Anti-counterfeit nanoscale fingerprints based on randomly distributed nanowires

Nanotechnology

Volumn 25, Issue 15, 2014, Pages

  Kim, Jangbae ^a   Yun, Je Moon ^a   Jung, Jongwook ^a   Song, Hyunjoon ^a,b   Kim, Jin Baek ^a   Ihee, Hyotcherl ^a,b  

^a Korea Advanced Institute of Science and Technology (KAIST)   (South Korea)

^b Institute for Basic Science   (South Korea)

Author keywords

anticounterfeit; fingerprint; fluorescence; nanowire; randomness

Indexed keywords

ANTI-COUNTERFEIT; FINGERPRINT; FINGERPRINT PATTERN; FLUORESCENT COLORS; FLUORESCENT DYES; RANDOMLY DISTRIBUTED; RANDOMNESS; SILVER NANOWIRES;

CRIME; FLUORESCENCE; INTERNATIONAL TRADE; NANOTECHNOLOGY; RANDOM PROCESSES;

NANOWIRES;

EID: 84897904751     PISSN: 09574484     EISSN: 13616528     Source Type: Journal    
DOI: 10.1088/0957-4484/25/15/155303     Document Type: Article

References (20)

1. Martinez C, Lemonnier O, Laulagnet F, Fargeix A, Tissot F and Armand M F 2012 Complementary computer generated holography for aesthetic watermarking Opt. Express 20 5547-56
2. Wachulak P W, Bartels R A, Marconi M C, Menoni C S, Rocca J J, Lu Y and Parkinson B 2006 Sub 400 nm spatial resolution extreme ultraviolet holography with a table top laser Opt. Express 14 9636-42
3. Wachulak P W, Marconi M C, Bartels R A, Menoni C S and Rocca J J 2007 Volume extreme ultraviolet nano-holographic imaging with numerical optical sectioning Opt. Express 15 10622-8
4. Buchanan J D R, Cowburn R P, Jausovec A V, Petit D, Seem P, Xiong G, Atkinson D, Fenton K, Allwood D A and Bryan M T 2005 Forgery: 'fingerprinting' documents and packaging Nature 436 475
5. Roberts C M 2006 Radio frequency identification (RFID) Comput. Secur. 25 18-26
6. Penn S G, Norton S M, Walton I D, Freeman R G and Davis G 2004 Nanobarcodes particles as covert security tags for documents and product security Proc. SPIE 5310 337-40
7. Demirok U K, Burdick J and Wang J 2009 Orthogonal multi-readout identification of alloy nanowire barcodes J. Am. Chem. Soc. 131 22-3
8. Sun L-W, Shi H-Q, Li W-N, Xiao H-M, Fu S-Y, Cao X-Z and Li Z-X 2012 Lanthanum-doped ZnO quantum dots with greatly enhanced fluorescent quantum yield J. Mater. Chem. 22 8221-7
9. Lu Z, Liu Y, Hu W, Lou X W and Li C M 2011 Rewritable multicolor fluorescent patterns for multistate memory devices with high data storage capacity Chem. Commun. 47 9609-11
10. Johansen S, Radziwon M, Tavares L and Rubahn H G 2012 Nanotag luminescent fingerprint anti-counterfeiting technology Nanoscale Res. Lett. 7 262
11. Korte K E, Skrabalak S E and Xia Y 2008 Rapid synthesis of silver nanowires through a CuCl- or CuCl2-mediated polyol process J. Mater. Chem. 18 437-41
12. Sun Y G, Gates B, Mayers B and Xia Y N 2002 Crystalline silver nanowires by soft solution processing Nano Lett. 2 165-8
13. Sun Y G and Xia Y N 2002 Large-scale synthesis of uniform silver nanowires through a soft, self-seeding, polyol process Adv. Mater. 14 833-7
14. Heitsch A T, Smith D K, Patel R N, Ress D and Korgel B A 2008 Multifunctional particles: magnetic nanocrystals and gold nanorods coated with fluorescent dye-doped silica shells J. Solid State Chem. 181 1590-9
15. Yin Y D, Lu Y, Sun Y G and Xia Y N 2002 Silver nanowires can be directly coated with amorphous silica to generate well-controlled coaxial nanocables of silver/silica Nano Lett. 2 427-30
16. Pedrotti L, Pedrotti L S and Pedrotti L M 2007 Introduction to Optics (Upper Saddle River, NJ: Prentice Hall)
17. Pradel K C, Sohn K and Huang J 2011 Cross-flow purification of nanowires Angew. Chem. Int. Edn 50 3412-6
18. Schnäckel A, Hiller S, Reibetanz U and Donath E 2007 Fluorescent bead arrays by means of layer-by-layer polyelectrolyte adsorption Soft Matter 3 200-6
19. Zheng J Y, Yan Y, Wang X, Zhao Y S, Huang J and Yao J 2012 Wire-on-wire growth of fluorescent organic heterojunctions J. Am. Chem. Soc. 134 2880-3
20. Nicewarner-Pena S R, Freeman R G, Reiss B D, He L, Pena D J, Walton I D, Cromer R, Keating C D and Natan M J 2001 Submicrometer metallic barcodes Science 294 137-41