HistCite - main: Papers by HW Kroto

Ranked All-Publication list

Thu Jul 27 12:53:14 2006

Papers by HW Kroto

Collection span: 1963 - 2006

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Page 4 of 4: [ 1 2 3 4 ]

# LCR NCR Node / Date / Journal / Author LCS GCS
301 5 19 183 1993 JOURNAL OF THE CHEMICAL SOCIETY-CHEMICAL COMMUNICATIONS (10): 875-878
TAYLOR R; LANGLEY GJ; BRISDON AK; HOLLOWAY JH; HOPE EG; et al.
HIGHLY OXYGENATED DERIVATIVES OF FLUORINATED C-60, AND THE MODE OF FRAGMENTATION OF THE FLUORINATED CAGE UNDER ELECTRON-IMPACT IONIZATION CONDITIONS
2 48
302 3 22 187 1993 JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2 (6): 1029-1036
TAYLOR R; LANGLEY GJ; AVENT AG; DENNIS TJS; KROTO HW; et al.
C-13 NMR-SPECTROSCOPY OF C-76, C-78, C-84 AND MIXTURES OF C-86-C102 - ANOMALOUS CHROMATOGRAPHIC BEHAVIOR OF C-82, AND EVIDENCE FOR C70H12
3 77
303 5 35 189 1993 NATURE 366 (6457): 728-731
TAYLOR R; LANGLEY GJ; KROTO HW; WALTON DRM
FORMATION OF C60 BY PYROLYSIS OF NAPHTHALENE
4 103
304 5 28 191 1993 PURE AND APPLIED CHEMISTRY 65 (1): 135-142
TAYLOR R; AVENT AG; BIRKETT PR; DENNIS TJS; HARE JP; et al.
ISOLATION, CHARACTERIZATION, AND CHEMICAL-REACTIONS OF FULLERENES
0 6
305 11 33 213 1995 JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2 (1): 181-187
TAYLOR R; LANGLEY GJ; HOLLOWAY JH; HOPE EG; BRISDON AK; et al.
OXYGENATED SPECIES IN THE PRODUCTS OF FLUORINATION OF [60]-FULLERENE AND [70]-FULLERENE BY FLUORINE-GAS
0 34
306 6 27 222 1996 CHEMICAL PHYSICS LETTERS 257 (5-6): 576-582
Terrones M; Benito AM; MantecaDiego C; Hsu WK; Osman OI; et al.
Pyrolytically grown BxCyNz nanomaterials: Nanofibres and nanotubes
12 128
307 8 32 223 1996 CHEMICAL PHYSICS LETTERS 259 (5-6): 568-573
Terrones M; Hsu WK; Terrones H; Zhang JP; Ramos S; et al.
Metal particle catalysed production of nanoscale BN structures
11 148
308 9 57 232 1996 PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES 354 (1715): 2025-2054
Terrones M; Hsu WK; Hare JP; Kroto HW; Terrones H; et al.
Graphitic structures: From planar to spheres, toroids and helices
0 48
309 7 44 243 1997 FULLERENE SCIENCE AND TECHNOLOGY 5 (4): 813-827
Terrones M; Hsu WK; Hare JP; Kroto HW; Walton DRM
Synthetic routes to novel nanomaterials
1 2
310 3 21 252 1997 NATURE 388 (6637): 52-55
Terrones M; Grobert N; Olivares J; Zhang JP; Terrones H; et al.
Controlled production of aligned-nanotube bundles
11 415
# LCR NCR Node / Date / Journal / Author LCS GCS
311 5 56 254 1998 APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING 66 (3): 307-317
Terrones M; Hsu WK; Schilder A; Terrones H; Grobert N; et al.
Novel nanotubes and encapsulated nanowires
9 54
312 5 30 259 1998 CHEMICAL PHYSICS LETTERS 285 (5-6): 299-305
Terrones M; Grobert N; Zhang JP; Terrones H; Olivares J; et al.
Preparation of aligned carbon nanotubes catalysed by laser-etched cobalt thin films
9 67
313 3 28 265 1999 ADVANCED MATERIALS 11 (8): 655-+
Terrones M; Redlich P; Grobert N; Trasobares S; Hsu WK; et al.
