High throughput fabrication of plasmonic nanostructures in nanofluidic pores for biosensing applications

Nanotechnology

Volumn 23, Issue 41, 2012, Pages

  Mazzotta, Francesco ^a   Höök, Fredrik ^a   Jonsson, Magnus P ^a,b  

^a CHALMERS UNIVERSITY OF TECHNOLOGY   (Sweden)

^b Delft University of Technology   (Netherlands)

Author keywords

[No Author keywords available]

Indexed keywords

ANALYTES; BIOSENSING; BIOSENSING APPLICATIONS; HIGH THROUGHPUT; MULTIPLE SENSORS; NANOFLUIDIC SYSTEMS; NANOSCALE SENSORS; OPTICAL MEMBRANES; PLASMON RESONANCES; PLASMONIC; PLASMONIC NANOPARTICLE; PLASMONIC NANOSTRUCTURES; POTENTIAL APPLICATIONS; PROCESS PARAMETERS; SENSOR ELEMENTS; SENSOR SURFACES; SILICON NITRIDE MEMBRANE; VISIBLE-WAVELENGTH RANGE;

NANOPARTICLES; PLASMONS; REFRACTIVE INDEX; SENSORS; SILICON NITRIDE; THROUGHPUT;

NANOFLUIDICS;

GOLD; NANOMATERIAL; SILICON DERIVATIVE; SILICON NITRIDE;

ARTICLE; ARTIFICIAL MEMBRANE; CHEMISTRY; EQUIPMENT DESIGN; GENETIC PROCEDURES; INSTRUMENTATION; MICROFLUIDIC ANALYSIS; POROSITY;

BIOSENSING TECHNIQUES; EQUIPMENT DESIGN; GOLD; MEMBRANES, ARTIFICIAL; MICROFLUIDIC ANALYTICAL TECHNIQUES; NANOSTRUCTURES; POROSITY; SILICON COMPOUNDS;

EID: 84867021957     PISSN: 09574484     EISSN: 13616528     Source Type: Journal    
DOI: 10.1088/0957-4484/23/41/415304     Document Type: Article

References (36)

