lakubov, A.L. Rakhmanov and Dakhlaoui, H. and S. Jaziri, Theoretical study of A.O. Sboychakov, High-frequency magnetic perme- magnetoresistance under electric field in III-V ability of nanocomposite film diluted magnetic semiconductor De Cuyper, M., see Morais, P.C. Cacaina, D., see Eniu, D. de Fatima Da Silva, M., see Guedes, M.H.A. Camarero, J., see Fukumoto, K. del Campo, A., T. Sen, J.-P. Lellouche and I.J. Bruce, Carpino, F., L.R. Moore, M. Zborowski, J.J. Chalmers Multifunctional magnetite and silica-magnetite na- and P.S. Williams, Analysis of magnetic nanoparti- noparticles: Synthesis, surface activation and appli- cles using quadrupole magnetic field-flow fractiona- cations in life sciences tion del Puerto Morales, M., see Bautista, M.C. Casnati, A., see Griittner, C. del Puerto Morales, M., see Gutiérrez, L. Cassell, G.H., see Shang, H. Delair, T., see Veyret, R. 171 Castro, L.L., M.F. da Silva, A.F. Bakuzis and R. Desnenko, V., see Fertman, E. 787 Miotto, Aggregate formation on polydisperse ferro- Ding, T.. W. Zheng, J. Zang, H. Tian, B. Zheng, fluids: a Monte Carlo analysis X. Wang, S. Yu and Y. Wang, Electron spin Caviness, P.L., see Rosengart, A.J. resonance analysis of magnetic structures in Chalmers, J.J., see Carpino, F. La, ;Ca,; ;MnO, 782 Chan, H.L.W., see Ren, W.J. Dozol, J.-F., see Griittner, C. 559 Chastellain, M., see Schépf, B. Du, Y., see Tang, J. 903 Chastellain, M., see Schulze, K. Dudchenko, A., see Mykhaylyk, O. 473 Chatterjee, J.. M. Bettge, Y. Haik and C.J. Chen, Dudchenko, N., see Mykhaylyk, O. 464 Synthesis and characterization of polymer encapsu- Dudchenko, N., see Mykhaylyk, O. 473 lated Cu-Ni magnetic nanoparticles for hyperther- Duguet, E., see Mornet, S. 127 mia applications 303 Chaudhuri, A., N.M. Wereley, S. Kotha, R. Radhak- Eberbeck, D., see Moras, K. 119 rishnan and T.S. Sudarshan, Viscometric character- Eberbeck, D., see Ludwig, F. 690 ization of cobalt nanoparticle-based Ebner, A.D., see Avilés, M.O. 605 magnetorheological fluids using genetic algorithms 206 Ebner, A.D., see Chen, H. 616 Author index to volume 293 949 Ebner, A.D., see Rosengart, A.J. 633 Ganga, M., see Sincai, M. 438 Ehresmann, A., see Engel, D. 849 Gao, F., B.-F. Pan, W.-M. Zheng, L.-M. Ao and Ejsing, L., M.F. Hansen, A.K. Menon, H.A. Ferreira, H.-C. Gu, Study of streptavidin coated onto D.L. Graham and P.P. Freitas, Magnetic microbead PAMAM dendrimer modified magnetite nano- detection using the planar Hall effect 677 particles Ekiz, C., Ferrimagnetism in the mixed spin Ising system Gao, F., see Zheng, W. on a two-fold Cayley tree 759 Gao, F., see Pan, B.-F. Ekiz, C., Mixed spin-} and spin-3 Ising system in a Garaas, R.S., see Acar, H.Y.c. longitudinal magnetic field 913 Garcia, M.P., R.M. Parca, S.B. Chaves, L.P. da Silva, Elaissari, A., see Veyret, R. 171 A.D. Santos, Z.G.M. Lacava, P.C. Morais and R.B. Eloi, M.T.A., R.B. Azevedo, E.C.D. Lima, A.C.M. Azevedo, Morphological analysis of mouse lungs Pimenta and P.C. Morais, Zero-field birefringence of after treatment with magnetite-based magnetic fluid biocompatible magnetic fluids: a concentration stabilized with DMSA dependence investigation 220 Garreau, G., see Stephan, R. Engel, D., A. Ehresmann, J. Schmalhorst, M. Sacher, V. Gemming, T., see Biskupek, J. H6oink and G. Reiss, Initialization of unidirectional Gersting, S., see Schillinger, U. anisotropy in a ferromagnet—antiferromagnet bilayer Gewinner, G., see Stephan, R. by keV-He ion bombardment 849 Gillis, P., see Roch, A. Engelmann, S., A. Nethe and T.S.H.