Jae‐Hee Han scite author profile

Understanding the mechanisms by which vertical arrays of carbon nanotube (CNT) forests terminate their growth may lead to the production of aligned materials of infinite length. We confirm through calculation of the Thiele modulus that several prominent systems reported in the literature to date are not stunted by diffusion limitations. Evidence also suggests that, for many systems, the growth-termination mechanism is spatially correlated among nanotubes, making spontaneous, random catalytic poisoning unlikely as a dominant mechanism. We propose that a mechanical coupling of the top surface of the film creates an energetic barrier to the relative displacement between neighboring nanotubes. A Monte Carlo simulation based on this premise is able to qualitatively reproduce characteristic deflections of the top surface of single- and doubled-walled CNT (SWNT and DWNT) films near the edges and corners. The analysis asserts that the coupling is limited by the enthalpy of the carbon-forming reaction. We show that for patterned domains, the resulting top surface of the pillars is approximately conic with hyperbolic cross sections that allow for empirical calculation of a threshold force (F(max) = 34-51 nN for SWNTs, 25-27 nN for DWNTs) and elastic constant (k, 384-547 N/m for SWNTs and 157-167 N/m for DWNTs) from the images of experimentally synthesized films. Despite differences in nanotube type and precursor chemistry, the values appear consistent supporting the validity of the model. The possible origin of the mechanical coupling is discussed.

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Electrochemical Nanoneedle Biosensor Based on Multiwall Carbon Nanotube

Boo

Jeong

Park

et al. 2005

Anal. Chem.

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We report the fabrication and analytical functions of a biosensor based on a nanoneedle consisting of a multiwall carbon nanotube attached to the end of an etched tungsten tip. The devised electrode is the smallest needle-type biosensor reported to date. The nanoneedles prepared in this work are 30 nm in diameter and 2-3 microm in length. Dopamine and glutamate, which are physiologically important neurotransmitters, were successfully detected using these nanoneedles. Bare nanoneedles detected dopamine in the range from 100 to 1000 microM by differential pulse voltammetry, and enzyme-modified nanoneedles were able to respond to glutamate in the 100-500 microM range by potentiostatic amperometry.

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Jae‐Hee Han

Ionic Circuits Based on Polyelectrolyte Diodes on a Microchip

A Mechanochemical Model of Growth Termination in Vertical Carbon Nanotube Forests

Electrochemical Nanoneedle Biosensor Based on Multiwall Carbon Nanotube

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