1992 International Prize for New Materials by the American Physical Society
1992 Italgas Prize for Innovation in Chemistry
1993 Royal Society of Chemistry Longstaff Medal
1994 Hewlett Packard Europhysics Prize (shared with Wolfgang Kraetschmer, Don Huffman and Richard Smalley
1996 Nobel Prize for Chemistry
1997 American Carbon Society Medal for Achievement in Carbon Science
1999 Blackett Lecturship Award
2001 Faraday Award and Lecture
1998 Dalton Medal
Erasmus Medal of Academia Europaea
2000 Ioannes Marcus Marci Medal for spectroscopy
2002 Copley Medal of the Royal Society
2005 Order of Cherubini Award
2008 Kavli Lecturer Award
1. R N Dixon and H W Kroto, ’High resolution study of the spectrum of the CBr radical’, Trans Faraday Soc, 59, 1484-1489 (1963).
2. R N Dixon and H W Kroto, ’The electronic spectrum of nitrosomethane, CH3NO’, Proc. Roy. Soc., 283, 423-432 (1965).
3. H W Kroto, ’Singlet and triplet states of NCN in the flash photolysis of cyanogen azide’, J. Chem. Phys., 44, 831-832 (1966).
4. H W Kroto, ’The 1 u 1 g electronic spectrum of NCN’, Can. J. Phys., 45, 1439-1450 (1967).
5. H W Kroto and D P Santry, ’CNDO molecular-orbital theory of molecular structure. I. The virtual-orbital approximation to excited states’, J. Chem. Phys., 47, 792-797 (1967).
6. H W Kroto and D P Santry, ’Semiempirical molecular-orbital spectra. II. Approximate open-shell theory’, J. Chem. Phys., 47, 2736-2743 (1967).
7. H W Kroto and Y-H Pao, ’Effect of intermolecular interactions on line shapes and depolarization factors of highly polarized Raman lines’, J. Optical Society of America, 58, 479-483 (1968).
8. H J Clase and H W Kroto, ’The effect of intermolecular interactions on the isotope structures of the Raman bands of CHCl3 , CCl3F and CCl3CN’, Mol. Phys., 15, 167-172 (1968).
9. P R Carey, H W Kroto and M A Turpin, ’Chlorine isotope effects on the 19F resonance of CCl3F and the use of this signal as a reference in high-resolution nuclear magnetic resonance’, Chem. Comm., 1188 (1969).
10. H W Kroto and J J C Teixeira-Diaz, ’Theory of the effect of intermolecular interactions on the Raman spectra of liquid CHCl3 and CFCl3 ’, Mol. Phys., 16, 773-782 (1970).
11. H W Kroto, T F Morgan and H H Sheena, ’Flash photolysis of cyanogen azide, NCN3’, Trans. Faraday Soc., 66, 2237-2243 (1970).
12. G H King, H W Kroto and R J Suffolk, ’The photo-electron spectrum of a short-lived species in the decomposition products of CS2’, Chem. Phys. Letts., 13, 457-458 (1972).
13. J P Jesson, H W Kroto and D A Ramsay, ’Quasiplanarity of pyridine in its first excited singlet state’, J. Chem. Phys., 56, 6257-6258 (1972).
14. H W Kroto and J J C Teixeira-Dias, ’The effects of intermolecular interactions in the Raman spectrum of liquid CS2’, Spectrochim. Acta., 28A, 1497-1502 (1972).
15. H W Kroto and R J Suffolk, ’The photoelectron spectrum of an unstable species in the pyrolysis products of dimethyldisulphide’, Chem. Phys. Letts., 15, 545-548 (1972).
16. C C Costain and H W Kroto, ’Microwave spectrum, structure and dipole moment of cyanogen azide, NCN3’, Can. J. Phys., 50, 1453-1457 (1972).
17. A J Careless, M C Green and H W Kroto, ’The microwave spectrum of trimethylsilyl isocyanate (CH3)3SiNCO’, Chem. Phys. Letts., 16, 414-418 (1972).
18. H W Kroto and R J Suffolk, ’The photoelectron spectrum of F2CS and fluorine substitution shifts’, Chem. Phys. Letts., 17, 213-216 (1972).
19. A J Careless, H W Kroto and B M Landsberg, ’The microwave spectrum, structure and dipole moment of thiocarbonyl fluoride, F2CS’, Chem. Phys., 1, 371-375 (1973).
20. H W Kroto, R J Suffolk and N P C Westwood, ’The photo-electron spectrum of thioborine, HBS’, Chem. Phys. Letts., 22, 495-498 (1973).
21. K Georgiou, H W Kroto and B M Landsberg, ’Microwave spectrum of thioketene, H2C=C=S’, Chem. Commun., p739-740 (1974).
22. H W Kroto, B M Landsberg, R J Suffolk and A Vodden, ’The photoelectron and microwave spectra of the unstable species thioacetaldehyde, CH3CHS, and thioacetone, (CH3)2CS’, Chem. Phys. Letts., 29, 265-269 (1974).
23. H W Kroto, ’Molecular Rotation Spectra’, (monograph, pp311) John Wiley, London (1975).
24. A J Careless and H W Kroto, ’Rotational transitions in degenerate vibrational states of C3v symmetric top molecules with application to CH3CN’,J. Mol. Spectrosc., 57, 189-197 (1975).
25. A J Careless and H W Kroto, ’Analysis of the microwave rotation spectrum of silyl cyanide, SiH3CN in its ground and vibrationally excited states’, J. Mol. Spectrosc., 57, 198-214 (1975).
26. H W Kroto, M F Lappert, M Maier, J B Pedley, M Vidal and M F Guest, ’The HeI photoelectron spectra of mixed boron trihalides and the microwave spectrum of BClF2’, Chem. Commun., 810-812 (1975).
27. L W Avery, N W Broten, J M MacLeod, T Oka and H W Kroto, ’Detection of the heavy interstellar molecule cyanodiacetylene’, Astrophys. J., 205, L173-175 (1976).
28. M J Hopkinson, H W Kroto, J F Nixon and N P C Simmons, ’The detection of unstable molecules by microwave spectroscopy: phospha-alkenes CF2=PH, CH2=PCl and CH2=PH’, J.C.S. Chem. Comm., 513-515 (1976).
29. M J Hopkinson, H W Kroto, J F Nixon and N P C Simmons, ’The detection of the reactive molecule 1-phosphapropyne, CH3CP, by microwave spectroscopy’, Chem. Phys. Letts., 42, 460-461 (1976).
30. A J Alexander, H W Kroto and D R M Walton, ’The microwave spectrum, substitution structure and dipole moment of cyanobutadiyne, HC5N’, J. Mol. Spectrosc., 62, 175-180 (1976).
31. H W Kroto and B M Landsberg, ’The Microwave Spectrum, Substitution Structure, Internal Rotation Barrier and Dipole Moment of Thioacetaldehyde, CH3CHS’, J. Mol. Spectrosc., 62, 346-363 (1976).
32. H W Kroto and M Maier, ’The Microwave Spectrum, Structure and Quadrupole Coupling Constants of Boronchloridedifluoride, BClF2’, J. Mol. Spectrosc., 65, 280-288 (1977).
33. D C Frost, H W Kroto, C A McDowell and N P C Westwood, ’The HeI Photoelectron Spectra of the Isoelectronic Molecules, Cyanogenazide NCN3 and Cyanogen isocyanate NCNCO’, J. Electron Spectrosc., 11, 147-156 (1977).
34. J N Murrell, H W Kroto and M F Guest, ’Double-bonded divalent silicon’, J.C.S. Chem. Comm., 619-620 (1977).
35. H W Kroto, C Kirby, D R M Walton, L W Avery, N W Broten, J M MacLeod and T Oka, ’The Detection of Cyanohexatriyne, HC7N, in Heiles’ Cloud 2’, Astrophysics J., 219, L133-L137 (1978).
36. H W Kroto, J N Murrell, A Al-Derzi and M F Guest, ’Calculated Structures and Microwave Frequencies of HNSi and HSiN, Astrophysical J., 219, 886-890 (1978).
37. C Kirby and H W Kroto, ’Microwave and Photoelectron Study of cis- and trans-Isocyanatoethene CH2=CHNCO (vinylisocyanate)’, J. Mol. Spectrosc., 70, 216-228 (1978).
38. M Hutchinson and H W Kroto, ’The Microwave Spectrum, Structure and Barrier to Internal Rotation of Selenoacetaldehyde, CH3CHSe’, J. Mol. Spectrosc., 70, 347-356 (1978).
39. H W Kroto, J F Nixon, N P C Simmons and N P C Westwood, ’FCP, 1-Fluorophosphaethyne: Preparation and Detection by Photoelectron and Microwave Spectroscopy’, J. Am. Chem. Soc., 100, 446-448 (1978).
40. A J Alexander, H W Kroto, M Maier and D R M Walton, ’The Microwave Spectra of Symmetric Top Polyacetylenes: 1,3,5-Heptatriyne CH3C6H and 1-Cyano-2,4-Pentadiyne CH3C4CN’, J. Mol. Spectrosc., 70, 84-90 (1978).
41. C Kirby, H W Kroto and N P C Westwood, ’The Detection of Chlorothioborine, ClBS, a New Unstable Triatomic Molecule by Photoelectron and Microwave Spectroscopy’, J. Am. Chem. Soc., 100, 3766-3768 (1978).
42. C Kirby, H W Kroto and M J Taylor, ’The Detection of the New Reactive Molecule Methyl(sulphido)boron CH3BS, by Microwave Spectroscopy’, J.C.S. Chem. Comm., 19-20 (1978).
43. N W Broten, T Oka, L W Avery, J M MacLeod and H W Kroto, ’The Detection of HC9N in Interstellar Space’, Astrophys. J., 223, L105-107 (1978).
