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Year 2017, , 51 - 55, 30.06.2017
https://doi.org/10.17350/HJSE19030000048

Abstract

References

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  • 2. Agraıt N, Yeyati AL, Van Ruitenbeek JM. Quantum properties of atomic-sized conductors. Physics Reports 377(2) (2003) 81-279.
  • 3. Costa-Krämer JL, García N, García-Mochales P, Serena PA, Marqués MI, Correia A. Conductance quantization in nanowires formed between micro and macroscopic metallic electrodes. Physical Review B 55(8) (1997) 5416.
  • 4. Tolley R, Silvidi A, Little C, Eid KF. Conductance quantization: A laboratory experiment in a senior-level nanoscale science and technology course. American Journal of Physics 81(1) (2013) 14-19.
  • 5. Muren NB, Olmon ED, Barton JK. Solution, surface, and single molecule platforms for the study of DNA-mediated charge transport. Physical Chemistry Chemical Physics, 14(40) (2012) 13754-13771.
  • 6. Kelley SO, Jackson NM, Hill MG, Barton JK. Long‐Range Electron Transfer through DNA Films. Angewandte Chemie International Edition 38(7) (1999) 941-945.
  • 7. Delaney S, Barton JK. Long-range DNA charge transport. The Journal of organic chemistry 68(17) (2003) 6475- 6483.
  • 8. Dekker C, Ratner M. Electronic properties of DNA. Physics World 14(8) (2001) 29.
  • 9. Xu B, Zhang P, Li X, Tao N. Direct conductance measurement of single DNA molecules in aqueous solution. Nano letters 4(6) (2004) 1105-1108.
  • 10. Porath D, Bezryadin A, De Vries S, Dekker C. Direct measurement of electrical transport through DNA molecules. Nature 403(6770) (2000) 635-638.
  • 11. Storm AJ, Van Noort J, De Vries S, Dekker C. Insulating behavior for DNA molecules between nanoelectrodes at the 100 nm length scale. Applied Physics Letters 79(23) (2001) 3881-3883.
  • 12. Qi J, Edirisinghe N, Rabbani MG, Anantram MP. Unified model for conductance through DNA with the LandauerBüttiker formalism. Physical Review B 87(8) (2013) 085404.
  • 13. Chu CS, Sorbello RS. Effect of impurities on the quantized conductance of narrow channels. Physical Review B 40(9) (1989) 5941.
  • 14. Kasumov AY, Kociak M, Gueron S, Reulet B, Volkov VT, Klinov DV, Bouchiat, H. Proximity-induced superconductivity in DNA. Science 291(5502) (2001) 280-282.
  • 15. Tan B, Hodak M, Lu W, Bernholc J. Charge transport in DNA nanowires connected to carbon nanotubes. Physical Review B 92(7) (2015) 075429.
  • 16. Fink HW, Schönenberger C. Electrical conduction through DNA molecules. Nature 398(6726) (1999) 407-410.

Quantized Conductance Measurement System for Liquids and Application to DNA Solution

Year 2017, , 51 - 55, 30.06.2017
https://doi.org/10.17350/HJSE19030000048

Abstract

I n this study, a system for undergraduate and graduate laboratories was designed in order to investigate quantized conductivity behavior of solutions. The quantized conductivity of the DNA solution was examined by using the designed system. The quantized conductivity peculiarity of DNA solution was observed. The same quantized feature couldn’t be reached after repeated experiments for buffer solution, mutated DNA solutions. It is concluded that it is possible differentiate similar kind of solution by measuring the quantized conductance behavior

References

  • 1. Sullivan TS, Geiger MS, Keller JS, Klopcic JT, Peiris FC, Schumacher BW, Spater JS, Turner PC. Innovations in nanoscience education at Kenyon College. IEEE Transactions on Education 51(2) (2008) 234-241.
  • 2. Agraıt N, Yeyati AL, Van Ruitenbeek JM. Quantum properties of atomic-sized conductors. Physics Reports 377(2) (2003) 81-279.
  • 3. Costa-Krämer JL, García N, García-Mochales P, Serena PA, Marqués MI, Correia A. Conductance quantization in nanowires formed between micro and macroscopic metallic electrodes. Physical Review B 55(8) (1997) 5416.
  • 4. Tolley R, Silvidi A, Little C, Eid KF. Conductance quantization: A laboratory experiment in a senior-level nanoscale science and technology course. American Journal of Physics 81(1) (2013) 14-19.
  • 5. Muren NB, Olmon ED, Barton JK. Solution, surface, and single molecule platforms for the study of DNA-mediated charge transport. Physical Chemistry Chemical Physics, 14(40) (2012) 13754-13771.
  • 6. Kelley SO, Jackson NM, Hill MG, Barton JK. Long‐Range Electron Transfer through DNA Films. Angewandte Chemie International Edition 38(7) (1999) 941-945.
  • 7. Delaney S, Barton JK. Long-range DNA charge transport. The Journal of organic chemistry 68(17) (2003) 6475- 6483.
  • 8. Dekker C, Ratner M. Electronic properties of DNA. Physics World 14(8) (2001) 29.
  • 9. Xu B, Zhang P, Li X, Tao N. Direct conductance measurement of single DNA molecules in aqueous solution. Nano letters 4(6) (2004) 1105-1108.
  • 10. Porath D, Bezryadin A, De Vries S, Dekker C. Direct measurement of electrical transport through DNA molecules. Nature 403(6770) (2000) 635-638.
  • 11. Storm AJ, Van Noort J, De Vries S, Dekker C. Insulating behavior for DNA molecules between nanoelectrodes at the 100 nm length scale. Applied Physics Letters 79(23) (2001) 3881-3883.
  • 12. Qi J, Edirisinghe N, Rabbani MG, Anantram MP. Unified model for conductance through DNA with the LandauerBüttiker formalism. Physical Review B 87(8) (2013) 085404.
  • 13. Chu CS, Sorbello RS. Effect of impurities on the quantized conductance of narrow channels. Physical Review B 40(9) (1989) 5941.
  • 14. Kasumov AY, Kociak M, Gueron S, Reulet B, Volkov VT, Klinov DV, Bouchiat, H. Proximity-induced superconductivity in DNA. Science 291(5502) (2001) 280-282.
  • 15. Tan B, Hodak M, Lu W, Bernholc J. Charge transport in DNA nanowires connected to carbon nanotubes. Physical Review B 92(7) (2015) 075429.
  • 16. Fink HW, Schönenberger C. Electrical conduction through DNA molecules. Nature 398(6726) (1999) 407-410.
There are 16 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Yavuz Ozturk This is me

Busra Yildirim This is me

Koray Sekerin This is me

Alper Bayram This is me

Publication Date June 30, 2017
Published in Issue Year 2017

Cite

Vancouver Ozturk Y, Yildirim B, Sekerin K, Bayram A. Quantized Conductance Measurement System for Liquids and Application to DNA Solution. Hittite J Sci Eng. 2017;4(1):51-5.

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