User menu

Tuning the surface conditioning of trapezoidally shaped silicon nanowires by (3-aminopropyl)triethoxysilane.

Bibliographic reference Dutu, Constantin Augustin ; Vlad, Alexandru ; Reckinger, Nicolas ; Flandre, Denis ; Raskin, Jean-Pierre ; et. al. Tuning the surface conditioning of trapezoidally shaped silicon nanowires by (3-aminopropyl)triethoxysilane.. In: Applied Physics Letters, Vol. 104, no. 2, p. 023502 (4)
Permanent URL http://hdl.handle.net/2078.1/138025
  1. Cui Y., Nanowire Nanosensors for Highly Sensitive and Selective Detection of Biological and Chemical Species, 10.1126/science.1062711
  2. Noy Aleksandr, Bionanoelectronics, 10.1002/adma.201003751
  3. Penner Reginald M., Chemical Sensing with Nanowires, 10.1146/annurev-anchem-062011-143007
  4. Elibol O. H., Morisette D., Akin D., Denton J. P., Bashir R., Integrated nanoscale silicon sensors using top-down fabrication, 10.1063/1.1630853
  5. Talin A. Alec, Hunter Luke L., Léonard François, Rokad Bhavin, Large area, dense silicon nanowire array chemical sensors, 10.1063/1.2358214
  6. Park Inkyu, Li Zhiyong, Pisano Albert P, Williams R Stanley, Top-down fabricated silicon nanowire sensors for real-time chemical detection, 10.1088/0957-4484/21/1/015501
  7. Chen Songyue, Bomer Johan G., Carlen Edwin T., van den Berg Albert, Al2O3/Silicon NanoISFET with Near Ideal Nernstian Response, 10.1021/nl200623n
  8. Gao Anran, Lu Na, Dai Pengfei, Li Tie, Pei Hao, Gao Xiuli, Gong Yibin, Wang Yuelin, Fan Chunhai, Silicon-Nanowire-Based CMOS-Compatible Field-Effect Transistor Nanosensors for Ultrasensitive Electrical Detection of Nucleic Acids, 10.1021/nl202303y
  9. McAlpine Michael C., Ahmad Habib, Wang Dunwei, Heath James R., Highly ordered nanowire arrays on plastic substrates for ultrasensitive flexible chemical sensors, 10.1038/nmat1891
  10. Peng Kui-Qing, Wang Xin, Lee Shuit-Tong, Gas sensing properties of single crystalline porous silicon nanowires, 10.1063/1.3275794
  11. Paska Yair, Haick Hossam, Controlling properties of field effect transistors by intermolecular cross-linking of molecular dipoles, 10.1063/1.3266858
  12. Patolsky Fernando, Zheng Gengfeng, Lieber Charles M., Nanowire-Based Biosensors, 10.1021/ac069419j
  13. Knopfmacher O., Tarasov A., Fu Wangyang, Wipf M., Niesen B., Calame M., Schönenberger C., Nernst Limit in Dual-Gated Si-Nanowire FET Sensors, 10.1021/nl100892y
  14. Gao Zhiqiang, Agarwal Ajay, Trigg Alastair D., Singh Navab, Fang Cheng, Tung Chih-Hang, Fan Yi, Buddharaju Kavitha D., Kong Jinming, Silicon Nanowire Arrays for Label-Free Detection of DNA, 10.1021/ac061808q
  15. Duan Xuexin, Li Yue, Rajan Nitin K., Routenberg David A., Modis Yorgo, Reed Mark A., Quantification of the affinities and kinetics of protein interactions using silicon nanowire biosensors, 10.1038/nnano.2012.82
  16. Jiang Zhe, Qing Quan, Xie Ping, Gao Ruixuan, Lieber Charles M., Kinked p–n Junction Nanowire Probes for High Spatial Resolution Sensing and Intracellular Recording, 10.1021/nl300256r
  17. Wasserman Stephen R., Tao Yu Tai, Whitesides George M., Structure and reactivity of alkylsiloxane monolayers formed by reaction of alkyltrichlorosilanes on silicon substrates, 10.1021/la00088a035
  18. Alley R. L., Komvopoulos K., Howe R. T., Self‐assembled monolayer film for enhanced imaging of rough surfaces with atomic force microscopy, 10.1063/1.358408
  19. Calhoun M. F., Sanchez J., Olaya D., Gershenson M. E., Podzorov V., Electronic functionalization of the surface of organic semiconductors with self-assembled monolayers, 10.1038/nmat2059
  20. Zhang J.F., Eccleston B., Donor-like interface trap generation in pMOSFET's at room temperature, 10.1109/16.285026
  21. Das N R, Shinwari M W, Deen M J, Lee Jeong-Soo, Electron states in a silicon nanowire in the presence of surface potential and field, 10.1088/0957-4484/23/41/415201
  22. Deen M. J., Shinwari M. W., Ranuárez J. C., Landheer D., Noise considerations in field-effect biosensors, 10.1063/1.2355542
  23. Waleed Shinwari M., Jamal Deen M., Landheer Dolf, Study of the electrolyte-insulator-semiconductor field-effect transistor (EISFET) with applications in biosensor design, 10.1016/j.microrel.2006.10.003
  24. Guhathakurta Sanjukta, Subramanian Anuradha, Effect of Hydrofluoric Acid in Oxidizing Acid Mixtures on the Hydroxylation of Silicon Surface, 10.1149/1.2779951
  25. Grant N.E., McIntosh K.R., Passivation of a (100) Silicon Surface by Silicon Dioxide Grown in Nitric Acid, 10.1109/led.2009.2025898
  26. Simon A., Cohen-Bouhacina T., Porté M.C., Aimé J.P., Baquey C., Study of Two Grafting Methods for Obtaining a 3-Aminopropyltriethoxysilane Monolayer on Silica Surface, 10.1006/jcis.2002.8385
  27. Kim Joonyeong, Seidler Paul, Wan Lai Sze, Fill Catherine, Formation, structure, and reactivity of amino-terminated organic films on silicon substrates, 10.1016/j.jcis.2008.09.031
  28. Wong Hon-Sum, White Marvin H., Krutsick Thomas J., Booth Richard V., Modeling of transconductance degradation and extraction of threshold voltage in thin oxide MOSFET's, 10.1016/0038-1101(87)90132-8
  29. Haick Hossam, Hurley Patrick T., Hochbaum Allon I., Yang Peidong, Lewis Nathan S., Electrical Characteristics and Chemical Stability of Non-Oxidized, Methyl-Terminated Silicon Nanowires, 10.1021/ja056785w
  30. He Tao, He Jianli, Lu Meng, Chen Bo, Pang Harry, Reus William F., Nolte Whitney M., Nackashi David P., Franzon Paul D., Tour James M., Controlled Modulation of Conductance in Silicon Devices by Molecular Monolayers, 10.1021/ja063571l
  31. Aissaoui Nesrine, Bergaoui Latifa, Landoulsi Jessem, Lambert Jean-François, Boujday Souhir, Silane Layers on Silicon Surfaces: Mechanism of Interaction, Stability, and Influence on Protein Adsorption, 10.1021/la2036778
  32. Asenath Smith Emily, Chen Wei, How To Prevent the Loss of Surface Functionality Derived from Aminosilanes, 10.1021/la802234x
  33. Elfström Niklas, Linnros Jan, Avalanche breakdown in surface modified silicon nanowires, 10.1063/1.2779110