J.K. Walters scite author profile

A range of amorphous hydrogenated carbon (a-C:H) samples have been studied using inelastic neutron spectroscopy (INS) and Fourier transform infrared (FTIR) spectroscopy. Using these complementary techniques, the bonding environments of both carbon and hydrogen can be probed in some detail, with the INS data providing not only qualitative but also quantitative information. By comparing the data from each of the samples we have been able to examine the effects of different deposition conditions, i.e. precursor gas, deposition energy and deposition method, on the atomic-scale structure of a-C:H.

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An atomic-scale study of the role of titanium in TiO2:SiO2 sol-gel materials

Walters¹,

Rigden²,

Dirken³

et al. 1997

Chemical Physics Letters

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The atomic-scale structure of amorphous hydrogenated carbon

Walters¹,

Newport²

1995

J. Phys.: Condens. Matter

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Structural properties of amorphous hydrogenated carbon. I. A high-resolution neutron-diffraction study

et al. 1994

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J.K. Walters

The interlayer structure of a graphite–potassium–ammonia intercalation compound by neutron diffraction

A spectroscopic study of the structure of amorphous hydrogenated carbon

An atomic-scale study of the role of titanium in TiO2:SiO2 sol-gel materials

The atomic-scale structure of amorphous hydrogenated carbon

Structural properties of amorphous hydrogenated carbon. I. A high-resolution neutron-diffraction study

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