&. Bacon-roger and . C. Bowman-j, Production and properties of graphite whiskers, Bulletin of the American Physics Society, vol.2, p.131, 1957.

B. R. and H. P. Terry-s, Unique form of filamentous carbon, Nature, vol.253, pp.37-39, 1975.

&. Berthelot-marcellin and . Petit-p, Sur les différents états des carbones-graphites et sur les dérivés chimiques qui leur correspondent, Comptes Rendus de l'Académie des Sciences de Paris, pp.5-101, 1890.

B. H. , C. A. Hofmann-u, and . Fischer-g, Dunnste kohlenstoff folien, Zeitschrift fur Naturforschung, vol.17, p.150, 1962.

B. H. , C. A. Fischer-g, and . Hofmann-u, Surface properties of extremely thin graphite lamellae, Proceedings of the Fifth Conference on Carbon, pp.73-80, 1963.

B. H. Setton-r and . Stumpp-e, Nomenclature and terminology of graphite intercalation compounds, Carbon, vol.24, pp.2-241, 1986.

B. D. Gal-'pern-e, About hypothetical system: carbododecahedron, s-icosahedron and carbo-s-icosahedron, Doklaldy Akademii Nauk SSSR, vol.209, pp.3-610, 1973.

B. F. Kasper-j, Hexagonal Diamond ? A New Form of Carbon, Journal of Chemical Physics, vol.46, p.3437, 1967.

B. P. Bradley-j, Electron beam studies of individual natural and anthropogenic microparticles: compositions, structures, and surface reactions, Heterogeneous Atmospheric Chemistry, pp.57-76, 1982.

C. and I. Post, at 10:11 AM at http://graphenetimes.com-isolation-ofgraphe ne, 2009.

C. Josep and &. Felix, GOAL ? An exercise in IUPAC nomenclature, Journal of Chemical Education, vol.60, p.941, 1983.

C. Hugh, Notice of a New Form of Carbon supposed to be the pure Metallic Base of the Substance; and also of several interesting Aggregations of Carbon, especially in so far as they elucidate the History of certain Carbonaceous Products found in Coal Gas Manufactories, Annals of Philosophy, vol.12, pp.28-29, 1826.

C. Zachary and '. Wentworth, The Mysterious Case of the 113-Year-Old Light Bulb Online: priceonomics.com/the-mysterious- case-of-the-113-year-old-light-bulb D, On Growth and Form, 1917.

D. Robert and A. , Spectral analysis of graphs by cyclic automorphism subgroups, Theoretica Chimica Acta, vol.58, pp.193-195, 1981.

D. W. Slawson-r and . R. Rigby-g, An Unusual Form of Carbon, Nature, vol.171, p.756, 1953.

D. Gilles and &. Félix, Anti-OEdipe. Capitalisme et schizophrénie: Anti-Oedipus ? Capitalism and Schizophrenia I, 1972.

D. M. Dresselhaus-g, Intercalation compounds of graphite, Advances in Physics, vol.30, issue.2, 1981.

D. M. Dresselhaus-g and F. M. Saito-r, Formation of general fullerenes by their projection on a honeycomb lattice, Physical Review B (Condensed Matter), vol.45, pp.23-13834, 1992.

D. M. Dresselhaus-g and F. M. Saito-r, Electronic structure of graphene tubules based on C60, Physical Review B (Condensed Matter), vol.46, pp.3-1804, 1992.

D. M. and D. G. Saito-r, Physics of carbon nanotubes, Carbon, vol.33, issue.7, pp.883-891, 1995.

D. M. Dresselhaus-g, S. X. Zhang-z, K. B. Cronin-s, and . Chen-g, The promise of low-dimensional thermoelectric materials, Microscale Thermophysical Engineering, vol.3, pp.2-89, 1999.

E. T. Ajayan-p, Large-scale synthesis of carbon nanotubes, Nature, vol.358, pp.220-222, 1992.

E. M. and O. A. Koyama-t, Filamentous growth of carbon through benzene decomposition, Journal of Crystal Growth, vol.32, p.335, 1976.

E. Morinobu, Gas phase method of manufacturing carbon fibers, 1986.

E. Morinobu, Grown carbon fibers in the vapor phase, Chemtech, vol.18, pp.568-576, 1988.

E. Morinobu, Electrode material for electric double layer capacitor and electric double layer capacitor using the same, pp.1246211-1246213, 2002.

