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Publications:  Dr Mark Baxendale

Taroni PJ, SANTAGIULIANA G, WAN K, Calado P, QIU M, ZHANG H, PUGNO N, PALMA M et al.(2017). Toward Stretchable Self-Powered Sensors Based on the Thermoelectric Response of PEDOT:PSS/Polyurethane Blends. Advanced Functional Materials
10.1002/adfm.201704285
BAXENDALE M, Peci T(2017). A Facile Method for Self-Organized Texturing of Iron-Filled Multiwalled Carbon Nanotube Arrays. physica status solidi (a)
10.1002/pssa.201700327
Bilotti E, FENWICK OJ, Schroeder BC, Baxendale M, Taroni Junior P, Degousee T, Liu Z(2017). Organic Thermoelectric Composites Materials. Comprehensive composite materials II, Editors: Zweben, CH, Beaumont, PWR, vol. 6,
Boi FS, Guo J, Wang S, He Y, Xiang G, Zhang X, Baxendale M(2016). Fabrication of cm scale buckypapers of horizontally aligned multiwalled carbon nanotubes highly filled with Fe3C: the key roles of Cl and Ar-flow rates. Chem Commun (Camb) vol. 52, (22) 4195-4198.
10.1039/c5cc10533a
Peci T, Baxendale M(2015). Length and α-Fe Content Control of Self-Organised Ferromagnetic Nanowires Encapsulated by Multiwalled Carbon Nanotubes by Low Flow-Rate CVD. Carbon
10.1016/j.carbon.2015.11.038
Peci T, Dennis TJS, Baxendale M(2015). Iron-filled multiwalled carbon nanotubes surface-functionalized with paramagnetic Gd (III): A candidate dual-functioning MRI contrast agent and magnetic hyperthermia structure. Carbon vol. 87, (C) 226-232.
10.1016/j.carbon.2015.01.052
Boi FS, Maugeri S, Guo J, Lan M, Wang S, Wen J, Mountjoy G, Baxendale M et al.(2014). Controlling the quantity of α-Fe inside multiwall carbon nanotubes filled with Fe-based crystals: The key role of vapor flow-rate. Applied Physics Letters vol. 105, (24) 243108-243114.
10.1063/1.4904839
Bikkarolla SK, Baxendale M, Ewels C, Enoki T, Kaneko K, Martín N, Santa-Cruz P, Edwards R et al.(2014). Applications, composites, and devices: general discussion. Faraday Discuss vol. 173, 429-443.
10.1039/C4FD90046D
Boi FS, Wilson RM, Mountjoy G, Ibrar M, Baxendale M(2014). Boundary layer chemical vapour synthesis of self-organised ferromagnetically filled radial-carbon-nanotube structures. Faraday Discuss vol. 173, 67-77.
10.1039/c4fd00071d
Davies P, Papakonstantinou P, Martin N, Kratochvílová I, Ewels C, Shaffer M, Enoki T, Heggie M et al.(2014). Synthesis in gas and liquid phase: general discussion. Faraday Discuss vol. 173, 115-135.
10.1039/c4fd90042a
Boi FS, Mountjoy G, Wilson RM, Luklinska Z, Sawiak LJ, Baxendale M(2013). Multiwall carbon nanotubes continuously filled with micrometre-length ferromagnetic α-Fe nanowires. Carbon vol. 64, 351-358.
10.1016/j.carbon.2013.07.085
Boi FS, Mountjoy G, Luklinska Z, Spillane L, Karlsson LS, Wilson RM, Corrias A, Baxendale M(2013). The origin of long-period lattice spacings observed in iron-carbide nanowires encapsulated by multiwall carbon nanotubes. Microsc Microanal vol. 19, (5) 1298-1302.
10.1017/S1431927613001918
Boi FS, Mountjoy G, Baxendale M(2013). Boundary layer chemical vapor synthesis of self-organized radial filled-carbon-nanotube structures. Carbon vol. 64, 516-526.
10.1016/j.carbon.2013.08.001
McAndrew CF, Baxendale M(2013). High electrical conductance enhancement in Au-nanoparticle decorated sparse single-wall carbon nanotube networks. Nanotechnology vol. 24, (30)
10.1088/0957-4484/24/30/305202
Boi FS, Mountjoy G, Wilson RM, Luklinska Z, Sawiak LJ, Baxendale M(2013). Multiwall carbon nanotubes continuously filled with micrometre-length ferromagnetic α-Fe nanowires. Carbon
10.1016/j.carbon.2013.07.085
Feizi E, Scott K, Baxendale M, Pal C, Ray AK, Wang W, Pang Y, Hodgson SNB(2012). Synthesis and characterisation of nickel nanorods for cold cathode fluorescent lamps. Materials Chemistry and Physics vol. 135, (2-3) 832-836.
10.1016/j.matchemphys.2012.05.066
Feizi E, Scott K, Baxendale M, Pal C, Ray AK, Wang W, Pang Y, Hodgson SNB(2012). Synthesis and characterisation of nickel nanorods for cold cathode fluorescent lamps. Materials Chemistry and Physics
10.1016/j.matchemphys.2012.05.066
Bilotti E, Zhang R, Deng H, Baxendale M, Peijs T(2010). Fabrication and property prediction of conductive and strain sensing TPU/CNT nanocomposite fibres. Journal of Materials Chemistry vol. 20, (42) 9449-9455.
