Publications by category
Books
Goodship V, Middleton B, Cherrington R (2015).
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing.Abstract:
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing
Abstract.
Journal articles
Cherrington R, Marshall J, Alexander AT, Goodship V (2022). Exploring the circular economy through coatings in transport.
Sustainable Production and Consumption,
32, 136-146.
Full text.
Cherrington R, Wood BM, Salaoru I, Goodship V (2016). Digital Printing of Titanium Dioxide for Dye Sensitized Solar Cells. Journal of Visualized Experiments(111).
Ruth Cherrington, Darren J. Hughes, Sundaram S, Vannessa Goodship (2015). Inkjet printed TiO2 nanoparticles from aqueous solutions for dye sensitized solar cells (DSSCs).
Energy Technology,
3Abstract:
Inkjet printed TiO2 nanoparticles from aqueous solutions for dye sensitized solar cells (DSSCs)
This work reports on the formulation of suitable ink for inkjet printing of TiO2 by investigating the critical parame- ters of particle size, pH, viscosity, and stability. Aqueous sus- pensions of TiO2 nanoparticles (Degussa, P25) were pre- pared with the addition of 25 wt % polyethylene glycol 400 as a humectant to minimize drying at the printer nozzles and reduce the likelihood of nozzle blockage. The inkjet-printed TiO2 layers were assembled into dye-sensitized solar cells.
The current–voltage (I–V) characteristics were measured under one sun (air mass 1.5, 100 mW cm. 2) using a source meter (Model 2400, Keithley Instrument, Inc.), and the active area of the cell was 0.25 cm2. The inkjet-printed TiO2 photoanode produced a device with a short-circuit current (Isc) of 9.42 mA cm. 2, an open-circuit voltage (Voc) of 0.76 V, and a fill factor (FF) of 0.49, resulting in a power conversion efficiency (PCE) of 3.50 %.
Abstract.
Full text.
Goodship V, Brzeski I, Wood BM, Cherrington R, Makenji K, Reynolds N, Gibbons GJ (2014). Gas-assisted compression moulding of recycled GMT: Effect of gas injection parameters. Journal of Materials Processing Technology, 214(3), 515-523.
Cherrington R, Goodship V, Longfield A, Kirwan K (2013). The feed-in tariff in the UK: a case study focus on domestic photovoltaic systems. Renewable Energy, 50, 421-426.
Cherrington R, Goodship V, Meredith J, Wood BM, Coles SR, Vuillaume A, Feito-Boirac A, Spee F, Kirwan K (2012). Producer responsibility: Defining the incentive for recycling composite wind turbine blades in Europe. Energy Policy, 47, 13-21.
Chapters
Cherrington R, Makenji K (2019). Chapter 10 Mechanical methods of recycling plastics from WEEE. In (Ed) Waste Electrical and Electronic Equipment (WEEE) Handbook, 283-310.
Cherrington R, Makenji K (2019). Mechanical methods of recycling plastics from WEEE. In (Ed)
Waste Electrical and Electronic Equipment (WEEE) Handbook, 283-310.
Abstract:
Mechanical methods of recycling plastics from WEEE
Abstract.
Cherrington R, Goodship V (2016). 1 Introduction to Multifunctionality and Manufacture. In (Ed) Design and Manufacture of Plastic Components for Multifunctionality, 1-18.
Cherrington R, Liang J (2016). 2 Materials and Deposition Processes for Multifunctionality. In (Ed) Design and Manufacture of Plastic Components for Multifunctionality, 19-51.
Cherrington R, Goodship V (2016). Introduction to Multifunctionality and Manufacture. In (Ed)
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing, 1-18.
Abstract:
Introduction to Multifunctionality and Manufacture
Abstract.
Cherrington R, Liang J (2016). Materials and Deposition Processes for Multifunctionality. In (Ed)
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing, 19-51.
Abstract:
Materials and Deposition Processes for Multifunctionality
Abstract.
Makenji K, Cherrington R (2014). Plastic Trim. In (Ed) Encyclopedia of Automotive Engineering, 1-6.
Conferences
Alexander A, Boehm S, Pascucci S, Cherrington R (2020). Circular Innovations: Sustainable Innovations, Eco-Innovations and Circular Regeneration?. the ISPIM Innovation Conference – Innovating in Times of Crisis. 7th - 10th Jun 2020.
Cherrington R, Alexander A (2020). Innovation in the periphery: the case of SMEs in Cornwall. ISPIM Connects Global 2020: Celebrating the World of Innovation. 7th - 8th Dec 2020.
Goodship V, Middleton B, Fiamegkou E, Cherrington R (2017). Building in multifunctionality in plastic components: Complexity, cost and sustainability.
Abstract:
Building in multifunctionality in plastic components: Complexity, cost and sustainability
Abstract.