44. H W Kroto, ’Chemistry between the Stars’, New Scientist 79, 400-403 (1978); [No.1115, 10 Aug.].
45. K Georgiou, B M Landsberg and H W Kroto, ’The Microwave Spectrum Structure and Dipole Moment of Thioketene CH2=C=S’, J. Mol. Spectrosc., 77, 365-373 (1979).
46. N P C Westwood, H W Kroto, J F Nixon and N P C Simmons, ’Formation of 1-Phosphapropyne CH3CP by Pyrolysis of Ethyl Dichlorophosphine: a He(I) Photoelectron Spectroscopic Study’, J.C.S. Dalton, 1405-1408 (1979).
47. H W Kroto, J F Nixon and N P C Simmons, ’The Microwave Spectrum of 1-Phosphapropyne, CH3CP: Molecular Structure, Dipole Moment and Vibration Rotation Analysis’, J. Mol. Spectrosc., 77, 270-285 (1979).
48. H E Hosseini, J F Nixon, H W Kroto, S Brownstein, J R Morton and K F Preston, ’ 19F and 31P NMR characterisation of Phospha-alkene and Phospha-alkyne Intermediates in the Hydrolysis of Perfluoroalkyl-phosphines’, J.C.S. Chem. Comm., 653-654 (1979).
49. H E Hosseini, H W Kroto, J F Nixon, O Ohashi, ’ 19F and 31P NMR Characterisation of the Phosphaalkene CF3P=CF2, Intermediates in the alkaline hydrolysis of Bis(trifluoromethyl) phosphine’, J. Organometallic Chem., 181, C1-C3 (1979).
50. H W Kroto, ’The Detection of Unstable Species using Microwave, Photoelectron and Radioastronomy Techniques’, 14th International Symposium on Free Radicals, Sanda, Japan., 147-156 (1979).
51. T Cooper, H W Kroto, J F Nixon and O Ohashi, ’The Detection of C-Cyanophosphaethyne NCCP, by Microwave Spectroscopy’, J. Chem. Soc. Chem. Comm., 333-334 (1980).
52. H W Kroto, J F Nixon and N P C Simmons, ’Microwave Spectrum, Structure, Dipole Moment and Vibrational Satellites of FCP’, J. Mol. Spectrosc. 82, 185-192 (1980).
53. M Hutchinson, H W Kroto and D R M Walton, ’Rotation-Vibration Analysis of the Microwave Spectrum of Cyanobutadiyne, HC5N’, J. Mol. Spectrosc., 82, 394-410 (1980).
54. C Kirby and H W Kroto, ’The Microwave Spectrum of Methyl-Sulphido-Boron, CH3B=S: Substitution Structure, Dipole Moment and Vibration-Rotation Analysis’,J. Mol. Spectrosc., 83, 1-14 (1980).
55. K Georgiou and H W Kroto, ’The Microwave Spectrum Structure and Dipole Moment of Trans 2-Propenethial (Trans-thioacrolein), CH2=CHCH=S, J. Mol. Spectrosc., 83, 94-104 (1980).
56. C Kirby and H W Kroto, ’The Microwave Spectrum of Chloro-Sulphido-Boron ClB=S: Molecular Structure, Dipole Moment, Quadrupole Moment and Vibration-Rotation Analysis’, J. Mol. Spectrosc., 83, 130-147 (1980).
57. C Kirby, H W Kroto and D R M Walton, ’The Microwave Spectrum of Cyanohexatriyne, HC7N’, J. Mol. Spectrosc., 83, 261-265 (1980).
58. M King and H W Kroto, ’Microwave Study of the Thermal Isomerisation of Sulphurdicyanide, S(CN)2 to Cyano-isothiocyanate, NCNCS, J. Chem. Soc. Chem. Comm., 606 (1980).
59. H W Kroto, J F Nixon, K Ohno and N P C Simmons, ’The Microwave Spectrum of Phosphaethene, CH2=PH’, J. Chem. Soc. Chem. Comm., 709 (1980).
60. H W Kroto, C Kirby, D R M Walton, L W Avery, N W Broten, J M McLeod and T Oka, ’Detection of a Complex New Interstellar Species with a Molecular Weight of 99’, in Les Spectres des Molecules Simples Au Laboratoire et en Astro-Physique, XXI Colloque Int. Astr. 1977, 83-86 (1980).
61. H W Kroto, ’The Detection of Unstable Species Using Microwave Photoelectron and Radioastronomy Techniques’, Chimia, 34, 313 (1980).
62. H Eshtiagh-Hosseini, H W Kroto, J F Nixon, M L Maah and M J Taylor, ’Synthesis of Phospha-alkene Transition Metal Complexes’, J.C.S. Chem. Comm., 199-200 (1981).
63. T A Cooper, M A King, H W Kroto and R J Suffolk, ’The Detection of Unstable Monomeric Selenidoborons: Chloroselenidoboron ClB=Se’, J.C.S. Chem. Comm., 353-354 (1981).
64. M A King, H W Kroto, J F Nixon, D Klapstein, J P Maier and O Marthaler, ’Emission Spectra of the Phosphaethyne Cations, HCP+ and DCP+’, Chem. Phys. Letts., 82, 543 (1981).
65. H W Kroto and J F Nixon, ’Phosphaalkenes, R2C=PR and Phosphaalkynes, RCP’, A C S Symposium Series 171 (ed. L D Quin and J Verkade) No.79, 383-390, J Am. Chem. Soc.
66. J C T R Burckett-St.Laurent, P B Hitchcock, H W Kroto and J F Nixon, ’Novel Transition Metal Phosphaalkyne Complexes. X-Ray Crystal and Molecular Structure of a Side-bonded ButCP Complex of Zerovalent Platinum, Pt(PPh2)2(ButCP), J.C.S. Chem. Comm., 1141-1143 (1981).
67. H W Kroto, J F Nixon and K Ohno, ’The Microwave Spectrum, Structure and Dipole Moment of the Unstable Molecule Phosphaethene, CH2=PH’,J. Mol. Spectrosc., 90, 367-373 (1981).
68. K Ohno, H W Kroto and J F Nixon, ’The Microwave Spectrum of 1-Phosphabut-1-yne-3-ene, CH2=CHCP’, J. Mol. Spectrosc., 90, 507-511 (1981).
69. H W Kroto, J F Nixon and K Ohno, ’The Microwave Spectrum of Phosphabutadiyne, HCCCP’, J. Mol. Spectrosc., 90, 512-516 (1981).
70. H W Kroto, ’The Spectra of Interstellar Molecules’, International Reviews in Physical Chemistry, 1, 309-376 (1981).
71. J C T R Burckett-St.Laurent, H W Kroto, J F Nixon and K Ohno, ’The Microwave Spectrum of 1-Phenylphosphaethyne, C6H5CP’, J. Mol. Spectrosc., 92, 158-161 (1982).
72. H W Kroto, ’Molecules in Space’ Case Study 3 S247, Science Second Level Course, Open University 1981.
73. H W Kroto, J F Nixon, M J Taylor, A A Frew and K W Muir, ’Synthesis and NMR spectra of some platinum(II) complexes of the phospha-alkene, (mesityl)P=CPh2’, Polyhedron, 1, 89-95 (1982).
74. J C T R Burckett-St.Laurent, T A Cooper, H W Kroto, J F Nixon, O Ohashi and K Ohno, ’The Detection of Some New Phospha-alkynes, RCP, using microwave spectroscopy’, J. Mol. Struct., 79, 215 (1982).
75. M A King, D Klapstein, H W Kroto, J P Maier and J F Nixon, ’Emission spectra of the phosphaethyne cations of HCP+ and DCP+’, J. Mol. Struct., 80, 23-28 (1982).
76. H W Kroto, ’Polyine im Universum’, Nachr. Chem. Tech. Lab., 30, 765-770 (1982).
77. K Ohno, H Matsuura, H W Kroto and H Murata, ’Infra-red spectra of C-fluorophosphaethyne FCP and C-difluorophosphaethene CF2=PH’, Chemistry Letters, 981-984 (1982).
78. H W Kroto, ’The interaction between chemistry and astronomy’, in Submillimetre Wave Spectroscopy, J E Beckman and J P Phillips (eds.), Cambridge University Press, 203-217 (1982).
79. J C T R Burckett-St.Laurent, P B Hitchcock, H W Kroto, M F Meidine and J F Nixon, ’Novel transition metal phospha-alkyne complexes: tBuCP acting as 6 electron donor ligand. Synthesis, [C2(CO)6(mu-tBuCP)W(CO)5]’, J. Organometallic Chem., 238, C82-C84 (1982).
80. H W Kroto, ’Semistable Molecules in the Laboratory and in Space’, Royal Society of Chemistry Tilden Lecture; Chem. Soc. Revs., 11, 435-491 (1982).
81. J C T R Burckett-St.Laurent, M A King, H W Kroto, J F Nixon and R J Suffolk, ’Photoelectron Spectra of the Phospha-alkynes: 3,3-dimethyl-1-phosphabutyne, t-BuCP and 1-phenylphosphaethyne, PhCP’, J.C.S. Dalton, 755 (1983).
82. S I Al-Resayes, S I Klein, H W Kroto, M F Meidine and J F Nixon, ’Synthesis of and Phospha-alkene-transition metal complexes and the first examples of complexes containing only ligated phospha-alkenes and phospha-alkynes’, J.C.S. Chem. Comm., 930 (1983).
83. M A King, D Klapstein, H W Kroto, R Kuhn and J P Maier, ’The Spectroscopic Detection of the Ions XBS+ and XCP+ (X=H, F, Cl)’, Bull. Soc. Chim. Belg., 92, 607 (1983).