-D. Stahlmann, Giri, J..S.G. Thakurta, J. Bellare, A.K umar Nigam and Concept of a new type of electric machines using D. Bahadur, Preparation and characterization of ferrofluids 685 phospholipid stabilized uniform sized magnetite Eniu, D., D. Cacaina, M. Coldea, M. Valeanu and S. nanoparticles Simon, Structural and magnetic properties of CaO- Giri, J.. T. Sriharsha, S. Asthana, T.K.G. Rao, A.K. P,O;-SiO>-FesO; glass-ceramics for hyperthermia Nigam and D. Bahadur, Synthesis of capped Ennen, I., see Hiitten, A. nanosized Mn, _ ,Zn,FesO, (0<x<0.8) by micro- Ennen, I., see Sudfeld, D. wave refluxing for bio-medical applications Espy, J.M., see Hai, N.H. Golla-Schindler, U., see Sudfeld, D. Gonzales, M. and K.M. Krishnan, Synthesis of magne- Fan, C., see Zhang, G. toliposomes with monodisperse iron oxide nanocrys- Farzetdinova, R.M., see Meilikhov, E.Z. tal cores for hyperthermia Felten, K., see Moller, W. Gornert, P., see Richert, H. Ferreira, H.A., see Ejsing, L. Gossuin, Y., see Roch, A. Fertman, E., D. Sheptyakov, A. Beznosov, V. Desnenko Graham, D.L., see Ejsing, L. and D. Khalyavin, Magnetic states and the crystal Granger, M., see Pekas, N. volume of Nd, Ca; ;MnO;: analysis of phase Grief, A.D. and G.W. Richardson, Mathematical transformations modelling of magnetically targeted drug delivery Filinova, E.Y., see Brusentsov, N.A. Griittner, C., V. BOhmer, A. Casnati, J.-F. Dozol, D.N. Finck, M.R., see Mertz, C.J. Reinhoudt, M.M. Reinoso-Garcia, $. Rudershausen, Fonnum, G., C. Johansson, A. Molteberg, S. Morup J. Teller, R. Ungaro, W. Verboom and P. Wang, and E. Aksnes, Characterisation of Dynabeads" by Dendrimer-coated magnetic particles for radionu- magnetization measurements and Méssbauer spec- clide separation 559 troscopy Gu, H., see Zheng, W. 199 Fontaine, A., see Fukumoto, K. Gu, H., see Wang, X. 334 Forbes, Z.G., see Yellen, B.B. Gu, H.-C., see Gao, F. 48 Frank, K., see Winter, P. Gu, Y., see Zhang, G. 737 Freitas, P.P., see Ejsing, L. Guan, Y., see Liu, X. 111 Fridman, G., see Yellen, B.B. Guan, Y., see Yang, C. 187 Friedman, G., see Yellen, B.B. Guedes, M.H.A., N. Sadeghiani, D.L.G. Peixoto, J.P. Fuhrhop, R., see Winter, P. Coelho, L.S. Barbosa, R.B. Azevedo, S. Kiickelhaus, Fukumoto, K., W. Kuch, J. Vogel, J. Camarero, S. M. de Fatima Da Silva, P.C. Morais and Z.G.M. Pizzini, F. Offi, Y. Pennec, M. Bonfim, A. Fontaine Lacava, Effects of AC magnetic field and carbox- and J. Kirschner, Mobility of domain wall motion in ymethyldextran-coated magnetite nanoparticles on the permalloy layer of a spin-valve-like Fes )Nigo/Cu mice peritoneal cells 283 Co trilayer 863 Gulyas, G., see Winter, P. 540 Fulks, D.B., see Vadala, M.L. 162 Gutiérrez, L., M. del Puerto Morales