Size control of magnetic carbon nanoparticles for drug delivery

Biomaterials

Volumn 31, Issue 6, 2010, Pages 1342-1348

  Oh, W K ^a   Yoon, H ^a   Jang, J ^a  

^a Seoul National University   (South Korea)

Author keywords

Cell viablility; Drug delivery; Magnetism; Nanoparticle; Porosity

Indexed keywords

ADSORPTION/DESORPTION; CARBON NANO PARTICLES; CELL VIABILITY; COVALENT COUPLINGS; FIELD EMISSION SCANNING ELECTRON MICROSCOPY; FLUORESCENT MOLECULES; HIGH SURFACE AREA; HYDROPHOBIC GUESTS; INTERFERENCE DEVICES; LOW TOXICITY; MAGNETIC CARBONS; MAGNETIC PHASIS; MICROPORE VOLUMES; NARROW SIZE DISTRIBUTIONS; PORE FILLING; RAMAN SPECTROMETERS; SIZE CONTROL; SURFACE ADSORPTION; SUSTAINED RELEASE;

ADSORPTION; DRUG DELIVERY; DRUG PRODUCTS; FIELD EMISSION; FIELD EMISSION MICROSCOPES; HYDROPHOBICITY; MAGNETIC PROPERTIES; MAGNETISM; POLYPYRROLES; PYROLYSIS; SCANNING ELECTRON MICROSCOPY;

NANOPARTICLES;

IBUPROFEN; MAGNETIC CARBON NANOPARTICLE; NANOPARTICLE; POLYPYRROLE; UNCLASSIFIED DRUG;

ADSORPTION; ARTICLE; CELL VIABILITY; CONTROLLED STUDY; DESORPTION; DRUG DELIVERY SYSTEM; FIBROBLAST; FIELD EMISSION SCANNING ELECTRON MICROSCOPY; HUMAN; HUMAN CELL; HYDROPHOBICITY; MAGNETIC SEPARATION; PRIORITY JOURNAL; PYROLYSIS; RAMAN SPECTROMETRY; SUSTAINED RELEASE FORMULATION; X RAY DIFFRACTION;

CARBON; CRYSTALLIZATION; DRUG CARRIERS; FERRIC COMPOUNDS; MAGNETICS; MATERIALS TESTING; NANOPARTICLES; PARTICLE SIZE; PHARMACEUTICAL PREPARATIONS; SURFACE PROPERTIES;

EID: 72149127645     PISSN: 01429612     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biomaterials.2009.10.018     Document Type: Article

References (42)