Carbon nitride nanocomposites: Formation of aligned CxNy nanofibers
4 92
314 5 25 269 1999 APPLIED PHYSICS LETTERS 75 (25): 3932-3934
Terrones M; Terrones H; Grobert N; Hsu WK; Zhu YQ; et al.
Efficient route to large arrays of CNx nanofibers by pyrolysis of ferrocene/melamine mixtures
1 83
315 14 191 275 1999 FULLERENES AND RELATED STRUCTURES 199: 189-234
Terrones M; Hsu WK; Kroto HW; Walton DRM
Nanotubes: A revolution in materials science and electronics
3 93
316 14 79 278 1999 MRS BULLETIN 24 (8): 43-49
Terrones M; Grobert N; Hsu WK; Zhu YQ; Hu WB; et al.
Advances in the creation of filled nanotubes and novel nanowires
1 31
317 3 22 307 2001 EUROPEAN PHYSICAL JOURNAL B 22 (1): 117-122
Trasobares S; Stephan O; Colliex C; Hug G; Hsu WK; et al.
Electron beam puncturing of carbon nanotube containers for release of stored N-2 gas
1 19
318 4 27 322 2002 JOURNAL OF CHEMICAL PHYSICS 116 (20): 8966-8972
Trasobares S; Stephan O; Colliex C; Hsu WK; Kroto HW; et al.
Compartmentalized CNx nanotubes: Chemistry, morphology, and growth
0 27
319 2 14 262 1998 SURFACE SCIENCE 405 (2-3): L526-L531
Upward MD; Moriarty P; Beton PH; Birkett PR; Kroto HW; et al.
Functionalized fullerenes on silicon surfaces
0 6
320 0 25 248 1997 JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS (4): 675-677
vanWijnkoop M; Meidine MF; Avent AG; Darwish AD; Kroto HW; et al.
Platinum(0)-[60]fullerene complexes with chelating diphosphine ligands. Syntheses and characterisation of [Pt(eta(2)-C-60)(L-L)] [L-L=Ph(2)P(CH2)(n)PPh(2), n=2 or 3]
1 11
# LCR NCR Node / Date / Journal / Author LCS GCS
321 1 44 345 2005 CROATICA CHEMICA ACTA 78 (2): 223-234
Vukicevic D; Kroto HW; Randic M
Atlas of Kekule valence structures of buckminsterfullerene
0 2
322 3 23 309 2001 JOURNAL OF MATERIALS CHEMISTRY 11 (10): 2482-2488
Watts PCP; Hsu WK; Chen GZ; Fray DJ; Kroto HW; et al.
A low resistance boron-doped carbon nanotube-polystyrene composite
4 33
323 3 17 327 2002 PHYSICAL CHEMISTRY CHEMICAL PHYSICS 4 (22): 5655-5662
Watts PCP; Hsu WK; Randall DP; Kroto HW; Walton DRM
Non-linear current-voltage characteristics of electrically conducting carbon nanotube-polystyrene composites
2 8
324 4 19 332 2003 JOURNAL OF MATERIALS CHEMISTRY 13 (3): 491-495
Watts PCP; Fearon PK; Hsu WK; Billingham NC; Kroto HW; et al.
Carbon nanotubes as polymer antioxidants
0 12
325 4 17 336 2003 NANO LETTERS 3 (4): 549-553
Watts PCP; Hsu WK; Kroto HW; Walton DRM
Are bulk defective carbon nanotubes less electrically conducting?
1 11
326 6 15 46 1979 JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS (9): 1405-1408
WESTWOOD NPC; KROTO HW; NIXON JF; SIMMONS NPC
FORMATION OF 1-PHOSPHAPROPYNE, PHOSPHINETRIYLETHANE OR ETHYLIDYNEPHOSPHINE CH3C=P, BY PYROLYSIS OF DICHLORO(ETHYL)PHOSPHINE - HE(I) PHOTOELECTRON SPECTROSCOPIC STUDY
15 46
327 0 10 297 2001 APPLIED PHYSICS LETTERS 79 (27): 4574-4576
Whitby RLD; Hsu WK; Watts PCP; Kroto HW; Walton DRM; et al.
WS2 nanotubes containing single-walled carbon nanotube bundles
4 15
328 5 15 306 2001 CHEMPHYSCHEM 2 (10): 620-623
Whitby RLD; Hsu WK; Boothroyd CB; Fearon PK; Kroto HW; et al.
