Bibliography
- Ferrari M : Cancer nanotechnology: opportunities and challenges.Nat. Rev. Cancer5, 161–171 (2005).
- Kricka LJ , ParkJY, LiSFY, FortinaP: Miniaturized detection technology in molecular diagnostics.Exp. Rev. Mol. Diagn.5, 549–559 (2005).
- Jain KK : Nanodiagnostics: application of nanotechnology in molecular diagnostics.Exp. Rev. Mol. Diagn.3, 153–161 (2003).
- Stears RL , MartinskyT, SchenaM: Trends in microarray analysis.Nat. Med.9, 140–145 (2003).
- Templin MF , StollD, SchrenkM, TraubPC, VohringerCF, JoosTO: Protein microarray technology.Trends Biotechnol.20, 160–166 (2002).
- Rosi NL , MirkinCA: Nanostructures in biodiagnostics.Chem. Rev.105, 1547–1562 (2005).
- Patolsky F , TimkoBP, ZhengG, LieberCM: Nanowire sensors for medicine and the life sciences.Nanomedicine1, 51–65 (2006).
- He B , MorrowTJ, KeatingCD: Nanowire sensors for multiplexed detection of biomolecules.Curr. Opin. Chem. Biol.12, 522–528 (2008).
- Pregibon DC , TonerM, DoylePS: Multifunctional encoded particles for high-throughput biomolecule analysis.Science315, 1393–1396 (2007).
- Nolan JP , SklarLA: Suspension array technology: evolution of the flat-array paradigm.Trends Biotechnol.20, 9–12 (2002).
- Penn SG , HeL, NatanMJ: Nanoparticles for bioanalysis.Curr. Opin. Chem. Biol.7, 609–615 (2003).
- Braeckmans K , De Smedt SC, Leblans M, Pauwels R, Demeester J: Encoding microcarriers: present and future technologies. Nat. Rev. Drug. Discov.1, 447–456 (2002).
- Vignali DAA : Multiplexed particle-based flow cytometric assays.J. Immunol. Methods.243, 243–255 (2000).
- Brunker SE , CederquistKB, KeatingCD: Metallic barcodes for multiplexed bioassays.Nanomedicine2, 695–710 (2007).
- Wilson R , CossinsAR, SpillerDG: Encoded microcarriers for high-throughput multiplexed detection.Angew. Chem. Int. Ed.45, 6104–6117 (2006).
- Finkel NH , LouX, WangC, HeL: Barcoding the microworld.Anal. Chem.76, 352A–359A (2004).
- LaFratta CN , WaltDR: Very high density sensing arrays.Chem. Rev.108, 614–637 (2008).
- Nicewarner-Pena SR , FreemanRG, ReissBDet al.: Submicrometer metallic barcodes.Science294, 137–141 (2001).
- Sha M , WaltonI, NortonSet al.: Multiplexed SNP genotyping using nanobarcode particle technology.Anal. Bioanal. Chem.384, 658–666 (2006).
- Reiss BD , FreemanRG, WaltonIDet al.: Electrochemical synthesis and optical readout of striped metal rods with submicron features.J. Electroanal. Chem.522, 95–103 (2002).
- Walton ID , NortonSM, BalasinghamAet al.: Particles for multiplexed analysis in solution: detection and identification of striped metallic particles using optical microscopy.Anal. Chem.74, 2240–2247 (2002).
- Stoermer RL , CederquistKB, McFarlandSK, ShaMY, PennSG, KeatingCD: Coupling molecular beacons to barcoded metal nanowires for multiplexed, sealed chamber DNA bioassays.J. Am. Chem. Soc.128, 16892–16903 (2006).
- Sioss JA , StoermerRL, ShaMY, KeatingCD: Silica-coated, Au/Ag striped nanowires for bioanalysis.Langmuir23, 11334–11341 (2007).
- Kim SK , LeeSB: Highly encoded one-dimensional nanostructures for rapid sensing.J. Mater. Chem.19, 1381–1389 (2009).
- He B , SonSJ, LeeSB: Suspension array with shape-coded silica nanotubes for multiplexed immunoassays.Anal. Chem.79, 5257–5263 (2007).
- He B , SonSJ, LeeSB: Shape-coded silica nanotubes for biosensing.Langmuir22, 8263–8265 (2006).
- Martin CR : Nanomaterials: a membrane-based synthetic approach.Science266, 1961–1966 (1994).
- Martin CR : Membrane-based synthesis of nanomaterials.Chem. Mater.8, 1739–1746 (1996).
- Hulteen JC , MartinCR: A general template-based method for the preparation of nanomaterials.J. Mater. Chem.7, 1075–1087 (1997).
- Martin CR , KohliP: The emerging field of nanotube biotechnology.Nat. Rev. Drug. Discov.2, 29–37 (2003).
- Buyukserin F , MedleyCD, MotaMOet al.: Antibody-functionalized nano test tubes target breast cancer cells.Nanomedicine3, 283–292 (2008).
- Okamoto K , ShookCJ, BivonaL, LeeSB, EnglishDS: Direct observation of wetting and diffusion in the hydrophobic interior of silica nanotubes.Nano Lett.4, 233–239 (2004).
- Lee SB , MitchellDT, TrofinL, NevanenTK, SoderlundH, MartinCR: Antibody-based bio-nanotube membranes for enantiomeric drug separations.Science296, 2198–2200 (2002).
- Nan A , BaiX, SonSJ, LeeSB, GhandehariH: Cellular uptake and cytotoxicity of silica nanotubes.Nano Lett.8, 2150–2154 (2008).
- Mitchell DT , LeeSB, TrofinLet al.: Smart nanotubes for bioseparations and biocatalysis.J. Am. Chem. Soc.124, 11864–11865 (2002).
- Son SJ , ReichelJ, HeB, SchuchmanM, LeeSB: Magnetic nanotubes for magnetic-field-assisted bioseparation, biointeraction, and drug delivery.J. Am. Chem. Soc.127, 7316–7317 (2005).
- Bai X , SonSJ, ZhangSet al.: Synthesis of superparamagnetic nanotubes as MRI contrast agents and for cell labeling.Nanomedicine3, 163–174 (2008).
- Tushar RS , AmitA, ShumingN: Mesoporous silica beads embedded with semiconductor quantum dots and iron oxide nanocrystals: dual-function microcarriers for optical encoding and magnetic separation.Anal. Chem.78, 5627–5632 (2006).
- Tok JBH , ChuangFYS, KaoMCet al.: Metallic striped nanowires as multiplexed immunoassay platforms for pathogen detection.Angew. Chem. Int. Ed.45, 6900–6904 (2006).
- Kovtyukhova NI , MalloukTE, MayerTS: Templated surface sol-gel synthesis of SiO2 nanotubes and SiO2-insulated metal nanowires.Adv. Mater.15, 780–785 (2003).
- Zheng G , PatolskyF, CuiY, WangWU, LieberCM: Multiplexed electrical detection of cancer markers with nanowire sensor arrays.Nat. Biotech.23, 1294–1301 (2005).
Website
- Luminex. www.luminexcorp.com