84. K Ohno, H Matsuura, H Murata and H W Kroto, ’The Vibration-Rotation Spectrum of C-Fluorophoethyne FCP; Fermi Resonance and a Harmonic Force Field, J. Mol. Spectrosc., 100, 403-415 (1983).
85. J C T R Burckett-St.Laurent, P B Hitchcock, M A King, H W Kroto, M F Meidine, S I Klein, S I Al Resayes, R J Suffolk and J F Nixon, ’Synthesis, Structures and Photoelectron Spectra of Phospha-alkenes and Phospha-alkynes and their Transition Metal Complexes’, Phosphorus and Sulphur, 18, 259-262 (1983).
86. H W Kroto, J F Nixon, O Ohashi and N P C Simmons, ’The Microwave Spectrum of 1-chloro- phosphaethene CH2=PCl’, J. Mol. Spectrosc., 103, 113-124 (1984).
87. H W Kroto, ’Long Carbon Chains in Space’, European Spectroscopy News, 53, 18-20 (1984).
88. T A Cooper, C Kirby, H W Kroto and P C Westwood, ’A Photoelectron Spectroscopic Study of the (FBS)n System (n=1-3)’, J. Chem. Soc. Dalton Trans., 1047-1052 (1984).
89. H W Kroto, D McNaughton and O I Osman, ’The Detection of the New Molecule Prop-2-ynylidenamine, HC2CH=NH, by Microwave Spectroscopy’, J. Chem. Soc. Chem. Comm., 993-994 (1984).
90. M A King, D Klapstein, H W Kroto, R Kuhn, J P Maier and J F Nixon, ’Emission Spectrum of the C-Fluorophosphaethyne Cation FCP+’, J. Chem. Phys., 80(6), 2332-2335 (1984).
91. H W Kroto, ’A Discrepancy in the Fit between Bacterial and Interstellar Spectra’, Observatory, 104, 135-136 (1984).
92. M A King and H W Kroto, ’He I Photoelectron Study of Cyanogen Isothiocyanate, NCNCS, Produced by Thermal Isomerization of Sulfur Dicyanide, S(CN)2’, J. Am. Chem. Soc., 106, 7347-7351 (1984).
93. H W Kroto, S I Klein, M F Meidine, J F Nixon, R K Harris, K J Packer and P Reams, ’1- and 2-Coordination in Phospha-alkeneplatinum(0) Complexes. High Resolution Solid State 31P NMR Spectrum (Triphenylphosphine)Platinum(0)’, J. Organo-metal. Chem., 280, 281-287 (1985).
94. H W Kroto, D McNaughton, L T Little and N Matthews, ’Long-Chain Hydrocarbon Molecules in the Interstellar Medium: Search for 1-cyanobut-3-ene-1-yne, CH2=CHC3N’, Mon. Not. R. Astr. Soc., 213, 753-759 (1985).
95. M C Durrant, H W Kroto,D McNaughton and J F Nixon ’The New Molecule 1-Cyano-4-Phosphabutadiyne, NC4P, Produced by Copyrolysis of PC13 and CH3C3N: Detection and Vibration- Rotation Analysis by Microwave Spectroscopy’, J. Mol. Spectrosc., 109, 8-14, (1985).
96. K Ohno, H Matsuura, D McNaughton and H W Kroto, ’Infrared Spectra of 1-Phosphapropyne, CH3CP, and its Perdeuteride CD3C=P’, J. Mol. Spectrosc., 111, 415-424, (1985).
97. M A King, H W Kroto and B M Landsberg, ’Microwave Spectrum of the Quasilinear Molecule Cyanogen Isothiocyanate, NCNCS’, J. Mol. Spectrosc., 113, 1-20, (1985).
98. H E Hosseini, H W Kroto, J F Nixon and O Ohashi, ’ 31P, 19F and 1H NMR Spectroscopic study of the Reaction of Bis(Trifluoromethyl)Phosphine and solid KOH. Synthesis of the Phosphaalkene CF3P=CF2’,J. Organometallic Chem., 296, 351-355, (1985).
99. H W Kroto and D McNaughton, ’Photoelectron Spectra of the Amino difluoroboranes NH2=BF2 , NHMe=BF2 and NMe2=BF2’, J. Chem. Soc. Dalton Trans., 1767. (1985)
100. H W Kroto, J R Heath, S C O’Brien, R F Curl and R E Smalley, ’C60: Buckminsterfullerene’, Nature, 318(No.6042), 162-163,(1985) [cover illustration].
101. Lanthanum complexes of spheroidal carbon shells; J. R. Heath, S. C. O’Brien, Q. Zhang, Y. Liu, F. R. Curl, H. W. Kroto, F. K. Tittle and R. E. Smalley, J. Am. Chem. Soc., 107, 7779-7780 (1985).
102. Negative carbon cluster ion beams; new evidence for the special nature of C60; Y. Liu, S. C. O’Brien, Q. Zhang, J. R. Heath, F., K. Tittle, R. F. Curl, H. W. Kroto and R. E. Smalley, Chem. Phys. Lett., 126, 215-217 (1986).
103. Reactivity of large carbon clusters: spheroidal carbon shells and their possible relevance to the formation and morphology of soot; Q. L. Zhang, S. C. O’Brien, J. R. Heath, Y. Liu, R. F. Curl, H. W. Kroto and R. E. Smalley, J. Phys. Chem., 90, 525-528 (1986).
104. A reply to ”Magic Numbers” in Cn+ and Cn- abundance distributions based on experimental observations; S. C. O’Brien, J. R. Heath, H. W. Kroto, R. F. Curl and R. E. Smalley, Chem. Phys. Lett. 132, 99-102 (1986).
105. Chemistry between the stars; H. W. Kroto, Proc. Roy. Institution, 58, 45-72 (1986)
106. The formation of long carbon chain molecules during laser vapourisation of graphite; J. R. Heath, Q. Zhang, S. C. O’Brien, R. F. Curl, H. W. Kroto and R. E. Smalley, J. Am. Chem. Soc., 109, 359-363, (1987).
107. The stability of the Fullerenes Cn (n = 24, 28, 32, 50, 60 and 70); H. W. Kroto, Nature, 329, 529-531 (1987).
108. Long carbon chain molecules in circumstellar shells; H. W. Kroto, J. R. Heath, S. C. O’Brien, R. F. Curl and R. E. Smalley, Astrophys. J., 314, 352-355 (1987).
109. Carbon condensation; H. W. Kroto, Comments Cond. Mat. Phys., 13, 119-141 (1987).
110. Chains and grains in interstellar space; H. W. Kroto in A. Leger, L. d’Hendecourt and N. Boccara, Polycyclic Aromatic Hydrocarbons and Astrophysics, Reidel, 1987, pp197-206.
111. The formation of quasi-icosohedral spiral shell carbon particles; H.W. Kroto and K.G. McKay, Nature, 331, 328-331 (1988).
112. Space, stars, C60 and soot; H.W. Kroto, Science, 242, 1139-1145 (1988).
113. C60: Buckminsterfullerene, other Fullerenes and the icospiral shell; H.W. Kroto, Computers and Math. Applic., 17, 417-423 (1988).
114. The chemistry of the interstellar medium; H.W. Kroto, Phil. Trans. Roy. Soc., Lond. A., 325, 405-421 (1988).
115. The role of linear and spheroidal carbon molecules in interstellar grain formation; H.W. Kroto, Ann. Phys. Fr., 14, 169-179 (1989).
116. Giant Fullerenes; H.W. Kroto, Chem. Brit., 26, 40-42 (1990)
117. Dust around AFGL 2688, molecular shielding, and the production of carbon chain molecules; M. Jura and H.W. Kroto, Astrophys. J., 351, 222-229 (1990).
118. C60, Fullerenes, giant Fullerenes and soot; H.W. Kroto, Pure Appl. Chem., 62, 407-415 (1990).
119. The formation and structure of interstellar dust; H.W. Kroto in S. Chang (Ed.) ’Carbon in the Galaxy’; Proc. Conf. NASA Aims Research Center, Nov 5-6 1987, Publ. 1990.
120. Possible assignment of the 11.3 m UIR feature in emission from soot-like microparticles with internal hydrogens, S.P. Balm and H.W. Kroto, Mon. Not. Roy. Astronom. Soc., 245, 193-197 (1990).
121. Isolation, separation and characterisation of the Fullerenes C60 and C70; the third form of carbon; R. Taylor, J.P. Hare, A.K. Abdul-Sada and H.W. Kroto, J. Chem. Soc. Chem.,Commun., 1423-1425 (1990).
122. Fullerene cage clusters. The key to the structure of solid carbon; H.W. Kroto, J. Chem. Soc., Faraday Trans., 86, 2465-2468 (1990).
123. The discovery of carbon 60; H.W. Kroto, R. Taylor and D.R.M. Walton, Univ. Sussex Ann. Rep., 6-8 (1990-91).
124. The analysis of comet mass spectrometric data; S.P. Balm, J.P. Hare and H.W. Kroto, Space Sci. Revs., 56, 185-189 (1991)
125. Potential-energy function of large carbon clusters; S.P. Balm, A.W. Allaf, H.W. Kroto and J.N. Murrell, J. Chem. Soc. Faraday Trans., 86, 803-806 (1991).
126. Preparation and UV/VIS spectra of Fullerenes C60 and C70; J.P. Hare, H.W. Kroto and R. Taylor, Chem. Phys. Lett., 177, 394-398 (1991).
127. The IR spectra of Fullerene-60 and -70; J.P. Hare, T.J. Dennis, H.W. Kroto, R. Taylor, A.W. Allaf, S. Balm and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 412-413 (1991).