Tungsten disulphide sheathed carbon nanotubes
6 22
329 6 22 316 2002 CHEMICAL PHYSICS LETTERS 359 (1-2): 68-76
Whitby RLD; Hsu WK; Lee TH; Boothroyd CB; Kroto HW; et al.
Complex WS2 nanostructures
3 9
330 4 20 317 2002 CHEMICAL PHYSICS LETTERS 359 (1-2): 121-126
Whitby RLD; Hsu WK; Boothroyd CB; Kroto HW; Walton DRM
Tungsten disulphide coated multi-walled carbon nanotubes
3 6
# LCR NCR Node / Date / Journal / Author LCS GCS
331 7 24 319 2002 CHEMISTRY OF MATERIALS 14 (5): 2209-2217
Whitby RLD; Hsu WK; Fearon PK; Billingham NC; Maurin I; et al.
Multiwalled carbon nanotubes coated with tungsten disulfide
5 17
332 4 12 326 2002 PHYSICAL CHEMISTRY CHEMICAL PHYSICS 4 (16): 3938-3940
Whitby RLD; Hsu WK; Kroto HW; Walton DRM
Conversion of amorphous WO3-x into WS2 nanotubes
1 3
333 6 15 329 2003 APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING 76 (4): 527-532
Whitby RLD; Hsu WK; Boothroyd CB; Brigatti KS; Kroto HW; et al.
WS2 layer formation on multi-walled carbon nanotubes
1 3
334 10 31 337 2003 NEW DIAMOND AND FRONTIER CARBON TECHNOLOGY 13 (1): 7-18
Whitby RLD; Hsu WK; Boothroyd CB; Kroto HW; Walton DRA
WS2/C nanocomposites reviewed
0 0
335 15 121 342 2004 PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES 362 (1823): 2127-2142
Whitby RLD; Hsu WK; Zhu YQ; Kroto HW; Walton DRM
Novel nanoscale architectures: coated nanotubes and other nanowires
0 3
336 2 15 97 1986 JOURNAL OF PHYSICAL CHEMISTRY 90 (4): 525-528
ZHANG QL; OBRIEN SC; HEATH JR; LIU Y; CURL RF; et al.
REACTIVITY OF LARGE CARBON CLUSTERS - SPHEROIDAL CARBON SHELLS AND THEIR POSSIBLE RELEVANCE TO THE FORMATION AND MORPHOLOGY OF SOOT
21 393
337 5 37 260 1998 JOURNAL OF MATERIALS CHEMISTRY 8 (8): 1859-1864
Zhu YQ; Hsu WK; Terrones M; Grobert N; Terrones H; et al.
3D silicon oxide nanostructures: from nanoflowers to radiolaria
11 60
338 3 26 266 1999 ADVANCED MATERIALS 11 (10): 844-+
Zhu YQ; Hu WB; Hsu WK; Terrones M; Grobert N; et al.
A simple route to silicon-based nanostructures
2 47
339 1 21 271 1999 CHEMICAL PHYSICS LETTERS 309 (5-6): 327-334
Zhu YQ; Hu WB; Hsu WK; Terrones M; Grobert N; et al.
Tungsten oxide tree-like structures
10 57
340 4 28 274 1999 CHEMISTRY OF MATERIALS 11 (10): 2709-2715
Zhu YQ; Hsu WK; Terrones M; Grobert N; Hu WB; et al.
Microscopy study of the growth process and structural features of silicon oxide nanoflowers
2 17
# LCR NCR Node / Date / Journal / Author LCS GCS
341 5 30 276 1999 JOURNAL OF MATERIALS CHEMISTRY 9 (12): 3173-3178
Zhu YQ; Hu WB; Hsu WK; Terrones M; Grobert N; et al.
SiC-SiOx heterojunctions in nanowires
2 50
342 3 17 287 2000 CHEMICAL PHYSICS LETTERS 322 (5): 312-320
Zhu YQ; Hsu WK; Grobert N; Terrones M; Terrones H; et al.
Self-assembly of Si nanostructures
0 11
343 4 36 289 2000 CHEMISTRY OF MATERIALS 12 (5): 1190-1194
Zhu YQ; Hsu WK; Grobert N; Chang BH; Terrones M; et al.