E. Morinobu, Safety aspects of nanotechnology. From the viewpoint of carbon nanotubes for a low-carbon society " , Presentation for the OECD Conference on Potential Environmental Benefits of Nanotechnology: Fostering Safe Innovation-Led Growth, 2009.

G. Andre and K. , Nobel Lecture: Random walk to graphene, Review of Modern Physics, vol.83, p.851, 2010.

G. James and J. , The Ecological Approach to Visual Perception, 1979.

H. N. Sawada-s and . Oshiyama-a, New onedimensional conductors: graphitic microtubules, Physical Review Letters, vol.68, pp.10-1579, 1992.

H. Graham, The Quadruple Object, 2011.

H. Rom, The Materiality of instruments in a metaphysics for experiments, Philosophy of Scientific Experimentation, pp.19-38, 2003.

H. Peter and J. F. , Carbon Nanotubes and Related Structures: New Materials for the Twenty-first Century, 1999.

H. Tony and A. D. , Footballene: a theoretical prediction for the stable, truncated icosahedral molecule C60, Chemical Physics Letter, vol.122, pp.421-424, 1985.

H. Mats and &. Lange-nils, The structure of graphite filaments, Zeitschrift für Kristallographie ? Crystalline Materials, pp.1-6, 1958.

. Ho-yuh-shan, The top-cited research works in the Science Citation Index Expanded, Scientometrics, vol.94, pp.1297-1312, 2013.

H. R. , K. A. , and G. A. Proserpio-d, Homo citans and carbon allotropes: for an ethics of citation, Angewandte Chemie International Edition, vol.55, pp.37-10962, 2016.

I. Sumio, Direct observation of the tetrahedral bonding in graphitized carbon black by high-resolution electron microscopy, Journal of Crystal Growth, vol.50, p.675, 1980.

I. Sumio, The 60-Carbon Cluster Has Been Revealed!, Journal of Physical Chemistry, vol.91, pp.3466-3467, 1987.

I. Sumio, Helical microtubules of graphitic carbon, Nature, vol.354, pp.56-58, 1991.

I. Sumio and &. T. Ishahashi, Single-shell carbon nanotubes of 1 nm diameter, Nature, vol.363, p.603, 1993.

J. David and E. H. , Ariadne, New Scientist, vol.32, p.245, 1966.

J. David and E. H. , The Inventions of Daedalus: A Compendium of Plausible Schemes, 1982.

K. Vassily, Point and Line to Plane, 1929.

K. R. Viculis-l and . J. Mack-j, A Chemical Route to Carbon Nanoscrolls, Science, vol.299, issue.5611, pp.5611-1361, 2003.
DOI : 10.1126/science.1078842

K. V. Sladkov-a, . P. Kudryavtsev-y, . M. Popov-n, and . V. Korshak-v, Crystalline forms of a linear modification of carbon, Doklaldy Akademii Nauk SSSR, vol.177, pp.358-360, 1967.

K. W. , L. L. , and F. K. Huffman-d, Solid C60: a new form of carbon, Nature, vol.347, pp.354-358, 1990.

K. H. Broten-n, A. L. Oka-t, and . M. Macleod-j, The detection of HC9N in interstellar space, The Astrophysical Journal, vol.223, pp.105-107, 1978.
DOI : 10.1086/182739

L. Bruno, Reflections on Etienne Souriau's. Les différents modes d'existence The Speculative Turn, Continental Materialism and Realism, pp.304-333, 2010.

L. P. Jiang-k, L. Q. Liu-m, and . S. Fan, Polarized incandescent light emission from carbon nanotubes, Applied Physics Letters, vol.82, p.11, 2003.

L. Sacha and &. Vincent-bernadette, The multiple signatures of carbon, Research Objects in their Technological Settings, pp.185-200, 2017.

L. Michael, Ontography: Investigating the production of things, deflating ontology, Social Studies of Science, vol.43, pp.3-444, 2013.

M. Cyrus and M. , 1990: Buckyball & Carbon Nanotubes, Molecules that Matter, pp.159-176, 2008.

M. Cyrus and &. Michael, Test objects and other epistemic things: a history of a nanoscale object, The British Journal for the History of Science, vol.43, pp.3-423, 2010.

