연구동향 분석
박사

A Study on Highly Sensitive Silicon-Nanowire BioFETs with Nanonet Structures : 나노그물 구조를 적용한 고감도 실리콘 나노선 BioFETs에 관한 연구

김기현 2015년

논문상세정보
인용/피인용
' A Study on Highly Sensitive Silicon-Nanowire BioFETs with Nanonet Structures : 나노그물 구조를 적용한 고감도 실리콘 나노선 BioFETs에 관한 연구' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • biofet
  • biosensor
  • nanonet
  • nanowire
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
171 0

0.0%

' A Study on Highly Sensitive Silicon-Nanowire BioFETs with Nanonet Structures : 나노그물 구조를 적용한 고감도 실리콘 나노선 BioFETs에 관한 연구' 의 참고문헌

  • Z. Li, Y. Chen, X. Li, T. I. Kamins, K. Nauka, and R. S. Williams,"Sequence-Specific Label-Free DNA Sensors Based on SiliconNanowires," Nano Letters, vol. 4, no. 2, pp. 245-247, Feb. 2004.
  • Y. Sun, Q. Chen, and N. Pugno, "Elastic and transport properties of thetailorable multifunctional hierarchical honeycombs," CompositeStructures, vol. 107, pp. 698-710, Jan. 2014.
  • Y. Cui, Q. Wei, H. Park, and C. M. Lieber, "Nanowire Nanosensors forHighly Sensitive and Selective Detection of Biological and ChemicalSpecies," Science, vol. 293, no. 5533, pp. 1289-1292, Aug. 2001.
  • Y. Cheng, K. S. Chen, N. L. Meyer, J. Yuan, L. S. Hirst, P. B. Chase, andP. Xiong, "Functionalized SnO2 nanobelt field-effect transistor sensorsfor label-free detection of cardiac troponin," Biosensors andBioelectronics, vol. 26, no. 11, pp. 4538-4544, Jul. 2011.
  • X. T. Zhou, J. Q. Hu, C. P. Li, D. D. D. Ma, C. S. Lee, and S. T. Lee,"Silicon nanowires as chemical sensors," Chemical Physics Letters, vol.369, no. 1-2, pp. 220-224, Feb. 2003.
  • X. P. A. Gao, G. Zheng, and C. M. Lieber, "Subthreshold Regime has theOptimal Sensitivity for Nanowire FET Biosensors," Nano Letters, vol. 10,no. 2, pp. 547-552, Feb. 2009.
  • X. Cao, S. Liu, Q. Feng, and N. Wang, "Silver nanowire-basedelectrochemical immunoassay for sensing immunoglobulin G with signalamplification using strawberry-like ZnO nanostructures as labels,"Biosensors and Bioelectronics, vol. 49, pp. 256-262, Nov. 2013.
  • W.-J. Kim, B. K. Kim, A. Kim, C. Huh, C. S. Ah, K.-H. Kim, J. Hong, S.H. Park, S. Song, J. Song, and G. Y. Sung, "Response to Cardiac Markersin Human Serum Analyzed by Guided-Mode Resonance Biosensor,"Analytical Chemistry, vol. 82, no. 23, pp. 9686-9693, Dec. 2010.
  • W. W. Fang, N. Singh, L. K. Bera, H. S. Nguyen, S. C. Rustagi, G. Q. Lo,N. Balasubramanian, and D.-L. Kwong, "Vertically Stacked SiGeNanowire Array Channel CMOS Transistors," IEEE Electron DeviceLetters, vol. 28, no. 3, pp. 211-213, Mar. 2007.
  • W. Shen, D. Tian, H. Cui, D. Yang, and Z. Bian, "Nanoparticle-basedelectrochemiluminescence immunosensor with enhanced sensitivity forcardiac troponin I using N-(aminobutyl)-N-(ethylisoluminol)-functionalized gold nanoparticles as labels," Biosensors andBioelectronics, vol. 27, no. 1, pp. 18-24, Jun. 2011.