128. Thermodynamic evidence for a phase transition in crystalline fullerene C60; A. Dworkin, H. Szwarc, S. Leach, J.P. Hare, T.J. Dennis, H.W. Kroto, R. Taylor and D.R.M. Walton, C. R. Acad., Sci. Paris, t.312, Ser II, 979-982 (1991).
129. Degradation of C60 by light; R. Taylor, J.P. Parsons, A.G. Avent, S.P. Rannard, T.J. Dennis, J.P. Hare, H.W. Kroto and D.R.M. Walton, Nature, 351, 277 (1991).
130. Thermodynamic characterisation of the crystallinity of footballene C60; A. Dworkin, C. Fabre, D. Schutz, G. Kriza, R. Ceolin, H. Szwarc, P. Bernier, D. Jerome, S. Leach, A. Rassat, J.P. Hare, T.J. Dennis, H.W. Kroto, R. Taylor and D.R.M. Walton, C. R. Acad., Sci. Paris, t.313, Ser II, 1017 (1991).
131. Fluorination of Buckminsterfullerene; J.H. Holloway, E.G. Hope, R. Taylor, J.G. Langley, A.G. Avent, T.J. Dennis, J.P.Hare, H.W. Kroto and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 966-969 (1991).
132. C60: the celestial sphere that fell to earth; H.W. Kroto, Nanotechnology, 1, 1-2 (1991).
133. The magnetic circular dichroism and absorption spectra of C60 isolated in argon matrices; Z. Gasyna, P.N. Schatz, J.P. Hare, T.J. Dennis, H.W. Kroto, R. Taylor and D.R.M.Walton, Chem. Phys. Lett., 183, 283-291 (1991).
134. Hypothetical twisted structure for C60F60; P.W. Fowler, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc. Faraday Trans., 87, 2685-2686 (1991).
135. Crystal structure and bonding of ordered C60; W.I.F. David, R.M. Ibberson, J. Matthewman, K. Prassides, T.J. Dennis, J.P. Hare, H.W. Kroto, R. Taylor and D.R.M. Walton, Nature, 353, 156-158 (1991).
136. Large infrared nonlinear optical response of C60; W.J. Blau, H.J. Byrne, D.J. Cardin, T.J. Dennis, J.P. Hare, J. Tomkinson, H.W. Kroto, R. Taylor and D.R.M. Walton, Phys. Rev. Lett., 67, 1423-1425 (1991).
137. The vibrational Raman spectra of C60 and C70; T.J. Dennis, J.P. Hare, H.W. Kroto, R. Taylor, D.R.M. Walton and P.J. Hendra, Spectrochim. Acta, 47A, 1289-1292 (1991).
138. Inelastic neutron scattering spectrum of the fullerene C60; K. Prassides, T.J.S. Dennis, J.P. Hare, J. Tomkinson, H.W. Kroto, R. Taylor and D.R.M. Walton, Chem. Phys. Lett., 187, 455-458 (1991).
139. C60 Buckminsterfullerene; H W Kroto, A W Allaf and S P Balm, Chem. Revs., 91, 1213-1235 (1991)
140. Electronic spectra and transitions of the fullerene C60; S. Leach, M. Vervloet, A. Despres, E. Breheret, J.P. Hare, T.J. Dennis, H.W. Kroto, R. Taylor and D.R.M. Walton; Chem. Phys., 160, 451-466 (1992).
141. No lubricants from fluorinated C60; R. Taylor, A.G. Avent, T.J. Dennis, J.P. Hare, H.W. Kroto, D.R.M. Walton, J.H. Holloway, E.G. Hope, and G.J. Langley, Nature, 355, 27 (1992).
142. C60: Buckminsterfullerene, the celestial sphere that fell to earth; H.W. Kroto, Angew. Chem. Internat. Edit. Engl., 31, 111-129 (1992).
143. A postbuckminsterfullerene view of carbon in the galaxy; J.P. Hare and H.W. Kroto, Accounts Chem. Res., 25, 106-112 (1992).
144. Nucleophilic substitution of fluorinated C60; R. Taylor, J.H. Holloway, E.G. Hope, A.J. Avent, G.J. Langley, T.J. Dennis, J.P. Hare, H.W. Kroto and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 665-667 (1992).
145. Formation of C60Ph12 by electrophilic aromatic substitution; R. Taylor, G.J. Langley, M.F. Meidine, J.P. Parsons, A.K. Abdul-Sada, T.J. Dennis, J.P. Hare, H.W. Kroto and D.R.M.Walton, J. Chem. Soc., Chem. Commun., 667-668 (1992).
146. The post-Buckminsterfullerene graphite horizon; H.W. Kroto, J. Chem. Soc., Dalton Trans., 2141-2143 (1992)
147. Astrophysical Problems involving Carbon Re-appraised; J.P. Hare and H.W. Kroto in P.D. Singh (Ed.) ’Astrochemistry of cosmic phenomena’ IAU, The Netherlands, 1992, pp. 47-54.
148. Fullerene physics; K. Prassides and H.W. Kroto, Physics World, 5, 44-49 (1992).
149. Preparation and characterisation of C60Br6 and C60Br8; P.R. Birkett, P.B. Hitchcock, H.W. Kroto, R. Taylor and D.R.M. Walton, Nature, 357, 479-481 (1992).
150. Post-Fullerene organic chemistry; H.W. Kroto and D.R.M. Walton, in E. Osawa and O. Yonemitsu (Eds.), ’Carbocyclic cage compounds’, VCH, 1992, pp 91-100.
151. A mass spectrometric/NMR study of Fullerene-78 isomers; R. Taylor, G.J. Langley, T.J.S. Dennis, H.W. Kroto and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 1043-1046 (1992).
152. Fullerenes: physics and astrophysics studies; H.W. Kroto, K. Prassides, M. Endo and M. Jura in C. Taliani, G. Ruani and R. Zamboni (Eds.) Fullerenes; status and perspectives, Proc. 1st Italian Workshop, Bologna (Feb. 6-7 1992) World Scientific Advanced Series in Fullerenes – Vol.2, 1992, pp1-12.
153. Neutron scattering studies of Fullerenes and alkali-metal doped Fullerides, K. Prassides, C. Christides, J. Tomkinson, M.J. Rosseinsky, D.W. Murphy, R.C. Haddon, T.J.S. Dennis, J.P. Hare, H.W. Kroto, R. Taylor and D.R.M. Walton in C. Taliani, G. Ruani and R. Zamboni (Eds.) Fullerenes; status and perspectives, Proc. 1st Italian Workshop, Bologna (Feb. 6-7 1992) World Scientific Advanced Series in Fullerenes – Vol. 2, 1992, pp147-160.
154. Single crystal x-ray structure of benzene-solvated C60; M.F. Meidine, P.B. Hitchcock, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 1534-1537 (1992).
155. Simulated transmission electron microscope images and characterisation of the ’Icospiral’; K.G. McKay, H.W. Kroto and D.J. Wales, J. Chem. Soc. Faraday Trans., 88, 2815-2821 (1992).
156. An end to the search for the ground state of C84? D.E. Manolopoulos, P.W. Fowler, R.Taylor, H.W. Kroto and D.R.M. Walton, J. Chem. Soc. Faraday Trans., 88, 3117-3118 (1992).
157. Isolation and spectroscopy of fullerenes; H.W. Kroto, K. Prassides, R. Taylor and D.R.M. Walton, Physica Scripta, T45, 314-318 (1992).
158. Circumstellar and interstellar fullerenes and their analogues; H.W. Kroto and M. Jura, Astron. Astrophys., 263, 275-280 (1992)
159. Introduction; H.W. Kroto, Carbon, 30, 1139-1141 (1992).
160. Fullerenes and fullerides in the solid state; neutron scattering studies; K. Prassides, H.W. Kroto, R. Taylor, D.R.M. Walton, W.I.F. David, J. Tomkinson, R C Haddon, M.J. Rosseinsky and D.W. Murphy, Carbon, 30, 1277-1286 (1992).
161. Formation of carbon nanofibers; M Endo and H W Kroto, J. Phys. Chem., 96, 6941-6944 (1992).
162. Preparation and characterisation of C60(ferrocene)2; J.D. Crane, P.B. Hitchcock, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 1764-1765 (1992).
163. Mu@C70; monitoring the dynamics of fullerenes from inside the cage; K. Prassides, T.J.S. Dennis, C. Christidies, E. Roduner, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Phys. Chem., 96, 10600-10602 (1992).
164. Isolation, characterisation and chemical reactions of fullerenes; R. Taylor, A.G. Avent, P.R. Birkett, T.J.S. Dennis, J.P. Hare, P.B. Hitchcock, J.H. Holloway, P.G. Hope, H.W. Kroto, G.J. Langley, M.F. Meidine, J.P. Parsons and D.R.M. Walton, Pure Appl. Chem., 65, 135 (1992).
165. Discovery; H.W. Kroto, R. Taylor and D.R.M. Walton, Univ. Sussex Ann. Rep., 6 (1992).
166. Hydrogenation of carbon clusters; A.W. Allaf, R.A. Hallett, S.P. Balm and H.W. Kroto, Internat. J. Mod. Phys. B, 6, 3595 (1992).
167. Optical emission from carbon clusters in a supersonic expansion; S.P. Balm, R.A. Hallett, A.W. Allaf, A.J. Stace and H.W. Kroto, Internat. J. Mod. Phys. B, 6, 3757 (1992).
168. Fullerene studies at Sussex; H.W. Kroto, K. Prassides, A.J. Stace, R. Taylor and D.R.M. Walton in W.E. Billups and M.A. Ciufolini (Eds.) Buckminsterfullerenes, VCH, 1993, Ch 2, pp 21-57.