Production of WS2 nanotubes
12 52
344 6 39 294 2000 JOURNAL OF MATERIALS CHEMISTRY 10 (11): 2570-2577
Zhu YQ; Hsu WK; Terrones H; Grobert N; Chang BH; et al.
Morphology, structure and growth of WS2 nanotubes
7 34
345 2 14 299 2001 CHEMICAL COMMUNICATIONS (01): 121-122
Zhu YQ; Hsu WK; Terrones M; Firth S; Grobert N; et al.
Tungsten-niobium-sulfur composite nanotubes
2 12
346 4 21 301 2001 CHEMICAL COMMUNICATIONS (21): 2184-2185
Zhu YQ; Hsu WK; Kroto HW; Walton DRM
Carbon nanotube template promoted growth of NbS2 nanotubes/nanorods
2 24
347 5 25 304 2001 CHEMICAL PHYSICS LETTERS 342 (1-2): 15-21
Zhu YQ; Hsu WK; Firth S; Terrones M; Clark RJH; et al.
Nb-doped WS2 nanotubes
0 8
348 5 17 305 2001 CHEMICAL PHYSICS LETTERS 347 (4-6): 337-343
Zhu YQ; Hsu WK; Zhou WZ; Terrones M; Kroto HW; et al.
Selective Co-catalysed growth of novel MgO fishbone fractal nanostructures
2 47
349 1 14 318 2002 CHEMICAL PHYSICS LETTERS 365 (5-6): 457-463
Zhu YQ; Kroto HW; Walton DRM; Lange H; Huczko A
A systematic study of ceramic nanostructures generated by arc discharge
0 2
350 3 24 324 2002 JOURNAL OF PHYSICAL CHEMISTRY B 106 (31): 7623-7626
Zhu YQ; Hsu WK; Kroto HW; Walton DRM
An alternative route to NbS2 nanotubes
0 16
# LCR NCR Node / Date / Journal / Author LCS GCS
351 2 28 334 2003 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 125 (5): 1329-1333
Zhu YQ; Sekine T; Brigatti KS; Firth S; Tenne R; et al.
Shock-wave resistance of WS2 nanotubes
0 21
352 4 19 339 2004 JOURNAL OF MATERIALS CHEMISTRY 14 (4): 685-689
Zhu YQ; Jin YZ; Kroto HW; Walton DRM
Co-catalysed VLS growth of novel ceramic nanostructures
0 5

#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
301	5	19	183 1993 JOURNAL OF THE CHEMICAL SOCIETY-CHEMICAL COMMUNICATIONS (10): 875-878 TAYLOR R; LANGLEY GJ; BRISDON AK; HOLLOWAY JH; HOPE EG; et al. HIGHLY OXYGENATED DERIVATIVES OF FLUORINATED C-60, AND THE MODE OF FRAGMENTATION OF THE FLUORINATED CAGE UNDER ELECTRON-IMPACT IONIZATION CONDITIONS	2	48
302	3	22	187 1993 JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2 (6): 1029-1036 TAYLOR R; LANGLEY GJ; AVENT AG; DENNIS TJS; KROTO HW; et al. C-13 NMR-SPECTROSCOPY OF C-76, C-78, C-84 AND MIXTURES OF C-86-C102 - ANOMALOUS CHROMATOGRAPHIC BEHAVIOR OF C-82, AND EVIDENCE FOR C70H12	3	77
303	5	35	189 1993 NATURE 366 (6457): 728-731 TAYLOR R; LANGLEY GJ; KROTO HW; WALTON DRM FORMATION OF C60 BY PYROLYSIS OF NAPHTHALENE	4	103
304	5	28	191 1993 PURE AND APPLIED CHEMISTRY 65 (1): 135-142 TAYLOR R; AVENT AG; BIRKETT PR; DENNIS TJS; HARE JP; et al. ISOLATION, CHARACTERIZATION, AND CHEMICAL-REACTIONS OF FULLERENES	0	6
305	11	33	213 1995 JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2 (1): 181-187 TAYLOR R; LANGLEY GJ; HOLLOWAY JH; HOPE EG; BRISDON AK; et al. OXYGENATED SPECIES IN THE PRODUCTS OF FLUORINATION OF [60]-FULLERENE AND [70]-FULLERENE BY FLUORINE-GAS	0	34
306	6	27	222 1996 CHEMICAL PHYSICS LETTERS 257 (5-6): 576-582 Terrones M; Benito AM; MantecaDiego C; Hsu WK; Osman OI; et al. Pyrolytically grown BxCyNz nanomaterials: Nanofibres and nanotubes	12	128
