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Propagation of electrical signals by fungi (2023)
Journal Article
Mayne, R., Roberts, N., Phillips, N., Weerasekera, R., & Adamatzky, A. (2023). Propagation of electrical signals by fungi. BioSystems, 229, Article 104933. https://doi.org/10.1016/j.biosystems.2023.104933

Living fungal mycelium networks are proven to have properties of memristors, capacitors and various sensors. To further progress our designs in fungal electronics we need to evaluate how electrical signals can be propagated through mycelium networks.... Read More about Propagation of electrical signals by fungi.

Sport-related back injury prevention with a wearable device (2022)
Journal Article
Jenkins, L., & Weerasekera, R. (2022). Sport-related back injury prevention with a wearable device. Journal of Biosensors and Bioelectronics, 11, Article 100202. https://doi.org/10.1016/j.biosx.2022.100202

There has been a high incidence rates (∼41%) of back injury from undertaking weightlifting exercises as a result of improper lifting posture, where the spine should remain straight during a lifting movement which is often not adopted correctly by ado... Read More about Sport-related back injury prevention with a wearable device.

Contactless sensing of liquid marbles for detection, characterisation & computing (2019)
Journal Article
Draper, T. C., Phillips, N., Weerasekera, R., Mayne, R., Fullarton, C., de Lacy Costello, B., & Adamatzky, A. (2020). Contactless sensing of liquid marbles for detection, characterisation & computing. Lab on a Chip, 20(1), 136-146. https://doi.org/10.1039/c9lc01001g

Liquid marbles (LMs) are of growing interest in many fields, including microfluidics, microreactors, sensors, and signal carriers. The generation of LMs is generally performed manually, although there has recently been a burst of publications involvi... Read More about Contactless sensing of liquid marbles for detection, characterisation & computing.

Neuromorphic liquid marbles with aqueous carbon nanotube cores (2019)
Journal Article
Mayne, R., Draper, T. C., Phillips, N., Whiting, J. G. H., Weerasekera, R., Fullarton, C., …Adamatzky, A. (2019). Neuromorphic liquid marbles with aqueous carbon nanotube cores. Langmuir, 35, 13182-13188. https://doi.org/10.1021/acs.langmuir.9b02552

Neuromorphic computing devices attempt to emulate features of biological nervous systems through mimicking the properties of synapses, towards implementing the emergent properties of their counterparts, such as learning. Inspired by recent advances i... Read More about Neuromorphic liquid marbles with aqueous carbon nanotube cores.

An Analytical Capacitance Model for Through-Silicon Vias in Floating Silicon Substrate (2016)
Journal Article
Weerasekera, R., Katti, G., Dutta, R., Zhang, S., Chang, K. F., Zhou, J., & Bhattacharya, S. (2016). An Analytical Capacitance Model for Through-Silicon Vias in Floating Silicon Substrate. IEEE Transactions on Electron Devices, 63(3), 1182-1188. https://doi.org/10.1109/TED.2016.2522501

© 2016 IEEE. Through-silicon via (TSV) is an integral part of 2.5-D IC technology leveraged for multichip heterogeneous integration to achieve shorter interconnects, faster speed, and lower power consumption in the state-of-the-art circuit systems. T... Read More about An Analytical Capacitance Model for Through-Silicon Vias in Floating Silicon Substrate.

Heterogeneous 2.5D integration on through silicon interposer (2015)
Journal Article
Zhang, X., Lin, J. K., Wickramanayaka, S., Zhang, S., Weerasekera, R., Dutta, R., …Kwong, D. L. (2015). Heterogeneous 2.5D integration on through silicon interposer. Applied Physics Reviews, 2(2), 021308. https://doi.org/10.1063/1.4921463

© 2015 AIP Publishing LLC. Driven by the need to reduce the power consumption of mobile devices, and servers/data centers, and yet continue to deliver improved performance and experience by the end consumer of digital data, the semiconductor industry... Read More about Heterogeneous 2.5D integration on through silicon interposer.

Fabrication and assembly of Cu-RDL-based 2.5-D Low-Cost Through Silicon Interposer (LC-TSI) (2015)
Journal Article
Lin, J. K., Chang, K. F., Zhang, S., Yu, L. H., Katti, G., Ho, S. W., …Bhattacharya, S. (2015). Fabrication and assembly of Cu-RDL-based 2.5-D Low-Cost Through Silicon Interposer (LC-TSI). IEEE Design and Test, 32(4), 23-31. https://doi.org/10.1109/MDAT.2015.2424429

A through silicon interposer (TSI) fabrication process and detailed characterization and measurement results of redistribution layers and through silicon vias for low-cost 2.5-D integration is reviewed. Polymer-based Cu-RDL interconnects provide a CM... Read More about Fabrication and assembly of Cu-RDL-based 2.5-D Low-Cost Through Silicon Interposer (LC-TSI).

BIST methodology, architecture and circuits for pre-bond TSV testing in 3D stacking IC systems (2014)
Journal Article
Wang, C., Zhou, J., Weerasekera, R., Zhao, B., Liu, X., Royannez, P., & Je, M. (2015). BIST methodology, architecture and circuits for pre-bond TSV testing in 3D stacking IC systems. IEEE Transactions on Circuits and Systems I: Regular Papers, 62(1), 139-148. https://doi.org/10.1109/TCSI.2014.2354752

© 2004-2012 IEEE. This paper presents a built-in self test (BIST) methodology, architecture and circuits for testing Through Silicon Vias (TSVs) in 3D-IC systems prior to stacking in order to improve 3D-IC yield and reduce overall test cost. A scan s... Read More about BIST methodology, architecture and circuits for pre-bond TSV testing in 3D stacking IC systems.