Tanaka T, Jin HH, Miyata Y, Kataura H (2008) High-yield separation of metallic and semiconducting single-wall carbon nanotubes by agarose gel electrophoresis. Wu J et al (2012) Short channel field-effect transistors from highly enriched semiconducting carbon nanotubes. Liu HP, Tanaka T, Urabe Y, Kataura H (2013) High-efficiency single-chirality separation of carbon nanotubes using temperature-controlled gel chromatography. Tanaka T et al (2009) Simple and scalable gel-based separation of metallic and semiconducting carbon nanotubes. Ltd., SingaporeĪrnold MS, Green AA, Hulvat JF, Stupp SI, Hersam MC (2006) Sorting carbon nanotubes by electronic structure using density differentiation. Saito R, Dresselhaus G, Dresselhaous MS (1998) Physical properties of carbon nanotubes. ACS Nano 10:9816–9822įukaya N, Kim DY, Kishimoto S, Noda S, Ohno Y (2014) One-step sub-10 mum patterning of carbon-nanotube thin films for transparent conductor applications. ACS Nano 4:4388–4395Ĭao X et al (2016) Fully screen-printed, large-area, and flexible active-matrix electrochromic displays using carbon nanotube thin-film transistors. Ha MJ et al (2010) Printed, sub-3 V digital circuits on plastic from aqueous carbon nanotube inks. Takenobu T et al (2009) Ink-jet printing of carbon nanotube thin-film transistors on flexible plastic substrates. Hur SH et al (2005) Printed thin-film transistors and complementary logic gates that use polymer-coated single-walled carbon nanotube networks. Lin YH, Lu F, Wang J (2004) Disposable carbon nanotube modified screen-printed biosensor for amperometric detection of organophosphorus pesticides and nerve agents. ACS Nano 4:6659–6664Īsada Y et al (2010) High-performance thin-film transistors with DNA-assisted solution processing of isolated single-walled carbon nanotubes. Wang HL et al (2010) High-performance field effect transistors from solution processed carbon nanotubes. Kaskela A et al (2010) Aerosol-synthesized SWCNT networks with tunable conductivity and transparency by a dry transfer technique. Hu L, Hecht DS, Gruner G (2004) Percolation in transparent and conducting carbon nanotube networks. Sekitani T et al (2008) A rubberlike stretchable active matrix using elastic conductors. Laurila T, Sainio S, Caro MA (2017) Hybrid carbon based nanomaterials for electrochemical detection of biomolecules. Anal Bioanal Chem 375:287–293īesteman K, Lee JO, Wiertz FGM, Heering HA, Dekker C (2003) Enzyme-coated carbon nanotubes as single-molecule biosensors. Sensor Actuators B 255:1220–1227Ĭai H, Cao XN, Jiang Y, He PG, Fang YZ (2003) Carbon nanotube-enhanced electrochemical DNA biosensor for DNA hybridization detection. ![]() Xuan X, Park JY (2018) A miniaturized and flexible cadmium and lead ion detection sensor based on micro-patterned reduced graphene oxide/carbon nanotube/bismuth composite electrodes. Melzer K et al (2015) Flexible electrolyte-gated ion-selective sensors based on carbon nanotube networks. Ly SY (2008) Diagnosis of copper ions in vascular tracts using a fluorine-doped carbon nanotube sensor. ![]() Kim J, Yoo H, Ba VAP, Shin N, Hong S (2018) Dye-functionalized sol–gel matrix on carbon nanotubes for refreshable and flexible gas sensors. Woo CS et al (2007) Fabrication of flexible and transparent single-wall carbon nanotube gas sensors by vacuum filtration and poly(dimethyl siloxane) mold transfer. Chem Rev 108:2646–2687Ĭhopra S, McGuire K, Gothard N, Rao AM, Pham A (2003) Selective gas detection using a carbon nanotube sensor. McCreery RL (2008) Advanced carbon electrode materials for molecular electrochemistry. Science 305:1273–1276īradley K, Gabriel JCP, Gruner G (2003) Flexible nanotube electronics. Wu ZC et al (2004) Transparent, conductive carbon nanotube films. Sun DM et al (2013) Mouldable all-carbon integrated circuits. Sun DM et al (2011) Flexible high-performance carbon nanotube integrated circuits. Hu LB, Hecht DS, Gruner G (2010) Carbon nanotube thin films: fabrication, properties, and applications. Appl Phys Lett 82:2145–2147Ĭao Q et al (2008) Medium-scale carbon nanotube thin-film integrated circuits on flexible plastic substrates. Snow ES, Novak JP, Campbell PM, Park D (2003) Random networks of carbon nanotubes as an electronic material.
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