A selection of Peter Harris's publications


Sulphur-induced faceting of platinum catalyst particles, P J F Harris, Nature 323 792 (1986).

Direct imaging of an adsorbed layer by high-resolution electron microscopy, D A Jefferson and P J F Harris, Nature 332 617 (1988).

High-resolution electron microscopy studies of a microporous carbon produced by arc-evaporation, P J F Harris, S C Tsang, J B Claridge and M L H Green, J Chem Soc, Faraday Trans 90 2799 (1994). [pdf]

A simple chemical method of opening and filling carbon nanotubes, S C Tsang,Y K Chen, P J F Harris and M L H Green, Nature 372 159 (1994).

Plan-view and profile imaging of sulphided platinum particles, M A Gribelyuk, P J F Harris and J L Hutchison, Phil. Mag. B 69 655 (1994).

Growth and structure of supported metal catalyst particles, P J F Harris International Materials Reviews 40 97 (1995).

Carbon nanotubes and related structures as contaminants on evaporated carbon films, P J F Harris J Microscopy 186 88 (1997).

High-resolution electron microscopy studies of non-graphitizing carbons, P J F Harris and S C Tsang Phil Mag A 76 667 (1997).

Structure of non-graphitising carbons, P J F Harris, International Materials Reviews 42 206 (1997).

On Charcoal, P J F Harris Interdisciplinary Science Reviews 24 301 (1999).

High resolution electron microscopy of a microporous carbon, P J F Harris, A. Burian and S. Duber Phil Mag Lett 80 381 (2000). [pdf]

Fullerene-like carbon nanostructures in the Allende meteorite, P J F Harris, R.D. Vis and D. Heymann Earth and Planetary Sci. Lett. 183 355 (2000). [pdf]

Rosalind Franklinís work on coal, carbon, and graphite, Interdisciplinary Science Reviews 26 204 (2001). [pdf]

Carbonaceous contaminants on support films for transmission electron microscopy, P J F Harris, Carbon 39 909(2001). [pdf]

Chemistry and Physics of Carbon , Volume 28, 2003 edited by Ljubisa R. Radovic

Chapter One: Impact of the Discovery of Fullerenes on Carbon Science, P J F Harris.

High resolution transmission electron microscopy of carbon and nanocrystals in the Allende meteorite, P J F Harris and R D Vis Proceedings of the Royal Society A 459 2069 (2003). [pdf]

Carbon nanotube composites, P J F Harris International Materials Reviews 49 31 (2004). [pdf]

Fullerene-related structure of commercial glassy carbons, P J F Harris Phil Mag A 84 3159 (2004). [pdf]

This is one of the most cited articles published in Philosophical Magazine since 2003.

New perspectives on the structure of graphitic carbons, P J F Harris Critical Reviews in Solid State and Material Sciences 30 235 (2005). [pdf]

Hyper-parallel tempering Monte Carlo simulations of Ar adsorption in new models of microporous non-graphitizing activated carbon: effect of microporosity, A P Terzyk, S Furmaniak, P A Gauden, P J F Harris, J Wloch and P Kowalczyk J. Phys.: Condens. Matter 19 406208(2007). [pdf]

How realistic is the pore size distribution calculated from adsorption isotherms if activated carbon is composed of fullerene-like fragments?, A P Terzyk, S Furmaniak, P J F Harris, P A Gauden, J Wloch, P Kowalczyk and G Rychlicki, Physical Chemistry Chemical Physics 9 5919 (2007). [pdf]

Solid state growth mechanisms for carbon nanotubes, P J F Harris, Carbon 45 229 (2007). [pdf]

Imaging the atomic structure of activated carbon, P J F Harris, Z Liu and K Suenaga J. Phys.: Condens. Matter 20 362201 (2008). [pdf]

Open and Closed Edges of Graphene Layers, Z Liu, K Suenaga, P J F Harris and S Iijima, Physical Review Letters 102 015501 (2009). [pdf]

Supplementary data for the above paper. [pdf]

Ultrathin graphitic structures and carbon nanotubes in a purified synthetic graphite, P J F Harris, J. Phys.: Condens. Matter 21 355009 (2009). [pdf]

Structural transformation of graphite by arc-discharge, P J F Harris, Phil. Mag. 91 2355 (2011). [pdf]

Hollow structures with bilayer graphene walls, P J F Harris, Carbon 50 3195 (2012). [pdf]

Fullerene-like models for microporous carbon, P J F Harris, Journal of Materials Science 48 565 (2013). [pdf]

Bilayer graphene formed by passage of current through graphite: evidence for a threedimensional structure, P J F Harris, et al. Nanotechnology 25 465601 (2014). [pdf]

Structural transformation of natural graphite by passage of an electric current, P J F Harris Carbon 107 132 (2016). [pdf]

The structure of junctions between carbon nanotubes and graphene shells, P J F Harris, I Suarez-Martinez and N A Marks Nanoscale 8 18849 (2016). [pdf]

Engineering carbon materials with electricity, P J F Harris Carbon 122 504 (2017). [pdf]

Transmission Electron Microscopy of Carbon: A Brief History, P J F Harris C 4 4 (2018). [pdf]

Non-graphitizing carbon: its structure and formation from organic precursors, P J F Harris Eurasian Chemico-Technological Journal 21 227 (2019). [pdf]

Microscopy and literature, P J F Harris Endeavour 43 100695 (2019). [pdf]

Structural transformation of graphite by passage of electric current, P J F Harris Fullerenes, Nanotubes and Carbon Nanostructures 28 66 (2020). [pdf]

Structures formed by passage of current through graphite: flat or three-dimensional?, P J F Harris Carbon 156 416 (2020). [pdf]

Nanotubes with horns: a clue to the growth mechanism?, P J F Harris Nanotubes and Carbon Nanostructures (2020). [pdf]

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