Su, Y. et al., Monolithic Fabrication of Metal-Free On-Paper Self-Charging Power Systems, Advanced Functional Materials, 2024, 2313506, Su´s article webpage

Fu, Z. et al., Hybrid Material Extrusion Process Optimization for Printability and Adhesion in 3D-Printed Electronics, Advanced Engineering Materials, 2024, 2301714, Fu´s article webpage

Sokka, L. et al., Life cycle assessment of a new smart label for intelligent packaging, Flexible and Printed Electronics, 2024 (9) 015007, Sokka´s article webpage

Lozano, K. et al., Printed and Stretchable Triboelectric Energy HarvesterBased on P(VDF-TrFE) Porous Aerogel, Advanced Functional Materials, 2024, 2312881, Lozano´s article webpage

Di Persio, F. et al., Recyclability of novel energy harvesting and storage technologies for IoT and wireless sensor networks, Journal of Cleaner Production, 2024 (435), 140525. Di Persio´s article webpage


Laurila, M.-M. et al., Additively fabricated on-skin sensors for mechanical and thermal biosignal monitoring, Flexible and Printed Electronics, 2023 (8), 033002. Laurila´s article webpage

Inci, E. et al., Screen printable PANI/carbide-derived carbon supercapacitor electrode ink with chitosan binder, Flexible and Printed Electronics, 2023 (8) 045009. Inci´s article webpage

Pourkheirollal, H. et al., Statistical analysis and Monte-Carlo simulation of printed supercapacitors for energy storage systems, Journal of Power Sources, 2023 (585), 233626. Pourkheirollah´s article webpage

Fu, Z. et al., Wear reliability and failure mechanism of inkjet-printed conductors on paperboard substrates, Flexible and Printed Electronics, 2023 (8), 025004. Fu´s article webpage

Pourkheirollal, H. et al., Simplified exponential equivalent circuit models for prediction of printed supercapacitor’s discharge behavior – Simulations and experiments, Journal of Power Sources, 2023 (567), 232932. Pourkheirollah´s article webpage

Laurila, M.-M. et al., A combination of experimental and numerical method for optimizing the sensitivity of ultra-thin piezoelectric sensor with interdigitated electrodes, Flexible and  Printed Electronics, 2023 (8), 015006 . Laurila´s article webpage


Rokaya, C. et al., Reliability test of fully printed and flexible organic electrolyte-based supercapacitor, Flexible and Printed Electronics, 2022 (7), 035023. Rokaya´s article webpage

Fu, Z. et al., Cyclic Bending Reliability and Failure Mechanism of Printed Biodegradable Flexible Supercapacitor on Polymer Substrate, ACS Applied Materials & Interfaces, 2022 (14), 40145, Fu´s article webpage

Laurila, M.-M. et al., Self-powered, high sensitivity printed e-tattoo sensor for unobtrusive arterial pulse wave monitoring, Nano Energy, 2022 (102), 107625. Laurila´s article webpage

Pourkheirollah, H. et al., An improved exponential model for charge and discharge behavior of printed supercapacitor modules under varying load conditions, Journal of Power Sources, 2022 (535), 231475. Pourkheirollah´s article webpage

Bhalerao, S. et al., Flexible, solution-processed, indium oxide (In2O3) thin film transistors (TFT) and circuits for internet-of-things (IoT), Materials Science in Semiconductor Processing, 2022 (139), 106354. Bhalerao´s article webpage

Rokaya, C. et al., Integration of fully printed and flexible organic electrolyte-based dual cell supercapacitor with energy supply platform for low power electronics, Journal of Energy Storage, 2022 (50), 104221. Rokaya´s article webpage

Lozano, K. et al., Effect of Electrode Structure on the Performance of Fully Printed Piezoelectric Energy Harvesters, IEEE Journal on Flexible Electronics, 2022 (1), 24. Lozano’s article webpage


Behfar, H. et al., Failure Mechanisms in Flip-Chip Bonding on Stretchable Printed Electronics, Adv. Eng. Mater. 2021, 2100264 (1-9). Behfar’s article webpage

Lozano, K. et al., Self-Powered, Ultrathin, and Transparent Printed Pressure Sensor for Biosignal Monitoring, ACS Appl. Electron. Mater. 2021, Lozano’s article webpage

Mikkonen, R. et al., Inkjet-printed, nanofiber-based soft capacitive pressure sensors for tactile sensing, in IEEE Sensors Journal, 2021, 21, 26286-26293. Mikkonen’s article webpage

Rokaya, C. et al., Polymer-based printed electrolytic capacitor and its circuitry application in a low pass filtering, rectifying and energy storage unit, Flex. Print. Electron., 2021, 6, 025005. Rokaya’s article webpage

Behfar, H. et al., Fully Integrated Wireless Elastic Wearable Systems for Health Monitoring Applications, IEEE Transactions on Components, Packaging and Manufacturing Technology. Behfar’s article webpage

Forouzmehr, M. et al., Selective atomic layer deposition on flexible polymeric substrates employing a polyimide adhesive as a physical mask, Journal of Vacuum Science & Technology A, 2021, 39, 012405. Forouzmerh’s article webpage

Fu, Z. et al., Rolling reliability of polyurethane and polyurethane-acrylic ICAs interconnections on printed stretchable electronics, Microelectronics Reliability, 2021, 119, 114067. Fu’s article webpage

Haapala, M., et al., Impedance plethysmography-based method in the assessment of subclinical atherosclerosis, Atherosclerosis, 2021, 319, 101-107. Haapala’s article webpage



Sollami Delekta, S., Laurila, MM., Mäntysalo, M. et al. Drying-Mediated Self-Assembly of Graphene for Inkjet Printing of High-Rate Micro-supercapacitors. Nano-Micro Lett. 2020, 12, 40. Delekta’s article webpage

McGinn, C. K., et al., Formulation, printing, and poling method for piezoelectric films based on PVDF–TrFE, Journal of Applied Physics, 2020, 128, 225304. McGinn’s article webpage

Railanmaa, A. et al., Skin-conformable printed supercapacitors and their performance in wear, Sci Rep. 2020, 10, 15194 . Railanmaa’s article webpage

Arvani, M. et al., Current Collectors for Low Resistance Aqueous Flexible Printed Supercapacitors, Journal of Energy Storage, 2020, 29, 101384. Arvani’s article webpage

Arvani, M. et al., Additive manufacturing of monolithic supercapacitors with biopolymer separator, J Appl Electrochem, 2020, 50, 689–697. Arvani’s article webpage

Kujala, M. et al., Bending reliability of screen-printed vias for a flexible energy module, npj Flex Electron, 2020, 4, 24. Kujala’s article webpage

Di Vito, D. et al., Mechanically driven strategies to improve electromechanical behaviour of printed stretchable electronic systems, Sci Rep., 2020, 10, 12037. Di Vito’s article webpage

Mosallaei, M. et al., Improvements in the electromechanical properties of stretchable interconnects by locally tuning the stiffness, Flex. Print. Electron., 2020, 5, 015004. Mosallaei’s article webpage

Mikkonen, R. et al., Inkjet Printable Polydimethylsiloxane for All-Inkjet-Printed Multilayered Soft Electrical ApplicationsACS Appl. Mater. Interfaces 2020, 12, 10, 11990-11997. Mikkonen’s article webpage