  • W. Park, W.-K. Hong, G. Jo, G. Wang, M. Choe, J. Maeng, Y. H. Kahng,and T. Lee, "Tuning of operation mode of ZnO nanowire field effecttransistors by solvent-driven surface treatment," Nanotechnology, vol. 20,no. 47, pp. 475702-475702-6, Oct. 2009.
  • W. M. v. Spengen, R. Puers, and I. D. Wolf, "A physical model to predictstiction in MEMS," Journal of Micromechanics and Microengineering,vol. 12, no. 5, pp. 702-713, Aug. 2002.
  • W. H. Baumann, M. Lehmann, A. Schwinde, R. Ehret, M. Brischwein,and B. Wolf, "Microelectronic sensor system for microphysiologicalapplication on living cells," Sensors and Actuators B: Chemical, vol. 55,no. 1, pp. 77-89, Apr. 1999.
  • V. S. Mahajan and P. Jarolim, "How to Interpret Elevated CardiacTroponin Levels," Circulation, vol. 124, no. 21, pp. 2350-2354, Nov.2011.
  • T.-M. Pan, J.-C. Lin, M.-H. Wu, and C.-S. Lai, "Study of high-k Er2O3thin layers as ISFET sensitive insulator surface for pH detection,"Sensors and Actuators B: Chemical, vol. 138, no. 2, pp. 619-624, May2009.
  • T. W. Lin, P. J. Hsieh, C. L. Lin, Y. Y. Fang, J. X. Yang, C. C. Tsai, P. L.Chiang, C. Y. Pan, and Y. T. Chen, "Label-free detection of proteinproteininteractions using a calmodulin-modified nanowire transistor,"Proceedings of the National Acadamy of Sciences U. S. A., vol. 107, no. 3,pp. 1047-1052, Jan. 2010.
  • T. W. Healy and L. R. White, "Ionizable surface group models ofaqueous interfaces," Advances in Colloid and Interface Science, vol. 9, no.4, pp. 303-345, Jun. 1978.
  • T. Rim, K. Kim, S. Kim, C.-K. Baek, M. Meyyappan, Y.-H. Jeong, andJ.-S. Lee, "Improved Electrical Characteristics of Honeycomb NanowireISFETs," IEEE Electron Device Letters, vol. 34, no. 8, pp. 1059-1061,Aug. 2013.
  • T. Rim, K. Kim, N. Hong, W. Ko, C.-K. Baek, S. Jeon, M. J. Deen, M.Meyyappan, Y.-H. Jeong, and J.-S. Lee, "Investigation of the electricalstability of Si-nanowire biologically sensitive field-effect transistors withembedded Ag/AgCl pseudo reference electrode," RSC Advances, vol. 3,no. 21, pp. 7963-7969, Mar. 2013.
  • T. M. Squires, R. J. Messinger, and S. R. Manalis, "Making it stick:convection, reaction and diffusion in surface-based biosensors," NatureBiotechnology h, vol. 26, no. 4, pp. 417-426, Apr. 2008.
  • T. Kong, R. Su, B. Zhang, Q. Zhang, and G. Cheng, "CMOS-compatible,label-free silicon-nanowire biosensors to detect cardiac troponin I foracute myocardial infarction diagnosis," Biosensors and Bioelectronics,vol. 34, no. 1, pp. 267-272, Apr. 2012.
  • S. Zhang, L. Lou, W.-T. Park, and C. Lee, "Characterization of a siliconnanowire-based cantilever air-flow sensor," Journal of Micromechanicsand Microengineering, vol. 22, no. 9, pp. 095008-095008-13, Jul. 2012.
  • S. S. Iqbal, M. W. Mayo, J. G. Bruno, B. V. Bronk, C. A. Batt, and J. P.Chambers, "A review of molecular recognition technologies for detectionof biological threat agents," Biosensors and Bioelectronics, vol. 15, no.11-12, pp. 549-578, Dec. 2000.
  • S. Roy and Z. Gao, "Nanostructure-based electrical biosensors," NanoToday, vol. 4, no. 4, pp. 318-334, Aug. 2009.
  • S. Rigante, L. Lattanzio, and A. M. Ionescu, "FinFET for high sensitivityion and biological sensing applications," Microelectronic Engineering,vol. 88, no. 8, pp. 1864-1866, Aug. 2011.
