A. M. Thorne scite author profile

High-yield H-form trititanate nanotubes have been synthesized, and their structures have been characterized by using X-ray diffraction and high-resolution transmission electron microscopy. According to combined TGA/XRD studies, the nanotubes are not stable at high temperature. Thermal analysis suggests that the stoichiometry of the material is H(2)Ti(3)O(7).0.8H(2)O(abs). Conductivity measurements indicate that mainly protonic transport occurs at temperatures below 150 degrees C and that with increasing temperature and progressive breakdown of nanotubes and formation of crystalline TiO(2) phases protonic conductivity is lost, leaving only residual defect electronic conduction. The proton conductivity is ca. 5.5 x 10(-6) S cm(-1) at 300 K. The structural protons and trapped water were confirmed by solid-state NMR.

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Arcs in Inert Gases. II

Doan

Thorne

1934

Phys. Rev.

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Arcs in pure inert gases between electrodes of pure metals have been found impossible to maintain under ordinary conditions, whereas they are easy to maintain if the gas is slightly contaminated. (1) For highly purified iron in argon, helium and neon, and highly purified silver and zinc in argon, the arc discharge is inherently unstable. The cathode spot darts rapidly up and down the electrode, and finally goes out at values of open circuit voltage, short circuit current, pressure of the arc atmosphere, and electrode separation at which a stable arc is ordinarily obtained when slightly less pure elements are used. We conclude, therefore, that the degree of purity of the elements of metallic arcs in inert gases, and par-ticularly the degree of purity of the gas, determines the boundaries within which stable arcing may occur. Further, for elements of a high degree of purity the boundary values of the region of unstable operation are quite definite and readily determinable experimentally; beyond these boundaries much more stable arcs are encountered.(2) The extinction of an unstable arc is not characterized by any marked change in the current or voltage of the arc at the instant immediately preceding extinction. (3) Higher purity of the electrode material and of the inert atmosphere appears to move the voltage versus current curve in the direction of higher voltage.

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The Raman Spectra of Two Liquid Phases of Nitrobenzene

Thorne

Bayley

1932

Phys. Rev.

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A. M. Thorne

Formation, Structure, and Stability of Titanate Nanotubes and Their Proton Conductivity

Arcs in Inert Gases. II

The Raman Spectra of Two Liquid Phases of Nitrobenzene

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