M. Marijana, Preparation and Physical Characterization of Carbon Nanotubes-SU8 Composites, 2011.

M. Marc and &. Vladimir, Who should be given the credit for the discovery of carbon nanotubes?, Carbon, vol.44, pp.1621-1625, 2006.

N. A. Kolesnik-n, A. Y. Suhomlin-v, and . V. Prilutskii-o, Characteristics of the phase composition and structure of products of the interaction of nickel(II) and iron(III) oxide with carbon monoxide, Izvestia Akadem ii Nauk SSSR Metally, vol.3, pp.12-17, 1982.

N. Alfred, Beyond friction: The inverted Platonism of technoscience, Research objects in their technological settings, pp.56-69, 2017.

N. Donald and A. , The Design of Everyday Things, 1990.

N. K. , G. A. , M. S. Jiang-d, D. S. Zhang-y, . V. Grigorieva-i et al., Electric field effect in atomically thin carbon films, Science, vol.306, pp.666-669, 2004.

N. K. Jiang-d, . Schedin-f, K. J. Booth-t, and M. S. Geim-a, Two-dimensional atomic crystals, Proceedings of the National Academy of Sciences of the United States of America, pp.30-10451, 2005.

P. Constant and &. Henri, Sur une variété de carbone filamenteux Note de MM. Constant et Henri Pélabon, présentée par M. Moissan, Comptes Rendus de l'Académie des Sciences de Paris, pp.706-708, 1903.

P. Alejandro, The electronic structure of graphite: A chemist's introduction to band theory, Journal of Chemical Education, vol.68, pp.10-804, 1991.

P. Nicola and M. , On the strength of the carbon nanotube-based space elevator cable: from nanomechanics to megamechanics, Journal of Physics: Condensed Matter, vol.18, pp.33-1971, 2006.

R. L. Lukyanovich-v, O strukture ugleroda, obrazujucegosja pri termiceskom razlozenii okisi ugleroda na zeleznom kontakte " [The carbon structure formed by thermal decomposition of carbon monoxide in contact with iron], Zhurnal Fizicheskoi Khimi, vol.26, pp.88-95, 1952.

R. E. Cox-d and . Kaldor-a, Production and characterization of supersonic carbon cluster beams, The Journal of Chemical Physics, vol.81, pp.7-3322, 1984.

R. Jean-noël, . Deldicque-damien, &. Charon-Émeline, and . Pageot-justin, Carbons at the heart of questions on energy and environment: A nanostructural approach, Comptes Rendus Geoscience, vol.347, pp.3-124, 2015.

S. Paul and &. Schützenberger-léon, Sur quelques faits relatifs à l'histoire du carbone, Comptes Rendus de l'Académie des Sciences de Paris, pp.774-778, 1890.

S. Jeffrey and I. Stuart, Wrong but seminal, Nature Chemistry, vol.8, pp.3-193, 2016.

S. Gilbert, Du mode d'existence des objets techniques English translation by Cecile MALASPINA: On the Mode of Existence of Technical Objects, 1958.

S. Richard and E. , Discovering the fullerenes (Nobel lecture), Angewandte Chemie International Edition in English, vol.36, pp.15-1594, 1997.

S. Etienne, Avoir une âme, 1939.

S. Etienne, Les différents modes d'existence, Paris, Presses Universitaire de France. English translation by Erik BERANEK & Tim HOWLES: The different Modes of Existence, 1943.

T. Howard and G. , Carbon fibrils, method for producing same and compositions containing same, 1984.

V. L. and M. J. Kaner-r, A chemical route to carbon nanoscrolls, Science, vol.299, pp.5611-1361, 2003.

W. P. Jr, Carbon ? An old but new material, American Scientist, vol.50, pp.2-259, 1962.

W. J. , W. B. , and Z. H. Wu-d, Carbon nanotube filaments in household light bulbs, Applied Physics Letters, vol.84, p.24, 2004.

W. J. Venema-l, R. A. Smalley-r, and . Dekker-c, Electronic structure of atomically resolved carbon nanotubes, Nature, vol.391, pp.6662-59, 1998.

W. P. Abrahamson-j, Carbon fibre layers on arc electrodes. Part I. Their properties and cool-down behaviour, Carbon, vol.16, pp.341-349, 1978.

X. D. Xue-q, C. H. Xie-j, . Lv-c, . Besenbacher-f, and . Dong-m, Fabrication of carbon nanoscrolls from monolayer graphene, Small, vol.6, pp.18-2010, 2010.