  • S. Kim, T. Rim, K. Kim, U. Lee, E. Baek, H. Lee, C.-K. Baek, M.Meyyappan, M. J. Deen, and J.-S. Lee, "Silicon nanowire ion sensitivefield effect transistor with integrated Ag/AgCl electrode: pH sensing andnoise characteristics," Analyst, vol. 136, no. 23, pp. 5012-5016, Dec.2011.
  • S. Huang, H. Yang, R. S. Lakshmanan, M. L. Johnson, J. Wan, I. H.Chen, H. C. Wikle, V. A. Petrenko, J. M. Barbaree, and B. A. Chin,"Sequential detection of Salmonella typhimurium and Bacillus anthracisspores using magnetoelastic biosensors," Biosensors and Bioelectronics,vol. 24, no. 6, pp. 1730-1736, Feb. 2009.
  • S. Hideshima, H. Einati, T. Nakamura, S. Kuroiwa, Y. Shacham-Diamand, and T. Osaka, "Theoretical Optimization Method of BufferIonic Concentration for Protein Detection Using Field EffectTransistors," Journal of The Electrochemical Society, vol. 157, no. 12, pp.J410-J414, Dec. 2010.
  • S. E. Melanson, M. J. Conrad, N. Mosammaparast, and P. Jarolim,"Implementation of a highly sensitive cardiac troponin I assay: testvolumes, positivity rates and interpretation of results," Clinica ChimicaActa, vol. 395, no. 1-2, pp. 57-61, Sep. 2008.
  • S. Caras and J. Janata, "Field effect transistor sensitive to penicillin,"Analytical Chemistry, vol. 52, no. 12, pp. 1935-1937, Oct. 1980.
  • R.-H. Kim and G. Cho, "Effectiveness of the Smart Healthcare GloveSystem for Elderly Persons with Hypertension," Human Factors andErgonomics in Manufacturing & Service Industries, vol. 23, no. 3, pp.198-212, May 2013.
  • R. Xie, N. Wu, C. Shen, and C. Zhu, "Asymmetric Energy Distribution ofInterface Traps in Germanium MOSFETs with HfO2 Gate Dielectric,"ECS Transactions, vol. 16, no. 10, pp. 175-180, Oct. 2008.
  • R. Maboudian and R. T. Howe, "Critical Review: Adhesion in surfacemicromechanical structures," Journal of Vacuum Science & TechnologyB, vol. 15, no. 1, pp. 1-20, Nov. 1997.
  • R. E. G. v. Hal, J. C. T. Eijkel, and P. Bergveld, "A novel description ofISFET sensitivity with the buffer capacity and double-layer capacitanceas key parameters," Sensors and Actuators B: Chemical, vol. 24, no. 1-3,pp. 201-205, Mar. 1995.
  • Q. Chen, N. Pugno, K. Zhao, and Z. Li, "Mechanical properties of ahollow-cylindrical-joint honeycomb," Composite Structures, vol. 109, pp.68-74, Mar. 2014.
  • P. R. Nair and M. A. Alam, "Performance limits of nanobiosensors,"Applied Physics Letters, vol. 88, no. 23, pp. 233120-233120-3, Jun. 2006.
  • P. M. Ridker, R. J. Glynn, and C. H. Hennekens, "C-Reactive ProteinAdds to the Predictive Value of Total and HDL Cholesterol inDetermining Risk of First Myocardial Infarction," Circulation, vol. 97,no. 20, pp. 2007-2011, May 1998.
  • P. E. Sheehan and L. J. Whitman, "Detection Limits for NanoscaleBiosensors," Nano Letters, vol. 5, no. 4, pp. 803-807, Apr. 2005.
  • P. Bergveld, "Thirty years of ISFETOLOGY: What happened in the past30 years and what may happen in the next 30 years," Sensors andActuators B: Chemical, vol. 88, no. 1, pp. 1-20, Jan. 2003.
  • P. Bergveld, "The operation of an ISFET as an electronic device,"Sensors and Actuators, vol. 1, pp. 17-29, 1981.
