Arrhenius curve: CNT growth rate vs. inverse temperature to detect the limiting stage of the CNT growth.

Anisimov et al. Mechanistic investigations of single-walled carbon nanotube synthesis by ferrocene vapor decomposition in carbon monoxide, Carbon 48, 380-388 (2010).

Mechanism of CNT growth.Source:  Nasibulin and Shandakov, Aerosol synthesis of carbon nanotubes, A chapter In book Aerosols: Science and Technology, edited by I. Agranovski. Wiley-VCH Wiley-VCH, 65-89 (2010).

Novel method for synthesis of carbon nanotubes.Source:  Nasibulin et al.

A novel aerosol method for single walled carbon nanotube synthesis, Chemical Physics Letters 402, 227 – 232 (2005)

First individually resolved mobility spectra of two PEG samples.

Source:  Nasibulin et al. TEM imaging of mass-selected polymer molecules, Journal of Nanoparticle Research 4, 449-453 (2002).

All-carbon thin film transistors fabricated on a flexible PEN substrate.

Source:  Sun et al.  Mouldable all-carbon integrated circuits, Nature Communications 4, 2302 (2013).

Encapsulation of coronene inside single-walled carbon nanotubes (SWNTs).

Source:  Anoshkin et al. Coronene Encapsulation in Single‐Walled Carbon Nanotubes: Stacked Columns, Peapods, and Nanoribbons, ChemPhysChem 15, 1660-1665 (2014).

Carbon nanobuds: Bonding scenarios of fullerenes on SWNTs.

Source:  Nasibulin et al. A novel hybrid carbon material, Nature Nanotechnology 2, 156-161 (2007).

MgO nanorods synthesised directly in transmission electron microscopy.

Source:  Nasibulin et al. In Situ TEM Observation of MgO Nanorod Growth,, Crystal Growth & Design 10, 414-417 (2010).

Novel concept of the incorporation of CNTs/CNFs into composite material by their direct growth on the surface of matrix particles.

Source:  Nasibulin et al. A novel cement-based hybrid material, New Journal of Physics 11, 023013-023024 (2009).

A film of single-walled carbon tubes can be easily detached from the filter substrate.

Source:  Nasibulin et al. Integration of single-walled carbon nanotubes into polymer films by thermo-compression, Chemical Engineering Journal 136, pp. 409-413 (2008).

Graphene nanoribbons encapsulated in single-walled carbon nanotubes (GNR@SWNT)

Source:  Talyzin et al. Synthesis of graphene nanoribbons encapsulated in single-walled carbon nanotubes, Nano Letters 11, 4352-4356 (2011).

Rolling a carbon nanotube out of graphene.

Nasibulin and Shandakov, Aerosol synthesis of carbon nanotubes, A chapter In book Aerosols: Science and Technology, edited by I. Agranovski. Wiley-VCH Wiley-VCH, 65-89 (2010).

An array of 49 thin film transistors on a PET substrate.

Source:  Sun et al. Flexible high-performance carbon nanotube integrated circuits, Nature Nanotechnology 6, 156-161 (2011).

Mo, Fe and Zn oxide nanowires synthesised by ambient air oxidation.

Source: Nasibulin et al. Simple and Rapid Synthesis of a-Fe2O3 Nanowires at Ambient Conditions, Nano Research 2, 373-379 (2009).

SEM images of ZnO structures synthesized at different temperatures.

Source:  Rackauskas et al. Synthesis of ZnO tetrapods for flexible and transparent UV sensors, Nanotechnology 23, 095502 (2012).

Mo oxide nanowires synthesised by oxidation at ambient air conditions.

Source:  Rackauskas et al. A simple method for rapid and efficient synthesis of metal oxide nanowires, Nanotechnology 20, 165603 (2009).

The effect of deposition on carbon nanotube morphology and thin film transistor performance.

Source:  Timmermans et al., Effect of Carbon Nanotube Network Morphology on Thin Film Transistor Performance, Nano Research 5, 307-319 (2012).

Mechanism of copper oxide nanowire growth under copper oxidation.

Source: Rackauskas et al. An in situ study of non-catalytic metal oxide nanowire growth, Nano Letters 14, 5810-5813 (2014).

Scanning electron microscopy image of a film of single-walled carbon nanotubes.

Source:  Kaskela et al. Aerosol synthesized SWCNT networks with tuneable conductivity and transparency by dry transfer technique, Nano Letters 10, pp. 4349-4355 (2010).

Filters with SWCNT films, free standing films (FSFs), suspended over openings (30 and 70 mm) in PET, aluminium foil, Kapton, plastic sheet, cold rolled steel. The inset shows a a film on a PEEK substrate and suspended over the open end of a glass tube.

Source: Nasibulin et al., ACS Nano 5,3214-3221 (2011).

Nanocellulose – Carbon  Nanotubes Hybrid Aerogels prepared by freeze-drying from liquid propane and liquid nitrogen.

Source: Wang et al. Modifying Native Nanocellulose Aerogels with Carbon Nanotubes for Mechanoresponsive Conductivity and Pressure Sensing, Advanced Materials 25, 2428-2432 (2013).