307	8	32	223 1996 CHEMICAL PHYSICS LETTERS 259 (5-6): 568-573 Terrones M; Hsu WK; Terrones H; Zhang JP; Ramos S; et al. Metal particle catalysed production of nanoscale BN structures	11	148
308	9	57	232 1996 PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES 354 (1715): 2025-2054 Terrones M; Hsu WK; Hare JP; Kroto HW; Terrones H; et al. Graphitic structures: From planar to spheres, toroids and helices	0	48
309	7	44	243 1997 FULLERENE SCIENCE AND TECHNOLOGY 5 (4): 813-827 Terrones M; Hsu WK; Hare JP; Kroto HW; Walton DRM Synthetic routes to novel nanomaterials	1	2
310	3	21	252 1997 NATURE 388 (6637): 52-55 Terrones M; Grobert N; Olivares J; Zhang JP; Terrones H; et al. Controlled production of aligned-nanotube bundles	11	415
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
311	5	56	254 1998 APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING 66 (3): 307-317 Terrones M; Hsu WK; Schilder A; Terrones H; Grobert N; et al. Novel nanotubes and encapsulated nanowires	9	54
312	5	30	259 1998 CHEMICAL PHYSICS LETTERS 285 (5-6): 299-305 Terrones M; Grobert N; Zhang JP; Terrones H; Olivares J; et al. Preparation of aligned carbon nanotubes catalysed by laser-etched cobalt thin films	9	67
313	3	28	265 1999 ADVANCED MATERIALS 11 (8): 655-+ Terrones M; Redlich P; Grobert N; Trasobares S; Hsu WK; et al. Carbon nitride nanocomposites: Formation of aligned CxNy nanofibers	4	92
314	5	25	269 1999 APPLIED PHYSICS LETTERS 75 (25): 3932-3934 Terrones M; Terrones H; Grobert N; Hsu WK; Zhu YQ; et al. Efficient route to large arrays of CNx nanofibers by pyrolysis of ferrocene/melamine mixtures	1	83
315	14	191	275 1999 FULLERENES AND RELATED STRUCTURES 199: 189-234 Terrones M; Hsu WK; Kroto HW; Walton DRM Nanotubes: A revolution in materials science and electronics	3	93
316	14	79	278 1999 MRS BULLETIN 24 (8): 43-49 Terrones M; Grobert N; Hsu WK; Zhu YQ; Hu WB; et al. Advances in the creation of filled nanotubes and novel nanowires	1	31
317	3	22	307 2001 EUROPEAN PHYSICAL JOURNAL B 22 (1): 117-122 Trasobares S; Stephan O; Colliex C; Hug G; Hsu WK; et al. Electron beam puncturing of carbon nanotube containers for release of stored N-2 gas	1	19
318	4	27	322 2002 JOURNAL OF CHEMICAL PHYSICS 116 (20): 8966-8972 Trasobares S; Stephan O; Colliex C; Hsu WK; Kroto HW; et al. Compartmentalized CNx nanotubes: Chemistry, morphology, and growth	0	27
319	2	14	262 1998 SURFACE SCIENCE 405 (2-3): L526-L531 Upward MD; Moriarty P; Beton PH; Birkett PR; Kroto HW; et al. Functionalized fullerenes on silicon surfaces	0	6
320	0	25	248 1997 JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS (4): 675-677 vanWijnkoop M; Meidine MF; Avent AG; Darwish AD; Kroto HW; et al. Platinum(0)-[60]fullerene complexes with chelating diphosphine ligands. Syntheses and characterisation of [Pt(eta(2)-C-60)(L-L)] [L-L=Ph(2)P(CH2)(n)PPh(2), n=2 or 3]	1	11
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