  • P. Bergveld, "Development, Operation, and Application of the Ion-Sensitive Field-Effect Transistor as a Tool for Electrophysiology," IEEETransactions on Biomedical Engineering, vol. BME-19, no. 5, pp. 342-351, Sep. 1972.
  • P. Bergveld, "Development of an Ion-Sensitive Solid-State Device forNeurophysiological Measurements," IEEE Transactions on BiomedicalEngineering, , vol. BME-17, no. 1, pp. 70-71, Jan. 1970.
  • O. S. Lawal, K. O. Adebowale, B. M. Ogunsanwo, O. A. Sosanwo, and S.A. Bankole, "On the functional properties of globulin and albuminprotein fractions and flours of African locust bean (Parkia biglobossa),"Food Chemistry, vol. 92, no. 4, pp. 681-691, Oct. 2005.
  • O. Knopfmacher, A. Tarasov, W. Fu, M. Wipf, B. Niesen, M. Calame,and C. Schonenberger, "Nernst Limit in Dual-Gated Si-Nanowire FETSensors," Nano Letters, vol. 10, no. 6, pp. 2268-2274, Jun. 2010.
  • N. Singh, A. Agarwal, L. K. Bera, T. Y. Liow, R. Yang, S. C. Rustagi, C.H. Tung, R. Kumar, G. Q. Lo, N. Balasubramanian, and D.-L. Kwong,"High-performance fully depleted silicon nanowire (diameter ? 5 nm)gate-all-around CMOS devices," IEEE Electron Device Letters, vol. 27,no. 5, pp. 383-386, May 2006.
  • N. R. Sahyoun, H. Lentzner, D. Hoyert, and K. N. Robinson, "Trends incauses of death among the elderly," Aging Trends, no. 1, pp. 1-10, Mar.2001.
  • N. Lloret, R. S. Frederiksen, T. C. M ller, N. I. Rieben, S. Upadhyay, L.D. Vico, J. H. Jensen, J. Nygard, and K. L. Martinez, "Effects of buffercomposition and dilution on nanowire field-effect biosensors,"Nanotechnology, vol. 24, no. 3, pp. 035501-0.35501-9, Jan. 2013.
  • N. K. Rajan, D. A. Routenberg, J. Chen, and M. A. Reed, "1/f Noise ofSilicon Nanowire BioFETs," Electron Device Letters, IEEE ElectronDevice Letters, vol. 31, no. 6, pp. 615-617, Jun. 2010.
  • N. Agoulmine, M. J. Deen, J.-S. Lee, and M. Meyyappan, "U-HealthSmart Home," IEEE Nanotechnology Magazine, vol. 5, no. 3, pp. 6-11,Sep. 2011.
  • N. Agoulmine, K. Kim, S. Kim, T. Rim, J.-S. Lee, and M. Meyyappan,"Enabling communication and cooperation in bio-nanosensor networks:toward innovative healthcare solutions," IEEE Wireless Communications,vol. 19, no. 5, pp. 42-51, Oct. 2012.
  • M. Zhang, M. R. Haider, M. A. Huque, M. A. Adeeb, S. Rahman, and S.K. Islam, "A low power sensor signal processing circuit for implantablebiosensor applications," Smart Materials and Structures, vol. 16, no. 2,pp. 525-530, Mar. 2007.
  • M. Wang, X. Qiu, and X. Zhang, "Mechanical properties of superhoneycomb structures based on carbon nanotubes," Nanotechnology, vol.18, no. 7, pp. 075711-075711-6, Jan. 2007.
  • M. Nichols, N. Townsend, P. Scarborough, and M. Rayner,"Cardiovascular disease in Europe: epidemiological update," EuropeanHeart Journal, vol. 34, no. 39, pp. 3028-3034, Oct. 2013.
  • M. M.-C. Cheng, G. Cuda, Y. L. Bunimovich, M. Gaspari, J. R. Heath, H.D. Hill, C. A. Mirkin, A. J. Nijdam, R. Terracciano, T. Thundat, and M.Ferrari, "Nanotechnologies for biomolecular detection and medicaldiagnostics," Current Opinion in Chemical Biology, vol. 10, no. 1, pp.11-19, Feb. 2006.