10.1039/c0jm01827a
McClory C, McNally T, Baxendale M, Poetschke P, Blau W, Ruether M(2010). Electrical and rheological percolation of PMMA/MWCNT nanocomposites as a function of CNT geometry and functionality. EUROPEAN POLYMER JOURNAL vol. 46, (5) 854-868.
10.1016/j.eurpolymj.2010.02.009
Hudziak S, Darfeuille A, Zhang R, Peijs T, Mountjoy G, Bertoni G, Baxendale M(2010). Magnetoresistive phenomena in an Fe-filled carbon nanotube/elastomer composite. Nanotechnology vol. 21, (12)
10.1088/0957-4484/21/12/125505
Ciselli P, Zhang R, Wong Z, Reynolds CT, BAXENDALE M, Peijs T(2009). Oriented UHMW-PE/CNT Composite Tapes by a Solution Casting-Drawing Process Using Mixed-Solvents. European Polymer Journal vol. 45, (10) 2741-2748.
10.1016/j.eurpolymj.2009.06.004
Baxendale M, Battini P, Pollini I, Endo M, Kim YA, Hayashi T, Muramatsu H(2009). Quantum conductance in double-wall carbon nanotubes grown by chemical vapor deposition. PHYS REV B vol. 80, (12) Article 125411,
10.1103/PhysRevB.80.125411
Zhang R, Dowden A, Deng H, Baxendale M, Peijs T(2009). Conductive network formation in the melt of carbon nanotube/thermoplastic polyurethane composite. COMPOSITES SCIENCE AND TECHNOLOGY vol. 69, (10) 1499-1504.
10.1016/j.compscitech.2008.11.039
Morgan C, Alemipour Z, Baxendale M(2009). Variable range hopping in oxygen-exposed single-wall carbon nanotube networks (vol 205, pg 1394, 2008). PHYS STATUS SOLIDI A vol. 206, (7) 1678-1678.
10.1002/pssa.200925122
Morgan C, Alemipour Z, Baxendale M (2008). Variable range hopping in oxygen-exposed single-wall carbon nanotube networks. PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE. vol. 205, 1394-1398.
10.1002/pssa.200778113
Baxendale M, Melli M, Alemipour Z, Pollini I, Dennis TJS(2007). Quantum conductance in single- and double-wall carbon nanotube networks. J APPL PHYS vol. 102, (10) Article 103721,
10.1063/1.2817623
Andzane J, Tobin JM, Li Z, Prikulis J, BAXENDALE M, Olin H, Holmes JD, Erts D(2007). Selection of Application Specific Single and Multi Walled Carbon Nanotubes by In Situ Characterization of Conductive and Field Emission Properties. Journal of Nanotechnology Online
10.2240/azojono0123
Zhang R, Baxendale M, Peijs T(2007). Universal resistivity-strain dependence of carbon nanotube/polymer composites. PHYS REV B vol. 76, (19) Article 195433,
10.1103/PhysRevB.76.195433
BAXENDALE M(2005). Carbon Nanotubes and Bucky Materials. Handbook of Electronic Materials, S. Kasap & P. Capper (Eds)., Kluer Academic Publishers 2005
Rajendra J, Baxendale M, Dit Rap LG, Rodger A(2004). Flow linear dichroism to probe binding of aromatic molecules and DNA to single-walled carbon nanotubes. J Am Chem Soc vol. 126, (36) 11182-11188.
10.1021/ja048720j
BAXENDALE M, Laurent C, Ahlskog C, Huhtula M(2004). Electronic Properties and Applications of Carbon Nanotubes. Encyclopaedia of Nanoscience and Nanotechnology, Editors: Nalwa, HS, American Scientific Publishers (Valencia, California, USA),
Baxendale M (2003). The physics and applications of carbon nanotubes. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS. vol. 14, 657-659.
10.1023/A:1026158432563
Baxendale M(2003). Biomolecular applications of carbon nanotubes. IEE Proc Nanobiotechnol vol. 150, (1) 3-8.
10.1049/ip-nbt:20030576
Charlier JC, Terrones M, Baxendale M, Meunier V, Zacharia T, Rupesinghe NL, Hsu WK, Grobert N et al.(2002). Enhanced electron field emission in B-doped carbon nanotubes. NANO LETT vol. 2, (11) 1191-1195.
10.1021/nl0256457
Gunster J, Baxendale M, Otani S, Souda R(2001). Growth of individual carbon composite nanostructures on the faceted TiC(111) surface. SURF SCI vol. 494, (1) L781-L786.
10.1016/S0039-6028(01)01508-4
Alexandrou I, Baxendale M, Rupesinghe NL, Amaratunga GAJ, Kiely CJ(2000). Field emission properties of nanocomposite carbon nitride films. J VAC SCI TECHNOL B vol. 18, (6) 2698-2703.
10.1116/1.1322043
BAXENDALE M, Lim KG, Amaratunga GAJ(2000). Thermoelectric power of aligned and randomly oriented carbon nanotubes. Physical Review B vol. 61, (19) 12705-12708.
10.1103/PhysRevB.61.12705
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