and F.J. Lazaro, Magnetostructural study of iron sucrose 69 438 Ganga, D., see Sincai, M. Guy, S., see Mertz, C.J. 572 950 Author index to volume 293 Hafeli, U.O., M.A. Lobedann, J. Steingroewer, L.R. Hu, L., see Xu, H. Moore and J. Riffle, Optical method for measure- Huang, H., see Anker, J.N. ment of magnetophoretic mobility of individual Hubka, T., see Safarikova, M. magnetic microspheres in defined magnetic field 224 Huth, S., see Schillinger, U. Hai, N.H., R. Lemoine, S. Remboldt, M. Strand, J.E. Hiitten, A., D. Sudfeld, I. Ennen, G. Reiss, K. Shield, D. Schmitter, R.H. Kraus, J.M. Espy and Wojczykowski and P. Jutzi, Ferromagnetic FeCo D.L. Leslie-Pelecky, Iron and Cobalt-based magnetic nanoparticles for biotechnology fluids produced by inert gas condensation Hiitten, A., see Sudfeld, D. Haik, Y., see Chatterjee, J. Hajjar, S., see Stephan, R. lacob, G., see Chiriac, H. Hall, D.E., see Kopelman, R. lakubovy, I.T., see Buznikov, N.A. Halverson, D.S., see Yellen, B.B. Ikezoe, Y., see Hirota, N. Hansen, M.F., see Mikkelsen, C. Im, K.-H., see Park, J.-H. Hansen, M.F., see Smistrup, K. Iro, H., see Alexiou, C. Hansen, M.F., see Ejsing, L. Hansen, O., see Smistrup, K. Jaksch, H., see Sudfeld, D. Hansen, W.S. and B. Bhushan, Effects of operating James, P.A.B., see Marius, M.S. speed and tension and sources of lateral tape motion Jander, A., see Tondra, M. in a linear tape drive Jaziri, S., see Dakhlaoui, H. Hara, S., see Hirota, N. Jezova, J., see Korecka, L. He, Y.-Q., see Li, Z. Jiang, X.D., see Tang, X.L. Heim, E., see Ludwig, F. Johansson, C., see Fonnum, G. Heinrich, J., see Richert, H. Jorke, C., see Schwalbe, M. Herea, D.D., see Chiriac, H. Jozefezak, A., Acoustic properties of PEG biocompa- Hergt, R., R. Hiergeist, M. Zeisberger, D. Schiiler, U. tible magnetic fluid under perpendicular magnetic Heyen, I. Hilger and W.A. Kaiser, Magnetic proper- field ties of bacterial magnetosomes as potential diagnos- Jurchenko, N.Y., see Brusentsov, N.A. tic and therapeutic tools Jurgons, R., see Alexiou, C. Hergt, R., see Hilger, I. Jutzi, P., see Hiitten, A. Heyder, J., see MOller, W. Jutzi, P., see Sudfeld, D. Heyen, U., see Hergt, R. Hiergeist, R., see Hergt, R. Kaiser, U., see Biskupek, J. Hilger, I., R. Hergt and W.A. Kaiser, Towards breast Kaiser, W.A., see Hergt, R. cancer treatment by magnetic heating Kaiser, W.A., see Hilger, I. Hilger, I., see Hergt, R. Kaminski, M.D. and A.J. Rosengart, Detoxification of Hilpert, A., see Alexiou, C. blood using injectable magnetic nanospheres: A Hirota, N., T. Takayama, E. Beaugnon, Y. Saito, T. conceptual technology description Ando, H. Nakamura, S. Hara, Y. Ikezoe, H. Wada Kaminski, M.D., see Mertz, C.J. and K. Kitazawa, Control of structures of feeble Kaminski, M.D., see Avilés, M.O. magnetic particles by utilizing induced magnetic Kaminski, M.D., see Chen, H. dipoles 87 Kaminski, M.D., see Rosengart, A.J. Hirschberger, J., see Schillinger, U. 501 Kawamura, K., see Nemoto, I. Hoffken, K., see Schwalbe, M. 433 Kemp, J.T., see Wang, S.X. Hofmann, H., see Schdpf, B. 411 Khalyavin, D., see Fertman, E. Hofmann, H., see Schulze, K. 419 Khamesee, M.B., see Ally, J. Hofmann, H., see Neuberger, T. 483 Kibrikova, I., see Safarikova, M. Hofmann, M., see Schdpf, B. 411 Kiefer, G., see Winter, P. Hofmann, M., see Schulze, K. 419 Kilic, M.A., see Simsek, E. Hofmann, M., see Neuberger, T. 483 Kim, D.