  • M. L. Phelan and S. Nock, "Generation of bioreagents for protein chips,"PROTEOMICS, vol. 3, no. 11, pp. 2123-2134, Nov. 2003.
  • M. Curreli, R. Zhang, F. N. Ishikawa, H.-K. Chang, R. J. Cote, C. Zhou,and M. E. Thompson, "Real-Time, Label-Free Detection of BiologicalEntities Using Nanowire-Based FETs," IEEE Transactions onNanotechnology, vol. 7, no. 6, pp. 651-667, Nov. 2008.
  • L. Bousse, N. F. De Rooij, and P. Bergveld, "The influence of counterionadsorption on the 0/pH characteristics of insulator surfaces," SurfaceScience, vol. 135, no. 1-3, pp. 479-496, Dec. 1983.
  • L. Bousse, N. F. De Rooij, and P. Bergveld, "Operation of chemicallysensitive field-effect sensors as a function of the insulator-electrolyteinterface," IEEE Transactions on Electron Devices, vol. 30, no. 10, pp.1263-1270, Oct. 1983.
  • L. Bousse, N. F. D. Rooij, and P. Bergveld, "Operation of chemicallysensitive field-effect sensors as a function of the insulator-electrolyteinterface," IEEE Transactions on Electron Devices, vol. 30, no. 10, pp.1263-1270, Oct. 1983.
  • K.-S. Shin, A. Pan, and C. O. Chui, "Channel length dependentsensitivity of Schottky contacted silicon nanowire field-effect transistorsensors," Applied Physics Letters, vol. 100, no.12, pp. 123504-123504-4,Mar. 2012.
  • K.-N. Lee, S.-W. Jung, K.-S. Shin, W.-H. Kim, M.-H. Lee, and W.-K.Seong, "Fabrication of Suspended Silicon Nanowire Arrays," Small, vol.4, no. 5, pp. 642-648, May 2008.
  • K.-I. Chen, B.-R. Li, and Y.-T. Chen, "Silicon nanowire field-effecttransistor-based biosensors for biomedical diagnosis and cellularrecording investigation," Nano Today, vol. 6, no. 2, pp. 131-154, Apr.2011.
  • K. Kim, T. Rim, C. Park, D. Kim, M. Meyyappan, and J.-S. Lee,"Suspended honeycomb nanowire ISFETs for improved stiction-freeperformance," Nanotechnology, vol. 25, no. 34, pp. 345501-345501-7,Aug. 2014.
  • K. Eriguchi, A. Matsuda, Y. Takao, and K. Ono, "Effects of straggling ofincident ions on plasma-induced damage creation in fin -type fieldeffecttransistors," Japanese Journal of Applied Physics, vol. 53, no. 3S2,pp. 03DE02-03DE02-6, Mar. 2014.
  • K. B. Oldham, "A Gouy?Chapman?Stern model of the double layer at a(metal)/(ionic liquid) interface," Journal of Electroanalytical Chemistry,vol. 613, no. 2, pp. 131-138, Feb. 2008.
  • J.-i. Hahm and C. M. Lieber, "Direct Ultrasensitive Electrical Detectionof DNA and DNA Sequence Variations Using Nanowire Nanosensors,"Nano Letters, vol. 4, no. 1, pp. 51-54, Jan. 2004.
  • J.-W. Han, D.-I. Moon, and Y.-K. Choi, "High Aspect Ratio SiliconNanowire for Stiction Immune Gate-All-Around MOSFETs," IEEEElectron Device Letters, vol. 30, no. 8, pp. 864-866, Aug. 2009.
  • J.-H. Ahn, S.-J. Choi, J.-W. Han, T. J. Park, S. Y. Lee, and Y.-K. Choi,"Double-Gate Nanowire Field Effect Transistor for a Biosensor," NanoLetters, vol. 10, no. 8, pp. 2934-2938, Aug. 2010.
