M
Matti Mäntysalo
Researcher at Tampere University of Technology
Publications - 126
Citations - 3265
Matti Mäntysalo is an academic researcher from Tampere University of Technology. The author has contributed to research in topics: Printed electronics & Substrate (printing). The author has an hindex of 26, co-authored 117 publications receiving 2637 citations. Previous affiliations of Matti Mäntysalo include VTT Technical Research Centre of Finland.
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Journal ArticleDOI
A Health-IoT Platform Based on the Integration of Intelligent Packaging, Unobtrusive Bio-Sensor, and Intelligent Medicine Box
Geng Yang,Li Xie,Matti Mäntysalo,Xiaolin Zhou,Zhibo Pang,Li Da Xu,Sharon Kao-Walter,Qiang Chen,Li-Rong Zheng +8 more
TL;DR: The proposed iHome Health-IoT platform seamlessly fuses IoT devices with in-home healthcare services for an improved user experience and service efficiency.
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Inkjet-Printed Graphene/PEDOT:PSS Temperature Sensors on a Skin-Conformable Polyurethane Substrate.
TL;DR: Materials and a simple, straightforward fabrication process for skin-conformable inkjet-printed temperature sensors are presented and the graphene/PEDOT:PSS temperature sensors (thermistors) were able to reach higher than 0.06% per degree Celsius sensitivity in an optimal environment exhibiting negative temperature dependence.
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Screen-Printing Fabrication and Characterization of Stretchable Electronics
Jari Suikkola,Toni Bjorninen,Mahmoud Mosallaei,Timo Kankkunen,Pekka Iso-Ketola,Leena Ukkonen,Jukka Vanhala,Matti Mäntysalo +7 more
TL;DR: The fabricated interconnects were screen-printed with a stretchable silver-polymer composite ink on 50-μm thick thermoplastic polyurethane and withstood single strains of up to 74%.
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Alternative sintering methods compared to conventional thermal sintering for inkjet printed silver nanoparticle ink
TL;DR: In this article, the authors compared several alternative sintering methods compared to traditional thermal Sintering as high temperature and long process time of thermal sinterings are increasing the costs of inkjet-printing and preventing the use of this technology in large scale manufacturing.
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Comparison of laser and intense pulsed light sintering (IPL) for inkjet-printed copper nanoparticle layers
TL;DR: The sintering of an inkjet-printed copper nanoparticle ink based on electrical performance and microstructure analysis is discussed, considered to be complementary techniques and are highly suitable in different application fields.