-H., S.-H. Lee, K.-N. Kim, K.-M. Kim, L-B. Hoink, V., see Engel, D. 849 Shim and Y.-K. Lee, Cytotoxicity of ferrite particles Holschuh, K. and A. Schwaimmle, Preparative purifica- by MTT and agar diffusion methods for hyperther- tion of antibodies with protein A an alternative to mic application 287 conventional chromatography 345 Kim, D.-H., S.-H. Lee, K.-N. Kim, K.-M. Kim, L-B. Hong, J., see Woo, K. 177 Shim and Y.-K. Lee, Temperature change of various Horak, D., see Korecka, L. 349 ferrite particles with alternating magnetic field for Hradcova, O., see Korecka, L. 349 hyperthermic application 320 Hu, B.-P., see Li, Z. 754 Kim, D.-H., see Park, J.-H. 328 Author index to volume 293 951] Kim, E.H., see Lee, H.S. 102 Lacava, Z.G.M., see Macaroff, P.P. 293 Kim, K.-M., see Kim, D.-H. 287 Lahderanta, E., see Laiho, R. 892 Kim, K.-M., see Kim, D.-H. 320 Laiho, R., K.G. Lisunov, E. Lahderanta, V.S. Zakhva- Kim, K.-M., see Park, J.-H. 328 linskii, V.L. Kozhevnikov, I1.A. Leonidov, E.B. Kim, K.-N., see Kim, D.-H. 287 Mitberg and M.V. Patrakeev, Influence of the phase Kim, K.-N., see Kim, D.-H. 320 separation effect on low-field magnetic properties of Kim, K.-N., see Park, J.-H. 328 La,_,.Ba,.MnO, 892 Kinoshita, T., S. Seino, Y. Mizukoshi, Y. Otome, T. Lanza, G., see Winter, P. 540 Nakagawa, K. Okitsu and T.A. Yamamoto, Mag- Lazaro, F.J., see Gutiérrez, L. 69 netic separation of amino acids by gold/iron-oxide Lee, C.E., see Oh, D.K. 880 composite nanoparticles synthesized by gamma-ray Lee, D.-Y., see Park, J.-H. 328 irradiation 106 Lee, G.U., see Shang, H. 382 Kinoshita, T., see Seino, S. 144 Lee, H.S., E.H. Kim, H. Shao and B.K. Kwak, Synthesis Kirkham, P.M., see Shang, H. 382 of SPIO-chitosan microspheres for MRI-detectable Kirschner, J., see Fukumoto, K. 863 embolotherapy 102 Kitazawa, K., see Hirota, N. 87 Lee, J.-H., see Oh, D.K. 880 Koch, A., see Schulze, K. 419 Lee, S.-H., see Kim, D.-H. 287 Komarek, K., see Safarikova, M. 377 Lee, S.-H., see Kim, D.-H. 320 Koneracka, M., P. Kopéansky, P. Sosa, J. Bagelova and Lee, S.-H., see Park, J.-H. 328 M. Timko, Interliposomal transfer of crystal violet Lee, Y.-K., see Kim, D.-H. 287 dye from DPPC liposomes to magnetoliposomes 271 Lee, Y.-K., see Kim, D.-H. 320 Koo, Y.-E.L., see Kopelman, R. 404 Lee, Y.-K., see Park, J.-H. 328 Kopéansky, P., see Koneracka, M. 271 Lellouche, J.-P., see del Campo, A. 33 Kopelman, R., M. Philbert, Y.-E.L. Koo, B.A. Moffat, Lemoine, R., see Hai, N.H. 75 G.R. Reddy, P. McConville, D.E. Hall, T-.L. Lenk, A., see Biskupek, J. 924 Chenevert, M.S. Bhojani, S.M. Buck, A. Rehemtulla Leonidov, I.A., see Laiho, R. 892 and B.D. Ross, Multifunctional nanoparticle plat- Leslie-Pelecky, D.L., see Hai, N.H. 75 forms for in vivo MRI enhancement and photo- Leszczynska, D., see Babinec, P. 394 dynamic therapy of a rat brain cancer Levy, R., see Yellen, B.B. 647 Kopelman, R., see Anker, J.N. Li, C.