  • J. L. Diot, J. Joseph, J. R. Martin, and P. Clechet, "pH dependence of theSi/SiO2 interface state density for EOS systems: Quasi-static and ACconductance methods," Journal of Electroanalytical Chemistry andInterfacial Electrochemistry, vol. 193, no. pp. 75-88, Oct. 1985.
  • J. Breckling, The analysis of directional time series: applications to windspeed and direction, Springer-Verlag, 1989.
  • I. Lee, X. Luo, X. T. Cui, and M. Yun, "Highly sensitive singlepolyaniline nanowire biosensor for the detection of immunoglobulin Gand myoglobin," Biosensors and Bioelectronics, vol. 26, no. 7, pp. 3297-3302, Mar. 2011.
  • H. Guo, N. He, S. Ge, D. Yang, and J. Zhang, "MCM-41 mesoporousmaterial modified carbon paste electrode for the determination of cardiactroponin I by anodic stripping voltammetry," Talanta, vol. 68, no. 1, pp.61-66, Nov. 2005.
  • H. Guo, J. Zhang, P. Xiao, L. Nie, D. Yang, and N. He, "Determinationof Cardiac Troponin I for the Auxiliary Diagnosis of Acute MyocardialInfarction by Anodic Stripping Voltammetry at a Carbon PasteElectrode," Journal of Nanoscience and Nanotechnology, vol. 5, no. 8, pp.1240-1244, Aug. 2005.
  • G.-J. Zhang, L. Zhang, M. J. Huang, Z. H. H. Luo, G. K. I. Tay, E.-J. A.Lim, T. G. Kang, and Y. Chen,"Silicon nanowire biosensor for highlysensitive and rapid detection of Dengue virus," Sensors and Actuators B:Chemical, vol. 146, no. 1, pp. 138-144, Apr. 2010.
  • G.-J. Zhang, G. Zhang, J. H. Chua, R.-E. Chee, E. H. Wong, A. Agarwal,K. D. Buddharaju, N. Singh, Z. Gao, and N. Balasubramanian, "DNASensing by Silicon Nanowire: Charge Layer Distance Dependence,"Nano Letters, vol. 8, no. 4, pp. 1066-1070, Apr. 2008.
  • G. Zheng, F. Patolsky, and C. M. Lieber, "Multiplexed ElectricalDetection of Single Viruses," MRS Online Proceedings Library, vol. 828,pp. A2-2, 2004.
  • G. Zheng, F. Patolsky, Y. Cui, W. U. Wang, and C. M. Lieber,"Multiplexed electrical detection of cancer markers with nanowire sensorarrays," Nature Biotechnology, vol. 23, no. 10, pp. 1294-1301, Sep. 2005.
  • G. Zheng and C. M. Lieber, "Nanowire Biosensors for Label-Free, Real-Time, Ultrasensitive Protein Detection," Methods in Molecular Biology,vol. 790, pp. 223-237, Aug. 2011.
  • G. S. Kulkarni and Z. Zhong, "Detection beyond the Debye ScreeningLength in a High-Frequency Nanoelectronic Biosensor," Nano Letters,vol. 12, no. 2, pp. 719-723, Feb. 2012.
  • G. Joucla, C. Le Senechal, M. Begorre, B. Garbay, X. Santarelli, and C.Cabanne, "Cation exchange versus multimodal cation exchange resins forantibody capture from CHO supernatants: Identification of contaminatingHost Cell Proteins by mass spectrometry," Journal of Chromatography B,vol. 942?943, pp. 126-133, Dec. 2013.
  • F. Patolsky, G. Zheng, O. Hayden, M. Lakadamyali, X. Zhuang, and C.M. Lieber, "Electrical detection of single viruses," Proceedings of theNational Academy of Sciences of the United States of America, vol. 101,no. 39, pp. 14017-14022, Sep. 2004.
  • E. Stern, R. Wagner, F. J. Sigworth, R. Breaker, T. M. Fahmy, and M. A.Reed, "Importance of the Debye Screening Length on Nanowire FieldEffect Transistor Sensors," Nano Letters, vol. 7, no. 11, pp. 3405-3409,Nov. 2007.