321	1	44	345 2005 CROATICA CHEMICA ACTA 78 (2): 223-234 Vukicevic D; Kroto HW; Randic M Atlas of Kekule valence structures of buckminsterfullerene	0	2
322	3	23	309 2001 JOURNAL OF MATERIALS CHEMISTRY 11 (10): 2482-2488 Watts PCP; Hsu WK; Chen GZ; Fray DJ; Kroto HW; et al. A low resistance boron-doped carbon nanotube-polystyrene composite	4	33
323	3	17	327 2002 PHYSICAL CHEMISTRY CHEMICAL PHYSICS 4 (22): 5655-5662 Watts PCP; Hsu WK; Randall DP; Kroto HW; Walton DRM Non-linear current-voltage characteristics of electrically conducting carbon nanotube-polystyrene composites	2	8
324	4	19	332 2003 JOURNAL OF MATERIALS CHEMISTRY 13 (3): 491-495 Watts PCP; Fearon PK; Hsu WK; Billingham NC; Kroto HW; et al. Carbon nanotubes as polymer antioxidants	0	12
325	4	17	336 2003 NANO LETTERS 3 (4): 549-553 Watts PCP; Hsu WK; Kroto HW; Walton DRM Are bulk defective carbon nanotubes less electrically conducting?	1	11
326	6	15	46 1979 JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS (9): 1405-1408 WESTWOOD NPC; KROTO HW; NIXON JF; SIMMONS NPC FORMATION OF 1-PHOSPHAPROPYNE, PHOSPHINETRIYLETHANE OR ETHYLIDYNEPHOSPHINE CH3C=P, BY PYROLYSIS OF DICHLORO(ETHYL)PHOSPHINE - HE(I) PHOTOELECTRON SPECTROSCOPIC STUDY	15	46
327	0	10	297 2001 APPLIED PHYSICS LETTERS 79 (27): 4574-4576 Whitby RLD; Hsu WK; Watts PCP; Kroto HW; Walton DRM; et al. WS2 nanotubes containing single-walled carbon nanotube bundles	4	15
328	5	15	306 2001 CHEMPHYSCHEM 2 (10): 620-623 Whitby RLD; Hsu WK; Boothroyd CB; Fearon PK; Kroto HW; et al. Tungsten disulphide sheathed carbon nanotubes	6	22
329	6	22	316 2002 CHEMICAL PHYSICS LETTERS 359 (1-2): 68-76 Whitby RLD; Hsu WK; Lee TH; Boothroyd CB; Kroto HW; et al. Complex WS2 nanostructures	3	9
330	4	20	317 2002 CHEMICAL PHYSICS LETTERS 359 (1-2): 121-126 Whitby RLD; Hsu WK; Boothroyd CB; Kroto HW; Walton DRM Tungsten disulphide coated multi-walled carbon nanotubes	3	6
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
331	7	24	319 2002 CHEMISTRY OF MATERIALS 14 (5): 2209-2217 Whitby RLD; Hsu WK; Fearon PK; Billingham NC; Maurin I; et al. Multiwalled carbon nanotubes coated with tungsten disulfide	5	17
332	4	12	326 2002 PHYSICAL CHEMISTRY CHEMICAL PHYSICS 4 (16): 3938-3940 Whitby RLD; Hsu WK; Kroto HW; Walton DRM Conversion of amorphous WO3-x into WS2 nanotubes	1	3
333	6	15	329 2003 APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING 76 (4): 527-532 Whitby RLD; Hsu WK; Boothroyd CB; Brigatti KS; Kroto HW; et al. WS2 layer formation on multi-walled carbon nanotubes	1	3
334	10	31	337 2003 NEW DIAMOND AND FRONTIER CARBON TECHNOLOGY 13 (1): 7-18 Whitby RLD; Hsu WK; Boothroyd CB; Kroto HW; Walton DRA WS2/C nanocomposites reviewed	0	0
335	15	121	342 2004 PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES 362 (1823): 2127-2142 Whitby RLD; Hsu WK; Zhu YQ; Kroto HW; Walton DRM Novel nanoscale architectures: coated nanotubes and other nanowires	0	3
336	2	15	97 1986 JOURNAL OF PHYSICAL CHEMISTRY 90 (4): 525-528 ZHANG QL; OBRIEN SC; HEATH JR; LIU Y; CURL RF; et al. REACTIVITY OF LARGE CARBON CLUSTERS - SPHEROIDAL CARBON SHELLS AND THEIR POSSIBLE RELEVANCE TO THE FORMATION AND MORPHOLOGY OF SOOT	21	393