1. Jonsson M P, Dahlin A B, Jönsson P and Höök F 2008 Nanoplasmonic biosensing with focus on short-range ordered nanoholes in thin metal films Biointerphases 3 FD30-40
2. Englebienne P 1998 Use of colloidal gold surface plasmon resonance peak shift to infer affinity constants from the interactions between protein antigens and antibodies specific for single or multiple epitopes Analyst 123 1599-603 (Pubitemid 28367878)
3. Dahlin A B, Chen S, Jonsson M P, Gunnarsson L, Käll M and Höök F 2009 High-resolution microspectroscopy of plasmonic nanostructures for miniaturized biosensing Anal. Chem. 81 6572-80
4. Ruach-Nir I, Bendikov T A, Doron-Mor I, Barkay Z, Vaskevich A and Rubinstein I 2007 Silica-stabilized gold island films for transmission localized surface plasmon sensing J. Am. Chem. Soc. 129 84-92 (Pubitemid 46068263)
5. Anker J N, Hall W P, Lyandres O, Shah N C, Zhao J and Van Duyne R P 2008 Biosensing with plasmonic nanosensors Nature Mater. 7 442-53 (Pubitemid 351735880)
6. Mishra Y K, Mohapatra S, Avasthi D K, Kabiraj D, Lalla N P, Pivin J C, Sharma H, Kar R and Singh N 2007 Gold-silica nanocomposites for the detection of human ovarian cancer cells: a preliminary study Nanotechnology 18 345606 (Pubitemid 47228452)
7. Stewart M E, Anderton C R, Thompson L B, Maria J, Gray S K, Rogers J A and Nuzzo R G 2008 Nanostructured plasmonic sensors Chem. Rev. 108 494-521 (Pubitemid 351344447)
8. Im H, Lesuffleur A, Lindquist N C and Oh S-H 2009 Plasmonic nanoholes in a multichannel microarray format for parallel kinetic assays and differential sensing Anal. Chem. 81 2854-9
9. Masson J-F, Murray-Méthot M-P and Live L S 2010 Nanohole arrays in chemical analysis: manufacturing methods and applications Analyst 135 1483-9
10. Sannomiya T, Scholder O, Jefimovs K, Hafner C and Dahlin A B 2011 Investigation of plasmon resonances in metal films with nanohole arrays for biosensing applications Small 7 1653-63
11. Jonsson M P, Jönsson P and Höök F 2008 Simultaneous nanoplasmonic and quartz crystal microbalance sensing: analysis of biomolecular conformational changes and quantification of the bound molecular mass Anal. Chem. 80 7988-95
12. Dahlin A, Jönsson P, Jonsson M, Schmid E, Zhou Y and Höök F 2008 Synchronized quartz crystal microbalance and nanoplasmonic sensing of biomolecular recognition reactions ACS Nano 2 2174-82
13. Jonsson M P, Dahlin A B, Feuz L, Petronis S and Höök F 2010 Locally functionalized short-range ordered nanoplasmonic pores for bioanalytical sensing Anal. Chem. 82 2087-94
14. Eftekhari F, Escobedo C, Ferreira J, Duan X, Girotto E M, Brolo A G, Gordon R and Sinton D 2009 Nanoholes as nanochannels: flow-through plasmonic sensing Anal. Chem. 81 4308-11
15. Yanik A A, Huang M, Artar A, Chang T-Y and Altug H 2010 Integrated nanoplasmonic-nanofluidic biosensors with targeted delivery of analytes Appl. Phys. Lett. 96 021101
16. Dmitriev A, Hägglund C, Chen S, Fredriksson H, Pakizeh T, Käll M and Sutherland D S 2008 Enhanced nanoplasmonic optical sensors with reduced substrate effect Nano Lett. 8 3893-8
17. Cataldo S, Zhao J, Neubrech F, Frank B, Zhang C, Braun P V and Giessen H 2012 Hole-mask colloidal nanolithography for large-area low-cost metamaterials and antenna-assisted surface-enhanced infrared absorption substrates ACS Nano 6 979-85
18. Dickey M, Weiss E, Smythe E, Chiechi R, Capasso F and Whitesides G M 2008 Fabrication of arrays of metal and metal oxide nanotubes by shadow evaporation ACS Nano 2 800-8
19. Vogel N, Fischer J and Mohammadi R 2011 Plasmon hybridization in stacked double crescents arrays fabricated by colloidal lithography Nano Lett. 11 446-54
20. Retsch M, Tamm M, Bocchio N, Horn N, Förch R, Jonas U and Kreiter M 2009 Parallel preparation of densely packed arrays of 150 nm gold-nanocrescent resonators in three dimensions Small 5 2105-10
21. Rochholz H, Bocchio N and Kreiter M 2007 Tuning resonances on crescent-shaped noble-metal nanoparticles New J. Phys. 9 53 (Pubitemid 46417522)
22. Hanarp P, Sutherland D S, Gold J and Kasemo B 2003 Control of nanoparticle film structure for colloidal lithography Colloids Surf. A 214 23-36 (Pubitemid 36188487)
23. Campbell S A 2011 The Science and Engineering of Microelectronic Fabrication (New York: Oxford University Press)
24. Hoyt L 1934 New table of the refractive index of pure glycerol at 20°C Indust. Eng. Chem. 26 329-32
25. Daniel M C and Astruc D 2004 Gold nanoparticles: assembly, supramolecular chemistry, quantum-size-related properties, and applications toward biology, catalysis, and nanotechnology Chem. Rev. 104 293-346
26. Bohren C F and Huffman D R 1983 Absorption and Scattering of Light by Small Particles (New York: Wiley)
27. Link S and El-Sayed M A 2000 Shape and size dependence of radiative, non-radiative and photothermal properties of gold nanocrystals Int. Rev. Phys. Chem. 19 409-53
28. Link S and El-Sayed M A 1999 Spectral properties and relaxation dynamics of surface plasmon electronic oscillations in gold and silver nanodots and nanorods J. Phys. Chem. B 103 8410-26 (Pubitemid 129613873)
29. Ross B M and Lee L P 2008 Plasmon tuning and local field enhancement maximization of the nanocrescent Nanotechnology 19 275201
30. Hanarp P, Käll M and Sutherland D S 2003 Optical properties of short range ordered arrays of nanometer gold disks prepared by colloidal lithography J. Phys. Chem. B 107 5768-72
31. Mazzotta F, Wang G, Hägglund C, Höök F and Jonsson M P 2010 Nanoplasmonic biosensing with on-chip electrical detection Biosens. Bioelectron. 26 1131-6
32. Gervais T and Jensen K F 2006 Mass transport and surface reactions in microfluidic systems Chem. Eng. Sci. 61 1102-21 (Pubitemid 43005244)
33. Feuz L, Jonsson M P and Höök F 2012 Material-selective surface chemistry for nanoplasmonic sensors: optimizing sensitivity and controlling binding to local hot spots Nano Lett. 12 873-9
34. Feuz L, Jönsson P, Jonsson M P and Höök F 2010 Improving the limit of detection of nanoscale sensors by directed binding to high-sensitivity areas ACS Nano 4 2167-77
35. Escobedo C, Brolo A G, Gordon R and Sinton D 2010 Flow-through vs flow-over: analysis of transport and binding in nanohole array plasmonic biosensors Anal. Chem. 82 10015-20
36. Cooper M A 2002 Optical biosensors in drug discovery Nature Rev. Drug Discov. 1 515-28 (Pubitemid 37368826)