1. Lu A.-H., and Schüth F. Nanocasting: a versatile strategy for creating nanostructured porous materials. Adv Mater 18 (2006) 1793-1805
2. Jang J. Conducting polymer nanomaterials and their applications. Adv Polym Sci 199 (2006) 189-259
3. Lee K.J., Min S.H., and Jang J. Mesoporous nanofibers from dual structure-directing agents in AAO: mesostructural control and their catalytic applications. Chem Eur J 15 (2009) 2491-2495
4. Ko S., and Jang J. A highly efficient palladium nanocatalyst anchored on a magnetically functionalized polymer-nanotube support. Angew Chem Int Ed 45 (2006) 7564-7566
5. Yoon H., Ko S., and Jang J. Nitrogen-doped magnetic carbon nanoparticles as catalyst supports for efficient recovery and recycling. Chem Commun (2007) 1468-1470
6. Choi B., Yoon H., Park I.-S., Jang J., and Sung Y.-E. Highly dispersed Pt nanoparticles on nitrogen-doped magnetic carbon nanoparticles and their enhanced activity for methanol oxidation. Carbon 45 (2007) 2496-2501
7. Moon S.-H., Jin W.-J., Kim T.-R., Hahm H.-S., Cho B.-W., and Kim M.-S. Performance of graphite electrode modified with carbon nanofibers for lithium ion secondary battery. J Ind Eng Chem 11 (2005) 594-602
8. Choi M., and Jang J. Heavy metal ion adsorption on polypyrrole-impregnated porous carbon. J Colloid Interface Sci 325 (2008) 287-289
9. Giri S., Trewyn B.G., Stellmaker M.P., and Lin V.S.-Y. Stimuli-responsive controlled-release delivery system based on mesoporous silica nanorods capped with magnetic nanoparticles. Angew Chem Int Ed 44 (2005) 5038-5044
10. Yang P., Quan Z., Lu L., Huang S., and Lin J. Luminescence functionalization of mesoporous silica with different morphologies and applications as drug delivery systems. Biomaterials 29 (2008) 692-702
11. Guo S., Li D., Zhang L., Li J., and Wang E. Monodisperse mesoporous superparamagnetic single-crystal magnetite nanoparticles for drug delivery. Biomaterials 30 (2009) 1881-1889
12. Pelster S.A., Kalamajka R., Schrader W., and Schüth F. Monitoring the nucleation of zeolites by mass spectrometry. Angew Chem Int Ed 46 (2007) 2299-2302
13. Jang J., and Bae J. Fabrication of polymer nanofibers and carbon nanofibers by using a salt-assisted microemulsion polymerization. Angew Chem Int Ed 43 (2004) 3803-3806
14. Vinu A. Two-dimensional hexagonally-ordered mesoporous carbon nitrides with tunable pore diameter, surface area and nitrogen content. Adv Funct Mater 18 (2008) 816-827
15. Kelly S., Regan E.M., Uney J.B., Dick A.D., McGeehan J.P., Mayer E.J., et al. Patterned growth of neuronal cells on modified diamond-like carbon substrates. Biomaterials 29 (2008) 2573-2580
16. Yushin G., Hoffman E.N., Barsoum M.W., Gogotsi Y., Howell C.A., Sandeman S.R., et al. Mesoporous carbide-derived carbon with porosity tuned for efficient adsorption of cytokines. Biomaterials 27 (2006) 5755-5762
17. Hayashi T., Kim Y.A., Natsuki T., and Endo M. Mechanical properties of carbon nanomaterials. ChemPhysChem 8 (2007) 999-1004
18. Jang J., and Yoon H. Fabrication of magnetic carbon nanotubes using a metal-impregnated polymer precursor. Adv Mater 15 (2003) 2088-2091
19. Peckys D.B., Melechko A.V., Simpson M.L., and McKnight T.E. Immobilization and release strategies for DNA delivery using carbon nanofiber arrays and self-assembled monolayers. Nanotechnology 20 (2009) 145304-145311
20. Magrez A., Kasas S., Salicio V., Pasquier N., Seo J.W., Celio M., et al. Cellular toxicity of carbon-based nanomaterials. Nano Lett 6 (2006) 1121-1125
21. Cheng C., Müller K.H., Koziol K.K.K., Skepper J.N., Midgley P.A., Welland M.E., et al. Toxicity and imaging of multi-walled carbon nanotubes in human macrophage cells. Biomaterials 30 (2009) 4152-4160
22. Sun X., and Li Y. Colloidal carbon spheres and their core/shell structures with noble-metal nanoparticles. Angew Chem Int Ed 43 (2004) 597-601
23. Qiao W.M., Song Y., Lim S.Y., Hong S.H., Yoon S.H., Mochida I., et al. Carbon nanospheres produced in an arc-discharge process. Carbon 44 (2006) 187-190
24. 2O adsorption. Chem Mater 17 (2005) 5187-5193
25. Mirabile Gattia D., Vittori Antisari M., and Marazzi R. AC arc discharge synthesis of single-walled nanohorns and highly convoluted grapheme sheets. Nanotechnology 18 (2002) 255604-255610
26. Jang J., and Yoon H. Multigram-scale fabrication of monodisperse conducting polymer and magnetic carbon nanoparticles. Small 1 (2005) 1195-1199
27. Jang J., and Oh J.H. A top-down approach to fullerene fabrication using a polymer nanoparticle precursor. Adv Mater 16 (2004) 1650-1653
28. Bystrzejewski M., Cudziło S., Huczko A., Lange H., Soucy G., Cota-Sanchez G., et al. Carbon encapsulated magnetic nanoparticles for biomedical applications: thermal stability studies. Biomole Eng 24 (2007) 555-558
29. Kim S., Shibata E., Sergiienko R., and Nakamura T. Purification and separation of carbon nanocapsules as a magnetic carrier for drug delivery systems. Carbon 46 (2008) 1523-1529
30. Miyawaki J., Yudasaka M., Imai H., Yorimitsu H., Isobe H., Nakamura E., et al. In vivo magnetic resonance imaging of single-walled carbon nanohorns by labeling with magnetite nanoparticles. Adv Mater 18 (2006) 1010-1014
31. Lu A.-H., Salabas E.L., and Schüth F. Magnetic nanoparticles: synthesis, protection, functionalization, and application. Angew Chem Int Ed 46 (2007) 1222-1244
32. Decuzzi P., Pasqualini R., Arap W., and Ferrari M. Intravascular delivery of particulate systems: does geometry really matter?. Pharm Res 26 (2009) 235-243
33. Jiang W., Kim B.Y.S., Rutka J.T., and Chan W.C.W. Nanoparticle-mediated cellular response is size-dependent. Nat Nanotechnol 3 (2008) 145-150
34. Oh W.-K., Yoon H., and Jang J. Characterization of surface modified carbon nanoparticles by low temperature plasma treatment. Diam Relat Mater 18 (2009) 1316-1320
35. Jang J., Oh J.H., and Stucky G.D. Fabrication of ultrafine conducting polymer and graphite nanoparticles. Angew Chem Int Ed 41 (2002) 4016-4019
36. 2O adsorption. Chem Mater 17 (2005) 5187-5193
37. Pelster S.A., Kalamajka R., Schrader W., and Schüth F. Monitoring the nucleation of zeolites by mass spectrometry. Angew Chem Int Ed 46 (2007) 2299-2302
38. Schüth F. Non-siliceous mesostructured and mesoporous materials. Chem Mater 13 (2001) 3184-3195
39. Evertsson H., Nilsson S., Holmberg C., and Sundelof L.-O. Temperature effects on the interactions between EHEC and SDS in dilute aqueous solutions. Steady-state flurescence quenching and equilibrium dialysis investigations. Langmuir 12 (1996) 5781-5789
40. Sun Q., Ren B., Liu X., Zeng F., Liu P., and Tong Z. Fluorescence study for the electrostatic interaction and aggregation in dilute polar solution of polyelectrolytes. Macromol Symp 192 (2003) 251-264
41. Yang P., Quan Z., Hou Z., Li C., Kang X., Cheng Z., et al. A magnetic, luminescent and mesoporous core-shell structured composite material as drug carrier. Biomaterials 30 (2009) 4786-4795
42. Yen H.-J., Hsu S.-H., and Tsai C.-L. Cytotoxicity and immunological response of gold and silver nanoparticles of different sizes. Small 5 (2009) 1553-1561