337	5	37	260 1998 JOURNAL OF MATERIALS CHEMISTRY 8 (8): 1859-1864 Zhu YQ; Hsu WK; Terrones M; Grobert N; Terrones H; et al. 3D silicon oxide nanostructures: from nanoflowers to radiolaria	11	60
338	3	26	266 1999 ADVANCED MATERIALS 11 (10): 844-+ Zhu YQ; Hu WB; Hsu WK; Terrones M; Grobert N; et al. A simple route to silicon-based nanostructures	2	47
339	1	21	271 1999 CHEMICAL PHYSICS LETTERS 309 (5-6): 327-334 Zhu YQ; Hu WB; Hsu WK; Terrones M; Grobert N; et al. Tungsten oxide tree-like structures	10	57
340	4	28	274 1999 CHEMISTRY OF MATERIALS 11 (10): 2709-2715 Zhu YQ; Hsu WK; Terrones M; Grobert N; Hu WB; et al. Microscopy study of the growth process and structural features of silicon oxide nanoflowers	2	17
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
341	5	30	276 1999 JOURNAL OF MATERIALS CHEMISTRY 9 (12): 3173-3178 Zhu YQ; Hu WB; Hsu WK; Terrones M; Grobert N; et al. SiC-SiOx heterojunctions in nanowires	2	50
342	3	17	287 2000 CHEMICAL PHYSICS LETTERS 322 (5): 312-320 Zhu YQ; Hsu WK; Grobert N; Terrones M; Terrones H; et al. Self-assembly of Si nanostructures	0	11
343	4	36	289 2000 CHEMISTRY OF MATERIALS 12 (5): 1190-1194 Zhu YQ; Hsu WK; Grobert N; Chang BH; Terrones M; et al. Production of WS2 nanotubes	12	52
344	6	39	294 2000 JOURNAL OF MATERIALS CHEMISTRY 10 (11): 2570-2577 Zhu YQ; Hsu WK; Terrones H; Grobert N; Chang BH; et al. Morphology, structure and growth of WS2 nanotubes	7	34
345	2	14	299 2001 CHEMICAL COMMUNICATIONS (01): 121-122 Zhu YQ; Hsu WK; Terrones M; Firth S; Grobert N; et al. Tungsten-niobium-sulfur composite nanotubes	2	12
346	4	21	301 2001 CHEMICAL COMMUNICATIONS (21): 2184-2185 Zhu YQ; Hsu WK; Kroto HW; Walton DRM Carbon nanotube template promoted growth of NbS2 nanotubes/nanorods	2	24
347	5	25	304 2001 CHEMICAL PHYSICS LETTERS 342 (1-2): 15-21 Zhu YQ; Hsu WK; Firth S; Terrones M; Clark RJH; et al. Nb-doped WS2 nanotubes	0	8
348	5	17	305 2001 CHEMICAL PHYSICS LETTERS 347 (4-6): 337-343 Zhu YQ; Hsu WK; Zhou WZ; Terrones M; Kroto HW; et al. Selective Co-catalysed growth of novel MgO fishbone fractal nanostructures	2	47
349	1	14	318 2002 CHEMICAL PHYSICS LETTERS 365 (5-6): 457-463 Zhu YQ; Kroto HW; Walton DRM; Lange H; Huczko A A systematic study of ceramic nanostructures generated by arc discharge	0	2
350	3	24	324 2002 JOURNAL OF PHYSICAL CHEMISTRY B 106 (31): 7623-7626 Zhu YQ; Hsu WK; Kroto HW; Walton DRM An alternative route to NbS2 nanotubes	0	16
#	LCR	NCR	Node / Date / Journal / Author	LCS	GCS
351	2	28	334 2003 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 125 (5): 1329-1333 Zhu YQ; Sekine T; Brigatti KS; Firth S; Tenne R; et al. Shock-wave resistance of WS2 nanotubes	0	21
352	4	19	339 2004 JOURNAL OF MATERIALS CHEMISTRY 14 (4): 685-689 Zhu YQ; Jin YZ; Kroto HW; Walton DRM Co-catalysed VLS growth of novel ceramic nanostructures	0	5

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