169. The Raman spectra of C60Br24, C60Br8 and C60Br6; P.R. Birkett, I. Gross, P.J. Hendra, H.W. Kroto, R. Taylor and D.R.M. Walton, Chem. Phys. Lett., 205, 399-404 (1993).
170. The structural characterisation of buckminsterfullerene compounds; P.R. Birkett, J.D. Crane, P.B. Hitchcock, H.W. Kroto, M.F. Meidine, R. Taylor and D.R.M. Walton, J. Mol. Struct., 292, 1 (1993)
171. Polyynes and the formation of fullerenes; H.W. Kroto and D.R.M. Walton, Phil. Trans. Roy. Soc. Lond. Ser. A, 343, 103-112 (1993)
172. Highly oxygenated derivatives of fluorinated C60, and the mode of fragmentation of the fluorinated cage under electron impact conditions; R. Taylor, G.J. Langley, A.K. Brisdon, J.H. Holloway, E.G. Hope, H.W. Kroto and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 875-878 (1993)
173. 13C NMR spectroscopy of C76, C78, C84, and mixtures of C86-C102; anomalous chromatographic behaviour of C82 and evidence for C70H12; R. Taylor, G.J. Langley, A.G. Avent, T.J.S. Dennis, H.W. Kroto and D.R.M. Walton, J. Chem. Soc., Perkin Trans. 2, 1029 (1993).
174. Preparation and 13C NMR characterisation of C60Cl6; P.R. Birkett, A.G. Avent, A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 1230 (1993).
175. Formation and stabilisation of the hexa-adduct of cyclopentadiene with C60; M.F. Meidine, R. Roers, G.J. Langley, A.G. Avent, A.D. Darwish, S. Firth, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 1342 (1993).
176. Preparation and single crystal structure determination of the solvated intercalate C60.I2.toluene; P.R. Birkett, C. Christidies, P.B. Hitchcock, H.W. Kroto, K. Prassides, R. Taylor and D.R.M. Walton, J. Chem. Soc., Perkin 2, 1407 (1993).
177. Enthalpies of formation of Buckminsterfullerene (C60) and of the parent ions C60+, C602+, C603+ and C60-; H.P. Diego, M.E.M. da Piedade, T.J.S. Dennis, J.P. Hare, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Faraday Trans., 89, 3541, (1993).
178. The C60-catalysed oxidation of hydrogen sulphide to sulphur; A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, Fullerene Sci. & Tech., 1, 571 (1993).
179. Stable derivatives of small fullerenes; H.W. Kroto and D.R.M. Walton, Chem. Phys. Lett., 214, 353 (1993).
180. Isolation, characterisation and chemical reactions of fullerenes; R. Taylor, A.G. Avent, P.R. Birkett, T.J.S. Dennis, J.P. Hare, P.B. Hitchcock, J.H. Holloway, E.G. Hope, H.W. Kroto, G.J. Langley, M.F. Meidine, J.P. Parsons and D.R.M. Walton, Pure Appl. Chem., 65, 135 (1993).
181. Neutron scattering and SR studies of fullerenes and their derivatives; K. Prassides, Physica Scripta, T49, 735 (1993).
182. The production and structure of pyrolytic carbon nanotubes (PCNTs); M Endo, K Takeuchi, S Igarashi, K Kobori, M Shiraishi and H W Kroto, J. Phys. Chem. Solids, 54, 1841 (1993)
183. Formation of hydrides of fullerene-C60 and C70; A.G. Avent, A.D. Darwish, D.K. Heimbach, H.W. Kroto, M.F. Meidine, J.P. Parsons, C. Remars, R. Roers, O. Ohashi, R. Taylor and D.R.M. Walton, J. Chem. Soc., Perkin Trans. 2, 15 (1994).
184. Improved chromatographic separation of C60 and C70; A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 15 (1994).
185. The structure of C60Ph5Cl and C60Ph5H, formed via electrophilic aromatic substitution; A.G. Avent, P.R. Birkett, J.D. Crane, A.D. Darwish, G.J. Langley, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 1463 (1994).
186. Formation of fullerols via hydroboration of fullerene-C60; N.S. Schneider, A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 463 (1994).
187. Phosphorus/Buckminsterfullerene intercalation compound, C60(P4)2; I W Locke, A D Darwish, H W Kroto, K Prassides, R Taylor and D R M Walton; Chem. Phys. Lett., 225, 186 (1994)
188. Pentamethylcyclopentadiene adducts of [60]- and [70]fullerene; M F Meidine, A G Avent, A D Darwish, H W Kroto, O Ohashi, R Taylor and D R M Walton, J. Chem. Soc. Dalton Trans. 2, 1189 (1994)
189. Reaction of [70]Fullerene with benzyne; A.D. Darwish, A.K. Abdul-Sada, G.J. Langley, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 2133 (1994).
190. The structure and reactivity of C60; H.W. Kroto, R. Taylor and D.R.M. Walton, Pure Appl. Chem., 66, 2091 (1994).
191. The fullerenes – precursors for 21st century materals; A.G Avent, P.R. Birkett, C. Christides, J.D. Crane, A.D. Darwish, P.B. Hitchcock, H.W. Kroto, K. Prassides, R. Taylor and D.R.M. Walton, Pure Appl. Chem., 66, 1389 (1994).
192. The structure of buckminsterfullerene compounds; A.G. Avent, P.R. Birkett, C. Christides, J.D. Crane, A.D. Darwish, P.B. Hitchcock, H.W. Kroto, M.F. Meidine, K. Prassides, R. Taylor and D.R.M. Walton, J. Mol. Struct., 325, 1 (1994).
193. cis-Bromine addition to the bicyclopentene addend on [60]Fullerene; M.F. Meidine, A.G. Avent, A.D. Darwish, G.J. Langley, W. Locke, O. Ohashi, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc. Perkin Trans 2, 2125 (1994).
194. Smaller carbon species in the laboratory and space; H. W. Kroto, Internat. J. Mass Spectrometry & Ion Processes, 138, 1 (1994).
195. The charisma of C60 Buckminsterfullerene; H. W. Kroto, M.R.S. Bull., 19, 21 (1994).
196. New horizons in carbon chemistry and materials science; H.W. Kroto, J.P. Hare, A. Sarkar, K. Hsu, M. Terrones and J.R. Abeysinghe, M.R.S. Bull., 19, 51 (1994).
197. Formation of fullerene-C60 by pyrolysis of naphthalene; R. Taylor, H.W. Kroto, D.R.M. Walton and G.J. Langley, Mol. Mat., 4, 7 (1994).
198. Phenylation of [60]fullerene; R. Taylor, A.G. Avent, P.R. Birkett, J.D. Crane, A.D. Darwish, G.J. Langley, H.W. Kroto and D.R.M. Walton; Novel Forms of Carbon II, MRS., 349, 107 (1994).
199. Oxygenated species in the products of fluorination of [60]- and [70] Fullerene by fluorine gas; R.Taylor, G.J. Langley, J.H. Holloway, E.G. Hope, A.K. Brisdon, H.W. Kroto and D.R.M. Walton, J. Chem. Soc., Perkin Trans. 2, 181 (1995).
200. Formation of methylene adducts of [60]-, [70]-, [78]-, and [84]-fullerenes by reaction of fullerene-containing soot extract with THF; P.R. Birkett, A.D. Darwish, H.W. Kroto, G.J. Langley, R. Taylor and D.R.M. Walton, J. Chem. Soc. Perkin Trans. 2, 511 (1995).
201. Formation and characterisation of C70Cl10; P. R. Birkett, A.G. Avent, A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 683 (1995).
202. Theoretical characterisation of C70Cl10: the role of 1,4-addition across hexagonal rings; S.J. Austen, P.W. Fowler, J.P.B. Sandall, P.R. Birkett, A.G. Avent, A.D. Darwish, H.W.Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc. Perkin Trans 2, 1027 (1995)
203. Hemi-toroidal networks in pyrolytic carbon nanotubes; A. Sarkar, M. Endo and H.W. Kroto, Carbon, 33 51 (1995).
204. Holey fullerenes! A bis-lactone derivative of [70]fullerene with an 11-atom orifice; P.R. Birkett, A.G. Avent, A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Chem. Commun., 1869 (1995).
205. Condensed phase nanotubes; W.K. Hsu, J.P. Hare, M. Terrones, H.W. Kroto and D.R.M. Walton, Nature, 377, 687 (1995).
206. Polyhydrogenation of [60]- and [70]- fullerenes; A.D. Darwish, A.K. Abdul-Sada, G.J. Langley, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc. Perkin Trans. 2, 2359 (1995).
207. Reaction of [60]fullerene with triethylamine; J. Pola, A.D. Darwish, R.A. Jackson, H.W. Kroto, M.F. Meidine, A.J. Abdul-Sada, R. Taylor and D.R.M. Walton, Fullerene Sci. Technol., 3, 229 (1995)
208. Formation of [60]fullerene by pyrolysis of coranulene, 7,10-bis(2,2-dibromovinyl)-fluoranthene and 11,12-benzofluoranthene; C.J. Crowley, H.W. Kroto, R. Taylor, D.R.M. Walton, M.S. Bratcher, P.-C. Cheng and L.T. Scott; Tetrahedron Lett., 9215 (1995).
209. Physico-chemical studies on nanotubes and their encapsulated compounds; J.P. Hare, W.-K. Hsu, H.W.Kroto, A. Lappas, W.K. Maser, A.J. Pierik, K. Prassides, R. Taylor, M. Terrones and D.R.M. Walton in Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials K.M. Kadisch and R.S. Ruoff (Eds), Electrochem. Soc., 2, 599-620 (1995).
210. Nanoscale encapsulation of molybdenum carbide in carbon clusters; J.P. Hare, W-K Hsu, H.W. Kroto, A. Lappas, K. Prassides, M. Terrones and D.R.M. Walton, Chem. Mater., 8, 6-8 (1996).
