CrossRef 3. Tong L, Wei QS, Wei A, Cheng JX: Gold nanorods as contrast agents for biological imaging: optical properties, surface conjugation and photothermal effects. Photochem Photobiol 2009, 85:21–32.CrossRef 4. Skrabalak SE, Chen J, Au L, Lu X, Li X, Xia Y: Gold nanocages for biomedical applications. Adv Mater 2007, 19:3177–3184.CrossRef 5. Nann T: Nanoparticles in photodynamic therapy. Nano Biomed Eng 2011, 3:137–143. 6. Jana NR, Gearheart L, Murphy CJ: Wet chemical
synthesis of high aspect ratio cylindrical gold nanorod. J Phys Chem B 2001, 105:4065–4067.CrossRef 7. Liao HW, Hafner JH: Gold selleck compound nanorod bioconjugates. Chem Mater 2005, 17:4636–4641.CrossRef 8. Cheng JS, Liang QQ, Chang HX, Zhu WJ: Redox approaches derived Tin (IV) oxide nanoparticles/graphene nanocomposites as the near-infrared absorber for selective AZD1390 cost human prostate cancer cells destruction. Nano Biomed Eng 2012, 4:76–82. 9. Rahimi M, Wadajkar A, Subramanian K, Yousef M, Cui W, Hsieh
JT, Nguyen KT: In vitro evaluation of novel polymer-coated magnetic nanoparticles for controlled drug delivery. Nanomedicine 2010, 6:672–680.CrossRef 10. He J, Chen JY, Wang P, Wang PN, Guo J, Yang WL, Wang CC, Peng Q: Poly( N -isopropylacrylamide)-coated thermo-responsive nanoparticles for controlled delivery of sulfonated Zn-phthalocyanine in Chinese hamster ovary cells in vitro and zebra fish in vivo. Nanotechnology 2007, 18:5. 11. Fujimoto KL, Ma ZW, Nelson DM, Hashizume R, Guan JJ, Tobita K, Wagner WR: Synthesis, characterization and therapeutic efficacy of a biodegradable, thermoresponsive hydrogel designed Lumacaftor in vivo for application in chronic infarcted myocardium. Biomaterials 2009, 30:4357–4368.CrossRef 12. Qiao P, Niu QS, Wang ZB, Cao DP: Synthesis of thermosensitive micelles based on poly( N -isopropylacrylamide) and poly( L -alanine) for controlled release
of adriamycin. Chem Eng J 2010, 159:257–263.CrossRef 13. Inoue T, Chen GH, Nakamae K, Hoffman AS: Temperature sensitivity of a hydrogel network containing different LCST oligomers grafted to the hydrogel backbone. Polymer Gels and Networks 1997, 5:561–575.CrossRef 14. Wang ZC, Xu XD, Chen CS, Wang GR, Cheng SX, Zhang XZ, Zhu RX: In situ formation of thermosensitive P(NIPAAm-co-GMA)/PEI hydrogels. React Funct Polym 2009, 69:14–19.CrossRef 15. Karg M, Hellweg T: New “smart” poly(NIPAM) microgels and nanoparticle microgel hybrids: selleck chemicals llc properties and advances in characterisation. Curr Opin Colloid In 2009, 14:438–450.CrossRef 16. Contreras-Cáceres R, Pacifico J, Pastoriza-Santos I, Perez-Juste J, Fernández-Barbero A, Liz-Marzán LM: Au@pNIPAM thermosensitive nanostructures: control over shell cross-linking, overall dimensions, and core growth. Adv Funct Mater 2009, 19:3070–3076.CrossRef 17. Chen T, Chang DP, Zhang JM, Jordan R, Zauscher S: Manipulating the motion of gold aggregates using stimulus-responsive patterned polymer brushes as a motor. Adv Funct Mater 2012, 22:429–434.CrossRef 18.