  • E. Stern, J. F. Klemic, D. A. Routenberg, P. N. Wyrembak, D. B. Turner-Evans, A. D. Hamilton, D. A. Lavan, T. M. Fahmy, and M. A. Reed,,"Label-free immunodetection with CMOS-compatible semiconductingnanowires," Nature, vol. 445, no. 7127, pp. 519-522, Feb. 2007.
  • E. Stern, A. Vacic, C. Li, F. N. Ishikawa, C. Zhou, M. A. Reed, and T. M.Fahmy, "A nanoelectronic enzyme-linked immunosorbent assay fordetection of proteins in physiological solutions," Small, vol. 6, no. 2, pp.232-238, Jan. 2010.
  • E. Peronnet, L. Becquart, J. Martinez, J. P. Charrier, and C. Jolivet-Reynaud, "Isoelectric point determination of cardiac troponin I formspresent in plasma from patients with myocardial infarction," ClinicaChimica Acta, vol. 377, no. 1-2, pp. 243-247, Feb. 2007.
  • E. Buitrago, M. F.-B. Badia, Y. M. Georgiev, R. Yu, O. Lotty, J. D.Holmes, A. M. Nightingale, H. M. Guerin, and A. M. Ionescu, "Electricalcharacterization of high performance, liquid gated vertically stackedSiNW-based 3D FET biosensors," Sensors and Actuators B: Chemical,vol. 199, pp. 291-300, Aug. 2014.
  • E. Buitrago, M. F.-B. Badia, Y. M. Georgiev, R. Yu, O. Lotty, J. D.Holmes, A. M. Nightingale, H. M. Guerin, A. M. Ionescu, "Electricalcharacterization of high performance, liquid gated vertically stackedSiNW-based 3D FET biosensors," Sensors and Actuators B: Chemical,vol. 199, pp. 291-300, Aug. 2014.
  • E. A. Padlan, "Structural basis for the specificity of antibody?antigenreactions and structural mechanisms for the diversification of antigenbindingspecificities," Quarterly Reviews of Biophysics, vol. 10, no. 1, pp.35-65, Feb. 1977.
  • D. Zhang, Z. Liu, C. Li, T. Tang, X. Liu, S. Han, B. Lei, and C. Zhou,"Detection of NO2 down to ppb Levels Using Individual and MultipleIn2O3 Nanowire Devices," Nano Letters, vol. 4, no. 10, pp. 1919-1924,Oct. 2004.
  • D. R. Kim and X. Zheng, "Numerical Characterization and Optimizationof the Microfluidics for Nanowire Biosensors," Nano Letters, vol. 8, no.10, pp. 3233-3237, Oct. 2008.
  • D. J. Late, B. Liu, H. S. S. R. Matte, V. P. Dravid, and C. N. R. Rao,"Hysteresis in Single-Layer MoS2 Field Effect Transistors," ACS Nano,vol. 6, no. 6, pp. 5635-5641, Jun. 2012.
  • D. Grieshaber, R. MacKenzie, J. Voros, and E. Reimhult,"Electrochemical Biosensors - Sensor Principles and Architectures,"Sensors, vol. 8, no. 3, pp. 1400-1458, Mar. 2008.
  • D. E. Yates, S. Levine, and T. W. Healy, "Site-binding model of theelectrical double layer at the oxide/water interface," Journal of theChemical Society, Faraday Transactions 1: Physical Chemistry inCondensed Phases, vol. 70, pp. 1807-1818, Nov. 1974.
  • C. P. Chen, A. Ganguly, C. Y. Lu, T. Y. Chen, C. C. Kuo, R. S. Chen, W.H. Tu, W. B. Fischer, K. H. Chen, and L. C. Chen, "Ultrasensitive in situlabel-free DNA detection using a GaN nanowire-based extended-gatefield-effect-transistor sensor," Analytical Chemistry, vol. 83, no. 6, pp.1938-1943, Mar. 2011.
  • C. Jimenez-Jorquera, J. Orozco, and A. Baldi, "ISFET BasedMicrosensors for Environmental Monitoring," Sensors, vol. 10, no. 1, pp.61-83, Dec. 2009.