-H., see Li, Z. 754 Kopelman, R., see Behrend, C.J. Li, G., see Wang, S.X. 731 Kopelman, R., see McNaughton, B.H. Li, J., see Xia, Z. 182 Kopelman, R., see Roberts, T.G. Li, W., see Zhou, X. 854 Korecka, L., J. Jezova, Z. Bilkova, M. Benes, D. Horak, Li, Z., Y.-Q. He, C.-H. Li, B.-P. Hu and Z.-X. Wang, A O. Hradcova, M. Slovakova and J.-L. Viovy, study on the congregation of Nd-rich phases on the Magnetic enzyme reactors for isolation and study surfaces of sintered Nd—Fe-B magnet 754 of heterogeneous glycoproteins Lichte, H., see Biskupek, J. 924 Kotha, S., see Chaudhuri, A. Lima, E.C.D., see Eloi, M.T.A. 220 Kotzuruba, A., see Mykhaylyk, O. Lima, E.C.D., see Macaroff, P.P. 293 Koyama, K., see Tsutaoka, T. Lisunov, K.G., see Laiho, R. 892 Kozhevnikov, V.L., see Laiho, R. Liu, H., see Liu, X. 111 Kraus, R.H., see Hai, N.H. Liu, H., see Yang, C. 187 Krishnan, K.M., see Bao, Y. Liu, J., see Yang, C. 187 Krishnan, K.M., see Gonzales, M. Liu, X., Y. Guan, H. Liu, Z. Ma, Yu. Yang and X. Wu, Kr6étz, F., see Schillinger, U. Preparation and characterization of magnetic poly- Ksari, Y., see Ananou, B. mer nanospheres with high protein binding capacity 111 Kuch, W., see Fukumoto, K. Lobedann, M.A., see Hafeli, U.O. 224 Kiickelhaus, S., see Guedes, M.H.A. Ludwig, F., E. Heim, S. Mauselein, D. Eberbeck and M. Kulkarni, A.M., see Acar, H.Y.c. Schilling, Magnetorelaxometry of magnetic nano- Kumar Nigam, A., see Giri, J. particles with fluxgate magnetometers for the analy- Kunkel, H.P., see Zhou, X. sis of biological targets 690 Kuznetsov, V.D., see Brusentsova, T.N. Kuznetsov, V.D., see Brusentsov, N.A. Ma, Z., see Liu, X. 111 Kwak, B.K., see Lee, H.S. Macaroff, P.P., D.M. Oliveira, K.F. Ribeiro, Z.G.M. Lacava, E.C.D. Lima, P.C. Morais and A.C. Lacava, Z.G.M., see Garcia, M.P. Tedesco, Studies of cell toxicity of complexes of Lacava, Z.G.M., see Guedes, M.H.A. magnetic fluids and biological macromolecules 293 952 Author index to volume 293 MacRae, M., see Rotariu, O. 589 paramagnetic covalent carriers based on maghemite Marfaing, J., see Ananou, B. 816 and dextran Marius, M.S., P.A.B. James, A.S. Bahaj and D.J. Morup, S., see Fonnum, G. Smallman, Development of a highly magnetic iron Mosiniewicz-Szablewska, E., see Safarik, I. sulphide for metal uptake and magnetic separation 567 Mukadam, M.D., see Ambashta, R.D. Martin, B., see Ally, J. 442 Muller, R.N., see Roch, A. Miauselein, S., see Ludwig, F. 690 Miiller-Schulte, D., T. Schmitz-Rode and P. Borm, McConville, P., see Kopelman, R. 404 Ultra-fast synthesis of magnetic and luminescent McNaughton, B.H., J.N. Anker and R. Kopelman, silica beads for versatile bioanalytical applications Magnetic microdrill as a modulated fluorescent pH Mungiu, O.C., see Chiriac, H. sensor 696 Myers, T.M., see Shang, H. 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Qiu, Y. transition on the associated magnetocaloric effect in Gu and Y. Zhang, Magnetic and transport proper- the Ni-Mn-Ga system 854 ties of magnetite thin films 737 Zinoveva, S., see Moras, K. 119

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