![]() Spatially resolved potential distribution in carbon nanotube cross junction devices. Electrical connectivity in single-walled carbon nanotube networks. Transparent conductive single-walled carbon nanotube networks with precisely tunable ratios of semiconducting and metallic nanotubes. Field-effect modulation of contact resistance between carbon nanotubes. Nanoscale study of conduction through carbon nanotube networks. 1/ f noise and percolation in carbon nanotube random networks. 1/ f noise in single-walled carbon nanotube devices. Extremely bendable, high-performance integrated circuits using semiconducting carbon nanotube networks for digital, analog, and radio-frequency applications. Gate capacitance coupling of singled-walled carbon nanotube thin-film transistors. Reduction of hysteresis for carbon nanotube mobility measurements using pulsed characterization. Hysteresis caused by water molecules in carbon nanotube field-effect transistors. Materials and fabrication needs for low-cost organic transistor circuits. Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles Wiley-Interscience: New York, 1982.īao, Z. A new thermophoretic precipitator for collection of nanometer-sized aerosol particles. Novel carbon nanotube network deposition technique for electronic device fabrication. Single-walled carbon nanotube synthesis using ferrocene and iron pentacarbonyl in a laminar flow reactor. Limits of performance gain of aligned CNT over randomized network: theoretical predictions and experimental validation. Experimental and theoretical studies of transport through large scale, partially aligned arrays of single-walled carbon nanotubes in thin film type transistors. ![]() Solution assembly of organized carbon nanotube networks for thinfilm transistors. Optimizing transistor performance of percolating carbon nanotube networks. Fundamental limits on the mobility of nanotube based semiconducting inks. ![]() Multifunctional free-standing single-walled carbon nanotube films. Aerosol-synthesized SWCNT networks with tunable conductivity and transparency by a dry transfer technique. Carbon nanotube thin film transistors based on aerosol methods. High-performance semiconducting nanotube inks: Progress and prospects. Length-sorted semiconducting carbon nanotubes for high-mobility thin film transistors. Scalable complementary logic gates with chemically doped semiconducting carbon nanotube transistors. Printed, sub-3V digital circuits on plastic from aqueous carbon nanotube inks. Wafer-scale fabrication of separated carbon nanotube thin-film transistors for display applications. Thin film nanotube transistors based on self-assembled, aligned, semiconducting carbon nanotube arrays. Transparent and flexible carbon nanotube transistors. Chemical vapor deposition of carbon nanotubes: A review on growth mechanism and mass production. Flexible high-performance carbon nanotube integrated circuits. Medium-scale carbon nanotube thin-film integrated circuits on flexible plastic substrates. Random networks of carbon nanotubes as an electronic material. Our results provide new insight into the role of the network morphologies and offer paths towards tunable transport properties in CNT thin film transistors. Among the four deposition methods thermal precipitation is found to be a novel approach to prepare high-performance, partially aligned CNTNs that are dry-deposited directly after their synthesis. We study the mobility using pulsed measurements to avoid hysteresis, the on/off ratio, and the electrical noise properties of the CNTNs, and correlate them to the network morphology through careful imaging. We use four CNT deposition techniques: electrostatic or thermal precipitation, and filtration through a filter followed by press transfer or dissolving the filter. Here, we synthesize single-walled CNTs using an aerosol (floating catalyst) chemical vapor deposition process and deposit CNTs at room temperature onto substrates as random networks with various morphologies. ![]() The properties of electronic devices based on carbon nanotube networks (CNTNs) depend on the carbon nanotube (CNT) deposition method used, which can yield a range of network morphologies.
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