  • C. H. Mastrangelo and C. H. Hsu, "Mechanical stability and adhesion ofmicrostructures under capillary forces-Part I: Basic theory," Journal ofMicroelectromechanical Systems, vol. 2, no. 1, pp. 33-43, Mar. 1993.
  • C. H. Kim, J. H. Ahn, J. Y. Kim, J. M. Choi, K. C. Lim, T. J. Park, N. S.Heo, H. G. Lee, J. W. Kim, and Y. K. Choi, "CRP detection from serumfor chip-based point-of-care testing system," Biosensors andBioelectronics, vol. 41, pp. 322-327, Mar. 2013.
  • B. Zhang, A. W. Morales, R. Peterson, L. Tang, and J. Y. Ye, "Label-freedetection of cardiac troponin I with a photonic crystal biosensor,"Biosensors and Bioelectronics, vol. 58, pp. 107-113, Aug. 2014.
  • B. Yu, L. Wang, Y. Yuan, P. M. Asbeck, and T. Yuan, "Scaling ofNanowire Transistors," IEEE Transactions on Electron Devices, vol. 55,no. 11, pp. 2846-2858, Nov. 2008.
  • B. McDonnell, S. Hearty, P. Leonard, and R. O'Kennedy, "Cardiacbiomarkers and the case for point-of-care testing," Clinical Biochemistry,vol. 42, no. 7-8, pp. 549-561, May 2009.
  • A. Vacic, J. M. Criscione, N. K. Rajan, E. Stern, T. M. Fahmy, and M. A.Reed, "Determination of Molecular Configuration by Debye LengthModulation," Journal of the American Chemical Society, vol. 133, no. 35,pp. 13886-13889, Sep. 2011.
  • A. Poghossian, A. Cherstvy, S. Ingebrandt, A. Offenhausser, and M. J.Schoning, "Possibilities and limitations of label-free detection of DNAhybridization with field-effect-based devices," Sensors and Actuators B:Chemical, vol. 111?112, pp. 470-480, Nov. 2005.
  • A. Periyakaruppan, R. P. Gandhiraman, M. Meyyappan, and J. E. Koehne,"Label-free detection of cardiac troponin-I using carbon nanofiber basednanoelectrode arrays," Analytical Chemistry, vol. 85, no. 8, pp. 3858-3863, Apr. 2013.
  • A. Noy, "Bionanoelectronics," Advanced Materials, vol. 23, no. 7, pp.807-820, Feb. 2011.
  • A. Kim, C. S. Ah, H. Y. Yu, J.-H. Yang, I.-B. Baek, C.-G. Ahn, C. W.Park, M. S. Jun, and S. Lee, "Ultrasensitive, label-free, and real-timeimmunodetection using silicon field-effect transistors," Applied PhysicsLetters, vol. 91, no. 10, pp. 103901-103901-3, Sep. 2007.
  • A. K. Wanekaya, W. Chen, N. V. Myung, and A. Mulchandani,"Nanowire-Based Electrochemical Biosensors," Electroanalysis, vol. 18,no. 6, pp. 533-550, Jan. 2006.
  • A. I. Boukai, Y. Bunimovich, J. Tahir-Kheli, J.-K. Yu, W. A. Goddard , and J. R. Heath, "Silicon nanowires as efficient thermoelectricmaterials," Nature, vol. 451, no. 10, pp. 168-171, Jan. 2008.
  • A. Gao, N. Lu, Y. Wang, P. Dai, T. Li, X. Gao, Y. Wang, and C. Fan,"Enhanced Sensing of Nucleic Acids with Silicon Nanowire Field EffectTransistor Biosensors," Nano Letters, vol. 12, no. 10, pp. 5262-5268, Oct.2012.
  • A. Gao, N. Lu, P. Dai, T. Li, H. Pei, X. Gao, Y. Gong, Y. Wang, and C.Fan,"Silicon-Nanowire-Based CMOS-Compatible Field-Effect TransistorNanosensors for Ultrasensitive Electrical Detection of Nucleic Acids,"Nano Letters, vol. 11, no. 9, pp. 3974-3978, Sep. 2011.
  • ?[1] Health at a Glance 2013, OECD, 2013.