211. Synthesis and characterisation of the methanofullerenes, C60(CHCN) and C60(CBr2); A.M. Benito, A.D. Darwish, H.W. Kroto, M.F. Meidine, R. Taylor and D.R.M. Walton, Tetrahedron Lett., 1085-1086 (1996).
212. Formation of C70Ph10 and C70Ph8 from the electrophile C70Cl10; P.R. Birkett, A.G. Avent, A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, Tetrahedron, 52, 5235-5246 (1996).
213. Hydrogenation of [76]-, [78]- and [84]fullerenes; A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc., Perkin Trans. 2, 1415-1418 (1996).
214. Polyhydrogenation of [60]- and [70]fullerenes with Zn/HCl and Zn/DCl; A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, Synthetic Mets., 77, 303-307 (1996).
215. Recent developments in hydrogenation and arylation of [60]- and [70]fullerenes, A.G. Avent, P.R. Birkett, A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, Mol. Mat., 7, 33-40 (1996).
216. Preparation and characterisation of C70Ph9OH: the first fullerene with a single hydroxy group attached to the cage; P.R. Birkett, A.G. Avent, A.D. Darwish, H.W. Kroto, R. Taylor and D.R.M. Walton, J. Chem. Soc. Chem. Commun., 1231-1232 (1996).
217. Electrical, magnetic and structural characterisation of fullerene soots; L.J. Dunne, A.K. Sarkar, H.W. Kroto, J. Munn, P. Kathirgamanathan, U. Heinen, J. Fernandez, J.P. Hare, D.G. Reid and A.D. Clark, J. Physics-Condensed Matter, 8, 2127-2141 (1996).
218. Fullerene-based materials science at Sussex, J.P. Hare, W-K. Hsu, M. Terrones, A. Sarkar, S.G. Firth, A. Lappas, R. Abeysinghe, H.W. Kroto, K. Prassides, R. Taylor and D.R.M. Walton, Mol. Mat., 7, 17-22 (1996).
219. Regiochemical clustering in halogenation of C60 and C70; P.R. Birkett, H.W. Kroto, R.Taylor and D.R.M. Walton, Mol. Mat., 7, 27-32 (1996).
220. Pyrolytic production of fullerenes; C.J. Crowley, R. Taylor, H.W. Kroto, D.R.M. Walton, P-C. Cheng and L.T. Scott, Synth. Mets., 77, 17-22 (1996).
221. Chlorination and arylation of [60]- and [70]fullerenes; P.R. Birkett, A.D. Darwish, A.G. Avent, H.W. Kroto, R. Taylor and D.R.M. Walton, Proc. NATO Workshop, 316, 199-213 (1996).
222. Graphitic structures: from planar to spheres, toroids and helices; M Terrones, W-K Hsu, J P Hare, H W Kroto, H Terrones and D R M Walton, Phil. Trans. Roy. Soc. Lond., A354, 2025-2054 (1996).
223. Pyrolytically grown BxCyNz nanomaterials: nanofibres and nanotubes; M Terrones, A M Benito, C Manteca-Diego, W-K Hsu, O I Osman, J P Hare, D G Reid, H Terrones, A K Cheetham, H W Kroto and D R M Walton, Chem. Phys. Lett., 257, 576-582 (1996).
224. Metal particle catalysed production of nanoscale BN structures; M Terrones, W-K Hsu, H Terrones, J P Zhang, S Ramos, J P Hare, R Castillo, K Prassides, A K Cheetham, H W Kroto and D R M Walton, Chem. Phys. Lett., 259, 568-573 (1996).
225. Production of carbon nanotubes and graphitic onions by condensed phase electrolysis; W-K Hsu, J P Hare, D G Reid, H W Kroto and D R M Walton in H Kuzmany, J Fink, M Mehring and S Roth (Eds), Fullerenes and Fullerene Structures, World Scientific, 1996, pp 226-231.
226. Morphology effects of catalytic particles in pyrolytic grown BxCyNz nanofibres and nanotubes; M Terrones, A N Benito, W K Hsu, O I Osman, J P Hare, D G Reid, K Prassides, H W Kroto, C Manteca-Diego, H Terrones and D R M Walton in H Kusmany, J Fink, M Mehring and S Roth (Eds), Fullerenes and Fullerene Structures, World Scientific, 1996, pp 243-249.
227. Electrolytic formation of carbon nanostructures; W-K Hsu, M Terrones, J P Hare, H Terrones, H W Kroto and D R M Walton, Chem. Phys. Lett., 262, 161-166 (1996).
228. Phosphine-catalysed cycloaddition of buta-2,3-dienoates and but-2-ynoates with [60]fullerene; B F ODonovan, P B Hitchcock, M F Meidine, H W Kroto, R Taylor and D R M Walton, J. Chem. Soc., Chem. Commun., 81-82 (1997).
229. Platinum(0)-[60]fullerene complexes with chelating phosphine ligands. Synthesis and characterisation of (h-C60)Pt(P-P) [P-P = dppe, dppp]; M van Wijnkoop, M F Meidine, A G Avent, A D Darwish, H W Kroto, R Taylor and D R M Walton, J. Chem. Soc. Dalton Trans., 675-676 (1997).
230. Preparation and characterisation of unsymmetrical C60Ph4 and symmetrical C60Ph2: the effect of regoselective attack upon C60Cl6; P R Birkett, A G Avent, A D Darwish, H W Kroto, R Taylor, D R M Walton, J. Chem. Soc. Perkin Trans. 2, 457-461 (1997)
231. Arylation of [60]fullerene via electrophilic aromatic substitution involving the electrophile C60Cl6: frontside nucleophilic substitution of fullerenes; P R Birkett, A G Avent, A D Darwish, I Hahn, H W Kroto, G J Langley, J OLoughlin, R Taylor and D R M Walton, J. Chem. Soc. Perkin Trans. 2, 1121 (1997)
232. Synthesis of nanotubes via catalytic pyrolysis of acetylene: a SEM study; T E Mller, D G Reid, W K Hsu, J P Hare, H W Kroto and D R M Walton, Carbon, 35, 951 (1997)
233. Controlled production of aligned-nanotube bundles; M Terrones, N Grobert, J Olivares, J P Zhang, H Terrones, K Kordatos, W K Hsu, J P Hare, P D Townsend, K Prassides, A Cheetham, H W Kroto and D R M Walton, Nature, 388, 52 (1997)
234. The Diels-Alder adduct of C70Ph8 with anthracene; A G Avent, P R Birkett, A D Darwish, H W Kroto, R Taylor and D R M Walton, Fullerene Sci. Technol., 5, 643 (1997)
235. Arylation of Br2/FeCl3/PhH: formation of C58 derivatives via CO loss; A D Darwish, P R Birkett, G J Langley, H W Kroto, R Taylor and D R M Walton, Fullerene Sci. Technol., 5, 705 (1997)
236. Synthetic routes to novel nanomaterials; with M Terrones, W K Hsu, J P Hare, H W Kroto and D R M Walton, Fullerene Sci. Technol., 5 813 (1997)
237. The structure of fullerene compounds; with A G Avent, A M Benito, P R Birkett, A D Darwish, P B Hitchcock, H W Kroto, I W Locke, M F Meidine, B F ODonovan, K Prassides, R Taylor, M van Wijnkoop and D R M Walton, J. Mol. Struct., 436-437, 1-9 (1997)
238. Transition metal surface decorated fullerene as possible catalytic agents for the creation of single-walled nanotubes of uniformed diameter; P R Birkett, A J Cheetham, B R Eggen, J P Hare, H W Kroto and D R M Walton, Chem. Phys. Lett., 281, 111-114 (1997)
239. Symmetry, space, stars and C60; H W Kroto, Angew. Chem. Int. Ed. Engl., 36, 1578 (1997), also Rev. Modern Physics, 69, 703 (1997). Nobel lectures in Chemistry 1996. Solid azafullerenes and azafullerides; K Prassides, F Wudl and W Andreoni, Fullerene Sci. Technol., 5, 801-812 (1997)
240. Fullerenes; K Prassides, Current Opinion in Solid State and Materials Science, 2, 433-439 (1997)
241. Spontaneous oxidation of C60Ph5X (X = H, Cl) to a benzo[b]furanyl[60]fullerene; A G Avent, P R Birkett, A D Darwish, H W Kroto, R Taylor and D R M Walton, J. Chem. Soc., Chem. Comm un., 1579-1580 (1997)
242. Novel nanotubes and encapsulated nanowires; M Terrones, W K Hsu, A Schilder, H Terrones, N Grobert, J P Hare, Y Q Zhu, M Schwoerer, K Prassides, H W Kroto and D R M Walton, Appl. Phys. A, 66, 307-317 (1998)
243. Novel formation of a phenylated isoquinolino[3,4:1,2][60]fullerene; A K Abdul-Sada, A G Avent, P R Birkett, A D Darwish, H W Kroto, R Taylor, D R M Walton and O B Woodhouse, J. Chem. Soc., Chem. Commun., 307-308 (1998)
244. A hexaallyl[60]fullerene, C60(CH2CH=CH2)6; A K Abdul-Sada, A G Avent, P R Birkett, H W Kroto, R Taylor and D R M Walton, J. Chem. Soc., Perkin Trans. 1, 393-395 (1998).
245. Electrochemical formation of novel nanowires and their dynamic effects; W K Hsu, M Terrones, H Terrones, N Grobert, A I Kirkland, J P Hare, K Prassides, P D Townsend, H W Kroto and D R M Walton, Chem. Phys. Lett., 284, 177-183 (1998).
