John L. Hodgkinson scite author profile

Recent research results have indicated positive influences of inter-yarn friction on ballistic performance of woven fabrics and panels made from such fibers. The current investigation explores the effect of coating by means of atmospheric pressure plasma-enhanced vapor deposition with organic chemical (CH3)2Cl2Si on the inter-yarn friction. The scanning electron microscopy observations indicated that as the treatment time increases, more particles have been deposited on the surface of the fibers. The Fourier transform infrared spectra supported the existence of Si-O-Si vibration, which can be attributed to the chemical deposition. Energy-dispersive X-ray analysis further supported the deposition of the chemical compound. Experiments were carried out to evaluate the coefficients of static and kinetic frictions between the yarns and the results showed that the inter-yarn coefficient of static friction was increased from 0.1617 to 0.2969 and that of the kinetic friction increased from 0.1554 to 0.2436, as the treatment time increased to 4 minutes. In addition, there is evidence that the mechanical properties of the treated yarns were not negatively affected by the treatment.

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Progression towards high efficiency perovskite solar cells via optimisation of the front electrode and blocking layer

Yates

Afzaal

Walter

et al. 2016

J. Mater. Chem. C

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The effects of a fluorine doped tin oxide (FTO) electrode, titanium dioxide (TiO 2Àx ) blocking layer (BL) and perovskite (methyl ammonium lead triiodide) preparation on the overall properties of the photovoltaic cells have been studied. The FTO electrode was deposited by atmospheric pressure chemical vapour deposition (APCVD) and the hole blocking layer by spin coating, atomic layer deposition (ALD) or sputtering. We have shown the importance of obtaining uniform thin films of FTO, with low sheet resistance to aid the formation of pin hole free uniform TiO 2Àx blocking layers and hence well adhered, perovskite layers. The optimal BL thickness was 20 nm, while thicker films gave decreased shunt resistance and thinner a greater number of pin holes through the layers. We also showed that the conformal nature of ALD and magnetron sputtering, along with their increased uniformity control over spin coating again improved cell efficiency. The main improvement comes for the smaller R oc , attributed to an improved electrical transport through particularly the sputtered TiO 2Àx blocking layer. After identifying the optimised parameters, all the properties were combined to fabricate large solar cells (1 cm 2 ) yielding power conversion efficiencies beyond 16%.

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Low Temperature Growth of Photoactive Titania by Atmospheric Pressure Plasma

Hodgkinson¹,

Yates²,

Sheel³

2009

Plasma Processes & Polymers

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Atmospheric pressure glow discharge plasma CVD was used to deposit thin films of titania at 200 8C using two different precursors. The resulting films were characterised using techniques including XPS, RBS and XRD. It was established that annealing at temperatures as low as 275 8C produced crystalline films that were photocatalytically active. When annealed at 300 8C the photoactivity was greater than that of commercially available ''self-cleaning'' titania films. The effects of the different precursors, annealing times and temperatures on the crystallinity and photoactivity are discussed.

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Flame Assisted Chemical Vapour Deposition of NiO hole transport layers for planar perovskite cells

Yates

Hodgkinson

Meroni

et al. 2020

Surface and Coatings Technology

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Thin films of polycrystalline NiO were deposited by Flame Assisted Chemical Vapour Deposition, which is an ideal process for in-line, atmospheric pressure deposition of wide area coatings. This, along with the ability to use aqueous salts rather than organic precursors or solvents makes it well suited for industrial integration. To establish the capability of FACVD deposited NiO for use as a low cost, commercially viable option planar perovskite cells were fabricated under ambient conditions. The resulting cells showed the importance of both the flame composition and NiO thickness. A continuous NiO Hole Transport Layer (HTL) was achieved for ca. 36 nm thick film, which showed a maximum higher efficiency of 12.3% over that of the control (11.8%) which used a spin coated HTL. This was mainly driven by the large improvement in the current density from 16.6 mA/cm 2 to 19.0 mA/cm 2 .

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Advances in atmospheric pressure PECVD: The influence of plasma parameters on film morphology

Hodgkinson

Sheel

2013

Surface and Coatings Technology

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