Publications by year
2022
Cherrington R, Marshall J, Alexander AT, Goodship V (2022). Exploring the circular economy through coatings in transport.
Sustainable Production and Consumption,
32, 136-146.
Full text.
2020
Alexander A, Boehm S, Pascucci S, Cherrington R (2020). Circular Innovations: Sustainable Innovations, Eco-Innovations and Circular Regeneration?. the ISPIM Innovation Conference – Innovating in Times of Crisis. 7th - 10th Jun 2020.
Cherrington R, Alexander A (2020). Innovation in the periphery: the case of SMEs in Cornwall. ISPIM Connects Global 2020: Celebrating the World of Innovation. 7th - 8th Dec 2020.
2019
Cherrington R, Makenji K (2019). Chapter 10 Mechanical methods of recycling plastics from WEEE. In (Ed) Waste Electrical and Electronic Equipment (WEEE) Handbook, 283-310.
Cherrington R, Makenji K (2019). Mechanical methods of recycling plastics from WEEE. In (Ed)
Waste Electrical and Electronic Equipment (WEEE) Handbook, 283-310.
Abstract:
Mechanical methods of recycling plastics from WEEE
Abstract.
2017
Goodship V, Middleton B, Fiamegkou E, Cherrington R (2017). Building in multifunctionality in plastic components: Complexity, cost and sustainability.
Abstract:
Building in multifunctionality in plastic components: Complexity, cost and sustainability
Abstract.
2016
Cherrington R, Goodship V (2016). 1 Introduction to Multifunctionality and Manufacture. In (Ed) Design and Manufacture of Plastic Components for Multifunctionality, 1-18.
Cherrington R, Liang J (2016). 2 Materials and Deposition Processes for Multifunctionality. In (Ed) Design and Manufacture of Plastic Components for Multifunctionality, 19-51.
Cherrington R, Wood BM, Salaoru I, Goodship V (2016). Digital Printing of Titanium Dioxide for Dye Sensitized Solar Cells. Journal of Visualized Experiments(111).
Cherrington R, Goodship V (2016). Introduction to Multifunctionality and Manufacture. In (Ed)
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing, 1-18.
Abstract:
Introduction to Multifunctionality and Manufacture
Abstract.
Cherrington R, Liang J (2016). Materials and Deposition Processes for Multifunctionality. In (Ed)
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing, 19-51.
Abstract:
Materials and Deposition Processes for Multifunctionality
Abstract.
2015
Goodship V, Middleton B, Cherrington R (2015).
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing.Abstract:
Design and Manufacture of Plastic Components for Multifunctionality: Structural Composites, Injection Molding, and 3D Printing
Abstract.
Ruth Cherrington, Darren J. Hughes, Sundaram S, Vannessa Goodship (2015). Inkjet printed TiO2 nanoparticles from aqueous solutions for dye sensitized solar cells (DSSCs).
Energy Technology,
3Abstract:
Inkjet printed TiO2 nanoparticles from aqueous solutions for dye sensitized solar cells (DSSCs)
This work reports on the formulation of suitable ink for inkjet printing of TiO2 by investigating the critical parame- ters of particle size, pH, viscosity, and stability. Aqueous sus- pensions of TiO2 nanoparticles (Degussa, P25) were pre- pared with the addition of 25 wt % polyethylene glycol 400 as a humectant to minimize drying at the printer nozzles and reduce the likelihood of nozzle blockage. The inkjet-printed TiO2 layers were assembled into dye-sensitized solar cells.
The current–voltage (I–V) characteristics were measured under one sun (air mass 1.5, 100 mW cm. 2) using a source meter (Model 2400, Keithley Instrument, Inc.), and the active area of the cell was 0.25 cm2. The inkjet-printed TiO2 photoanode produced a device with a short-circuit current (Isc) of 9.42 mA cm. 2, an open-circuit voltage (Voc) of 0.76 V, and a fill factor (FF) of 0.49, resulting in a power conversion efficiency (PCE) of 3.50 %.
Abstract.
Full text.
2014
Goodship V, Brzeski I, Wood BM, Cherrington R, Makenji K, Reynolds N, Gibbons GJ (2014). Gas-assisted compression moulding of recycled GMT: Effect of gas injection parameters. Journal of Materials Processing Technology, 214(3), 515-523.
Makenji K, Cherrington R (2014). Plastic Trim. In (Ed) Encyclopedia of Automotive Engineering, 1-6.
2013
Cherrington R, Goodship V, Longfield A, Kirwan K (2013). The feed-in tariff in the UK: a case study focus on domestic photovoltaic systems. Renewable Energy, 50, 421-426.
2012
Cherrington R, Goodship V, Meredith J, Wood BM, Coles SR, Vuillaume A, Feito-Boirac A, Spee F, Kirwan K (2012). Producer responsibility: Defining the incentive for recycling composite wind turbine blades in Europe. Energy Policy, 47, 13-21.