246. Preparation of aligned carbon nanotubes catalysed by laser-etched cobalt thin films; M Terrones, N Grobert, J P Zhang, H Terrones, J Olivares, W K Hsu, J P Hare, A K Cheetham, H W Kroto and D R M Walton, Chem. Phys. Lett., 285, 299-305 (1998)
247. 3D silicon oxide nanostructures from nanoflowers to radiolaria; Y Q Zhu, W K Hsu, M Terrones, N Grobert, H Terrones, J P Hare, H W Kroto and D R M Walton, J. Mater. Chem., 8, 1859-1862 (1998)
248. Pyrolysis of C60-thin films yields Ni-filled sharp nanotubes; N Grobert, M Terrones, A J Osborne, H Terrones, W K Hsu, S Trasobares, Y Q Zhu, J P Hare, H W Kroto and D R M Walton, in H Kuzmany et al. (Eds) Proc. XII Internat. Winterschool on Electronic Properties of Novel Materials – Progress in Molecular Nanostructures, AIP Conf. Proc. 442, 1998, p 25
249. Nanotechnology of nanotubes and nanowires: from aligned carbon nanotubes to silicon oxide nanowires; N Grobert, J P Hare, W K Hsu, H W Kroto, A J Pidduck, C L Reeves, H Terrones, M Terrones, S Trasobares, C Vizard, D J Wallis, D R M Walton, P J Wright and Y Q Zhu, in H Kuzmany et al. (Eds) Proc. XII Internat. Winterschool on Electronic Properties of Novel Materials – Progress in Molecular Nanostructures, AIP Conf. Proc. 442, 1998, p 29
250. Stable [60]fullerene carbocations; A G Avent, P R Birkett, H W Kroto, R Taylor and D R M Walton, Chem. Commun., 2153-2154 (1998)
251. Functionalised fullerenes on silicon surfaces; M D Upward, P Moriarty, P H Beton, P R Birkett, H W Kroto, R Taylor and D R M Walton, Surface Sci., 405, 526-531 (1998)
252. Photophysical properties of some hexa-functionalized C60 derivatives; P.-F Coheur, J Cornil, D A dos Santos, P R Birkett, J Livin, J L Brdas, J.-M. Janot, P Seta, S Leach, D R M Walton, R Taylor, H W Kroto and R Colin, Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials, Electrochem. Soc., 6, 1140 (1998)
253. Thermolysis of C60 thin films yields Ni-filled tapered nanotubes; N Grobert, M Terrones, A J Osborne, H Terrones, W K Hsu, S Trasobares, Y Q Zhu, J P Hare, H W Kroto, D R M Walton, Appl. Phys. A, 67, 595 (1998)
254. Nanotubes: A revolution in materials science and electronics; M Terrones, W K Hsu, H W Kroto and D R M Walton, in A Hirsch (Ed) Topics in Current Chemistry, 199, 189-234 (1998)
255. Electrochemical production of low-melting metal nanowires; W K Hsu, J Li, H Terrones, M Terrones, N Grobert, Y Q Zhu, S Trasobares, J P Hare, C J Pickett, H W Kroto and D R M Walton, Chem. Phys. Lett., 301, 159-166 (1999)
256. Large-scale synthesis of carbon nanotubes by pyrolysis; K Tanaka, M Endo, K Takeuchi, W K Hsu, H W Kroto, M Terrones and D R M Walton, The Science and Technology of Carbon Nanotubes, K Tanaka, T Yamabe and K Fukui (Eds) Elsevier, 1999, Ch 11, pp 143-152
257. Solid phase production of carbon nanotubes; W K Hsu, Y Q Zhu, S Trasobares, H Terrones, M Terrones, N Grobert, H Takikawa, J P Hare, H W Kroto and D R M Walton, Appl. Phys. A, Rapid Commun., 68, 493 (1999)
258. New science for new materials; J P Attfield, R L Johnston, H W Kroto and K Prassides, in N Hall (Ed.), The Age of the Molecule, Royal Society of Chemistry, London, 1999, pp 181-208.
259. Carbon nitride nanocomposites: formation of aligned CxNy nanofibres; M Terrones, P Redlich, N Grobert, S Trasobares, W K Hsu, H Terrones, Y Q Zhu, J P Hare, C L Reeves, A K Cheetham, M Rhle, H W Kroto and D R M Walton, Advan. Mater., 11, 655-658 (1999)
260. Photophysical properties of C60Cl6, C60Ph5Cl and C60Ph5H; P-F Coheur, J Cornil, D A dos Santos, P R Birkett, J Livin, J L Brdas, J-M Janot, P Seta, S Leach, D R M Walton, R Taylor, H W Kroto and R Colin, Synthetic Mets, 103, 2407-2410 (1999)
261. Advances in the creation of filled nanotubes and novel nanowires; M Terrones, N Grobert, W K Hsu, Y Q Zhu, W B Hu, H Terrones, J P Hare, H W Kroto and D R M Walton, MRS Bull., 24, 43-49 (1999)
262. Tungsten oxide tree-like structures; Y Q Zhu, W Hu, W K Hsu, M Terrones, N Grobert, J P Hare, H W Kroto, D R M Walton and H Terrones, Chem. Phys. Lett., 309, 327-334 (1999)
263. Electrolytic formation of carbon-sheathed mixed Sn-Pb-nanowires; W K Hsu, S Trasobares, H Terrones, M Terrones, N Grobert, Y Q Zhu, W Z Li, R Escudero, J P Hare, H W Kroto and D R M Walton, Chem. Mater., 11, 1747-1751 (1999)
264. A simple route to silicon-based nanostructures; Y Q Zhu, W B Hu, W K Hsu, M Terrones, N Grobert, T Karali, H Terrones, J P Hare, P D Townsend, H W Kroto and D R M Walton, Advan. Mater., 11, 844-847 (1999)
265. Microscopy study of the growth process and structural features of silicon oxide nanoflowers; Y Q Zhu, W K Hsu, M Terrones, N Grobert, W B Hu, J P Hare, H W Kroto and D R M Walton, Chem. Mater., 11, 2709-2715 (1999)
266. Stable BC2N nanostructures; low temperature production of segregated C/BN layered materials; Ph. Kohler-Redlich, M Terrones, C Manteca-Deigo, W K Hsu, H Terrones, M Rhle, H W Kroto and D R M Walton, Chem. Phys. Lett., 310, 459-465 (1999)
267. Enhanced magnetic coercivities in Fe nanowires; N Grobert, M Terrones, Ph Redlich, H Terrones, R Escudero, F Morales, W K Hsu, Y Q Zhu, J P Hare, M Rhle, H W Kroto and D R M Walton, Appl. Phys. Lett., 75, 3363-3364 (1999)
268. SiC-SiOx heterojunctions in nanowires; Y Q Zhu, W B Hu, W K Hsu, M Terrones, N Grobert, J P Hare, H W Kroto and D R M Walton, J. Mater. Chem., 9, 3173-3178 (1999)
269. An efficient route to large arrays of CNx nanofibres by pyrolysis of ferrocene/melamine mixtures; MTerrones, H Terrones, N Grobert, W K Hsu, Y Q Zhu, J P Hare, H W Kroto, D R M Walton, Ph Kohler-Redlich, M Rhle, J P Zhang and A K Cheetham, Appl. Phys. Lett., 75, 3932-3934 (1999)
270. Novel base-catalysed formation of benzo(b)furano[60]- and [70] fullerenes; A D Darwish, A G Avent, H W Kroto, R Taylor and D R M Walton, J. Chem. Soc., Perkin Trans. 2, 1983-1988 (1999)
271. New advances in the creation of nanostructured materials; N Grobert, J P Hare, W-K Hsu, H W Kroto, M Terrones, D R M Walton and Y K Zhu, Pure Appl. Chem., 71, 2125-2130 (1999)
272. A novel route to aligned nanotubes and nanofibres using laser patterned catalytic substrates; N Grobert, M Terrones, S Trasobares, K Kordatos, H Terrones, J Olivares, J P Zhang, Ph Redlich, W K Hsu, C L Reeves, D J Wallis, Y Q Zhu, J P Hare, A J Pidduck, H W Kroto and D R M Walton, Appl. Phys. A., 70, 175-183 (2000)
273. Generation of hollow crystalline tungsten oxide fibres; W B Hu, Y Q Zhu, W K Hsu, B H Chang, M Terrones, N Grobert, H Terrones, J P Hare, H W Kroto and D R M Walton, Appl. Phys. A, 70, 231-
274. NaCl crystallisation within the space between carbon nanotube walls; W K Hsu, W Z Li, Y Q Zhu, M Terrones, H Terrones, N Yao, J P Zhang, S Firth, R J H Clark, N Grobert, A K Cheetham, H W Kroto and D R M Walton, Chem. Phys. Lett., 317, 77-82 (2000)
275. Boron-doping effects in carbon nanotubes; W K Hsu, S Firth, Ph Redlich, M Terrones, H Terrones, Y Q Zhu, N Grobert, A Schilder, R J H Clark, H W Kroto and D R M Walton, J. Mater. Chem., 10, 1425-1429 (2000)
276. Self-assembly of Si nanostructures; Y Q Zhu, W K Hsu, N Grobert, M Terrones, H Terrones,H W Kroto, D R M Walton and B Q Wei, Chem. Phys. Lett., 322, 312-320 (2000)
277. J L Brdas, D R M Walton, R Taylor, H W Kroto and R Colin, J. Chem. Phys., 112, 6371-6781 (2000)
278. Production of WS2 nanotubes; Y Q Zhu, W K Hsu, N Grobert, B H Chang, M Terrones, H Terrones, H W Kroto, D R M Walton and B Q Wei, Chem. Mater., 12, 1190 (2000)
