Journal Articles

A Satharasinghe, T Hughes-Riley and T Dias (2020) A Review of Solar Energy Harvesting
Electronic Textiles In: Sensors 2020, 20(20), 5938

D Hardy, Z Rahemtulla, A Satharasinghe, A Shahidi, C Oliveira, I Anastasopoulos, M NNashed, MKgatuke, A Komolafe, R Torah, J Tudor, T Hughes-Riley, S Beeby and T Dias (2020) Wash Testing of Electronic Yarn In: Materials 13 (5), 1228

N Hillier, S Yong, S Beeby (2020) The good, the bad and the porous: A review of carbonaceous materials for flexible supercapacitor applications In: Energy Reports 6, 148-156

Paosangthong, WatcharapongWagih, MahmoudTorah, Russel and Beeby, Steve (2020) Textile manufacturing compatible triboelectric nanogenerator with alternating positive and negative freestanding grating structure.  In: Proceedings32 (1)[23].

Wagih, MahmoudWei, YangKomolafe, AbiodunTorah, Russel and Beeby, Stephen (2020) Reliable UHF long-range textile-integrated RFID tag based on a compact flexible antenna filament. In: Sensors.(doi:10.3390/s20123435)

Komolafe, AbiodunTorah, RusselWei, YangNunes‐matos, HelgaLi, MenglongHardy, DorothyDias, TilakTudor, Michael and Beeby, Stephen (2019) Integrating flexible filament circuits for e‐textile applications. In: Advanced Materials Technologies1900176.

Yong, ShengHillier, Nicholas, David George and Beeby, Stephen (2019) The influence of textile substrate on the performance of multilayer fabric supercapacitors. In: Journal of Industrial Textiles.(doi:10.1177/1528083719865038).

Liu, JingqiLi, YiLi, MenglongArumugam, Sasikumar and Beeby, Stephen P. (2019) Processing of printed dye sensitized solar cells on woven textiles. In: IEEE Journal of Photovoltaics9 (4)1020-1024[8721081]

Yong, ShengShi, Junjie and Beeby, Stephen (2019) Wearable textile power module based on flexible ferroelectret and supercapacitor. In: Energy Technology7 (5)[1800938].

Liu, JingqiLi, YiYong, ShengArumugam, Sasikumar and Beeby, Stephen (2019) Flexible printed monolithic-structured solid-state dye sensitized solar cells on woven glass fibre textile for wearable energy harvesting applications. In: Scientific Reports9 (1362).

Yang, K., Isaia, B., Brown, L. and Beeby, S. (2019). A Review of E-Textiles for Healthy Ageing. In: Sensors 2019, 19, 4463

Paosangthong, WatcharapongTorah, Russel and Beeby, Steve (2019) Recent progress on textile-based triboelectric nanogenerators. In: Nano Energy55401-423.

Li, MenglongTudor, JohnLiu, JingqiTorah, RusselKomolafe, Abiodun and Beeby, Steve (2019) Novel electronic packaging method for functional electronic textiles. In:IEEE Transactions on Components Packaging and Manufacturing Technology9 (2)216-225.

Hardy, D.A., Anastasopoulos, I., Nashed, M.-N., Hughes-Riley, T., Komolafe, A., Tudor, J., Torah, R., Beeby, S. and Dias, T. (2019). Automated insertion of package dies onto wire and into a textile yarn sheath. In: Microsystem Technologies. ISSN 0946-7076

Nashed, M.-N., Hardy, D.A., Hughes-Riley, T. and Dias, T. (2019). A novel method for embedding semiconductor dies within textile yarn to create electronic textiles. In: Fibers, 7 (2): 12. ISSN 2079-6439

Hughes-Riley, T., Oliveira, C., Morris, R.H. and Dias, T., 2019. The characterization of a pressure sensor constructed from a knitted spacer structure. In: Digital Medicine. ISSN 2226-8561

Satharasinghe, A., Hughes-Riley, T. and Dias, T., 2018. Photodiodes embedded within electronic textiles. In: Scientific Reports, 8 (1): 16205. ISSN 2045-2322

Arumugam, SasikumarLi, YiGlanc-Gostkiewicz, MonikaTorah, Russel N. and Beeby, Stephen P. (2018) Solution processed organic solar cells on textiles. In: IEEE Journal of Photovoltaics8 (6)1710-1715.

Yong, ShengOwen, John R. and Beeby, Stephen (2018) Solid-state supercapacitor fabricated in a single woven textile layer for e-textiles applications. In: Advanced Engineering Materials20 (5)[1700860]

Lugoda, P., Hughes-Riley, T., Morris, R. and Dias, T., 2018. A wearable textile thermograph. In: Sensors, 18 (7): 2369. ISSN 1424-8220

Lugoda, P., Hughes-Riley, T., Oliveira, C., Morris, R. and Dias, T., 2018. Developing novel temperature sensing garments for health monitoring applications. In: Fibers, 6 (3): 46. ISSN 2079-6439

Kai Yang, Katie Meadmore, Chris Freeman, Neil Grabham, Ann-Marie Hughes,
Yang Wei, Russel Torah, Monika Glanc-Gostkiewicz, Steve Beeby, John Tudor (2018). Development of user-friendly wearable electronic textiles for healthcare applications In: Sensors, 18, 2410

Mbise, E., Dias, T., Hurley, W. and Morris, R. (2018). The study of applying heat to enhance moisture transfer in knitted spacer structures. In: Journal of Industrial Textiles, 47 (7), pp. 1584-1608. ISSN 1528-0837

Hughes-Riley, T. and Dias, T. (2018). Developing an acoustic sensing yarn for health surveillance in a military setting. In: Sensors, 18 (5): 1590. ISSN 1424-8220

Mbise, E., Dias, T., Hurley, W. and Morris, R. (2018). Development of a test method for investigating moisture transfer rate of textiles. In: Journal of Textile Engineering & Fashion Technology, 4 (3), pp. 254-261. ISSN 2574-8114

Lugoda, P., Dias, T., Hughes-Riley, T. and Morris, R. (2018). Refinement of temperature sensing yarns. In: Proceedings, 2 (3), p. 123. ISSN 2504-3900

Hughes-Riley, T., Dias, T. and Cork, C.R. (2018). A historical review of the development of electronic textiles. In: Fibers, 6 (2): 34. ISSN 2079-6439

Hardy, D.A., Moneta, A., Sakalyte, V., Connolly, L., Shahidi, A. and Hughes-Riley, T. (2018). Engineering a costume for performance using illuminated LED-yarns. In: Fibers, 6 (2): 35. ISSN 2079-6439

Komolafe, AbiodunTorah, RusselTudor, John and Beeby, Steve (2017)  Improving the durability of screen printed conductors on woven fabrics for e-textile applications. In: Proceedings1 (4)

Hughes-Riley, T., Lugoda, P., Dias, T., Trabi, C.L. and Morris, R.H. (2017). A study of thermistor performance within a textile structure. In: Sensors, 17 (8), p. 1804. ISSN 1424-8220

Zhang, H. and Dias, T.K. (2015). Electromechanical properties of knitted fabric integrated with laser engraved carbon-loaded fiber. In: The Journal of the Textile Institute. ISSN 0040-5000