279. Carbon nanotubes as nanoreactors for boriding iron nanowires; W-Q Han, P K Redlich, C Scheu, F Ernst, M Rhle, N Grobert, M Terrones, H W Kroto and D R M Walton, Adv. Mater., 12, 1356-1359 (2000)
280. Metallic behaviour of boron-containing carbon nanotubes; W K Hsu, S Y Chu, E MunozPicone, J L Boldu, S Firth, P Franchi, P B Roberts, A Schilder, H Terrones, N Grobert, Y Q Zhu, M Terrones, M E McHenry, H W Kroto and D R M Walton, Chem. Phys. Lett., 323, 572-579 (2000)
281. An alternative route to molybdenum disulfide nanotubes; W K Hsu, B H Chang, Y Q Zhu, Y Q Han, H Terrones, M Terrones, N Grobert, A K Cheetham, H W Kroto and D R M Walton, J. Am. Chem. Soc., 122, 10155-10158 (2000)
282. Morphology, structure and growth of WS2 nanotubes; Y Q Zhu, W K Hsu, H Terrones, N Grobert, B H Chang, M Terrones, B Q Wei, H W Kroto, D R M Walton, C B Boothroyd, I Kinlock, G Z Chen, A H Windle and D J Fray, J. Mater. Chem. 10, 2570-2577 (2000)
283. Mixed phase WxMoyCzS2 nanotubes; W K Hsu, Y Q Zhu, C B Boothroyd, I Kinloch, S Trasobares, H Terrones, N Grobert, M Terrones, R Escudero, G Z Chen, C Colliex, A H Windle, D J Fray, H W Kroto and D R M Walton, Chem. Mater., 12, 3541-3546 (2000)
284. C-MoS2 and C-WS2 nanocomposites; W K Hsu, Y Q Zhu, H W Kroto, D R M Walton, R Kamalakaran, M Terrones, Appl. Phys. Lett., 77, 4130-4132 (2000)
285. Aligned CNx nanotubes by pyrolysis of ferrocene/C60 under NH3 atmosphere; W-Q Han, P Kohler-Redlich, T Seeger, F Ernst, M Rhle, N Grobert, W-K Hsu, B-H Chang, Y-Q Zhu, H W Kroto, D R M Walton, M Terrones and H Terrones, Appl. Phys. Lett., 77, 1807-1809 (2000)
286. C60F18O, the first characterised intramolecular fullerene ether; O V Boltalina, B de La Vaissi, P W Fowler, P B Hitchcock, J P B Sandell, P A Troshin and R Taylor, Chem. Commun., 1325 (2000)
287. Cathodoluminescence of fullerene C60; A P Rowlands, T Karali, M Terrones, N Grobert, P D Townsend and K Kordatos, J. Phys. Condensed Matter, 12, 7869-7878 (2000)
288. Photophysical properties of hexa-functionalised C60 derivatives: spectroscopic and quantum-chemical investigations; P-F Coheur, J Cornil, D A dos Santos, P R Birkett, J Livin, J L Brdas, D R M Walton, R Taylor, H W Kroto and R Colin, J. Chem. Phys., 112, 8555 (2000)
289. WxMoyCzS2 nanotubes; W K Hsu, Y Q Zhu, S Firth, M Terrones, H Terrones, S Trasobares, R J H Clark, H W Kroto and D R M Walton; Carbon, 39, 1103-1116 (2001)
290. Tungsten-niobium-sulfur composite nanotubes; Y Q Zhu, W K Hsu, M Terrones, S Firth, N Grobert, R J H Clark, H W Kroto and D R M Walton, Chem. Comm., 121-122 (2001)
291. Preparation and characterisation of two [70]fullerene diols, C70Ph8(OH)2; A G Avent, P R Birkett, A D Darwish, H W Kroto, R Taylor and D R M Walton, J. Chem. Soc., Perkin Trans. 2, 68 (2001)
292. Titanium-doped molybdenum disulfide nanostructures; W K Hsu, Y Q Zhu, N Yao, S Firth, R J H Clark, H W Kroto and D R M Walton, Adv. Functional Mat., 11, 69 (2001)
293. Pyrolytic production of aligned carbon nanotubes from homogeneously dispersed benzene-based aerosols; M Mayne, N Grobert, M Terrones, R Kamalakaran, M Rhle, H W Kroto and D R M Walton, Chem. Phys. Lett., 338, 101-107 (2001)
294. Nb-doped WS2 nanotubes; Y Q Zhu, W K Hsu, S Firth, M Terrones, R J H Clark, H W Kroto and D R M Walton, Chem. Phys. Lett., 342, 15-21 (2001)
295. A low resistence boron-doped carbon nanotube-polystyrene complex; P C P Watts, W K Hsu, G Z Cheng, D J Fray, H W Kroto and D R M Walton, J. Mat. Chem., 11, 2482 (2001)
296. Electron beam puncturing of carbon nanotube containers for release of stored nitrogen gas; S Trasobares, O Stphan, C Colliex, G Hug, W K Hsu, H W Kroto and D R M Walton, Eur. Phys. J B, 22, 117 (2001)
297. Tungsten disulphide sheathed carbon nanotubes; R L D Whitby, W K Hsu, P K Fearon, H W Kroto, D R M Walton and C B Boothroyd, Chem. Phys. Chem., 2, 620 (2001)
298. SiOx-coating of carbon nanotubes at room temperature; T Seeger, Ph Redlich, N Grobert, M Terrones, D R M Walton, H W Kroto and M Rhle, Chem. Phys. Lett., 339, 41-46 (2001)
299. Carbon nanotube templated promoted growth of NbS2 nanotubes/nanorods; Y Q Zhu, W K Hsu, H W Kroto and D R M Walton, Chem. Comm., 2184 (2001)
300. Selective Co-catalysed growth of novel MgO fishbone fractal nanostructures; Y Q Zhu, W K Hsu, W Z Zhou, M Terrones, H W Kroto and D R M Walton, Chem. Phys. Lett., 347, 337 (2001)
301. Novel nanostructures: from metal-filled carbon nanotubes to MgO nanoferns; N Grobert, W K Hsu, H W Kroto, M Mayne, M Terrones, P C P Watts, R L D Whitby, D R M Walton and Y Q Zhu, in Perspectives of Fullerene Nanotechnology, E Osawa (Ed), Kluwer AP (proofs 09 Oct 2001)
302. Some 4-fluorophenyl derivatives of [60]fullerene: oxide-induced fragmentation to C58; A D Darwish, A G Avent, P R Birkett, H W Kroto, R Taylor and D R M Walton, J. Chem. Soc., Perkin Trans. 2, 782 (2001)
303. WS2 nanotubes containing single-walled carbon nanotube bundles; R L D Whitby, W K Hsu, P C P Watts, H W Kroto and D R M Walton, Appl. Phys. Lett., 79, 4574 (2001)
304. Complex WS2 nanostructures; R L D Whitby, W K Hsu, T H Lee, C B Boothroyd, H W Kroto and D R M Walton, Chem. Phys. Lett., (proofs 13 May 2002)
305. Camphor-based carbon nanotubes as an anode in lithium secondary batteries; M Sharon, W K Hsu, H W Kroto, D R M Walton, A Kawahara, T Ishihara and Y Takita, J. Power Sources, 104, 148 (2002)
306. Field emission from non-aligned carbon nanotubes embedded in a polystyrene matrix; C H Poa, S R P Silva, P C P Watts, W K Hsu, H W Kroto and D R M Walton, Appl. Phys. Lett., (proofs checked 04 April 2002)
307. Novel SiOx-coated carbon nanotubes; M Rhle, T Seeger, Ph Redlich, N Grobert, M Terrones, D R M Walton and H W Kroto, J. Ceramic Processing Research, 3, 1 (2002)
308. Multi-walled carbon nanotubes coated with tungsten disulphide; R L D Whitby, W K Hsu, P K Fearon, N C Billingham, I Maurin, H W Kroto, D R M Walton, C B Boothroyd, S Firth, R J H Clark and D Collison, Chem. Mater., 14, 2209 (2002)
309. Compartmentalised CNx nanotubes; Chemistry, morphology and growth; S Trasobares, O Stephan, G Hug, C Colliex, W K Hsu, H W Kroto and D R M Walton, J. Chem. Phys., 116, 8966 (2002)
310. Hollow cathode plasma synthesis of carbon nanofiber arrays at low temperature; A Huczko, H Lange, M Sioda, Y Q Zhu, W K Hsu, H W Kroto and D R M Walton, J. Chem. Phys., 106, 1534 (2002)
311. Tungsten disulphide coated multi-walled carbon nanotubes; R L D Whitby, W K Hsu, C B Boothroyd, H W Kroto and D R M Walton, Chem. Phys. Lett., (proofs 16 May)
312. WS2 layer formation on multi-walled carbon nanotubes; R L D Whitby, W K Hsu, C B Boothroyd, K S Brigatti, H W Kroto and D R M Walton, Appl. Phys. A, (submitted 11 June 2002)
313. Novel ceramic nanostructures generated by arc-discharge; Y Q Zhu, H W Kroto,D R M Walton, H Langer and A Huczko, Chem. Phys. Lett., (submitted 10 June 2002)
314. Carbon nanotube composites as electrodes for salt water batteries; P C P Watts, S F A Acquah, W K Hsu, J P Hare, H W Kroto and D R M Walton, J. Mater. Chem., (submitted 18 June 2002)
315. An alternative route to NbS2 nanotubes; Y Q Zhu, W K Hsu, H W Kroto and D R M Walton, J. Phys. Chem. B., (accepted 10 June 2002)
316. Conversion of amorphous WO3-x into WS2 nanotubes; R L D Whitby, W K Hsu, H W Kroto and D R M Walton, Phys. Chem. Chem. Phys., (submitted 18 June 2002)
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