Libu Manjakkal
Libu Manjakkal
Lecturer, School of Computing and Engineering & the Built Environment, Edinburgh Napier University
Verified email at - Homepage
Cited by
Cited by
Metal oxides based electrochemical pH sensors: Current progress and future perspectives
L Manjakkal, D Szwagierczak, R Dahiya
Progress in Materials Science, 100635, 2020
Wearable supercapacitor based on Conductive PEDOT: PSS coated cloth and sweat electrolyte
L Manjakkal, A Pullanchiyodan, N Yogeswaran, ES Hosseini, R Dahiya
Advanced Materials 32, 1907254, 2020
Stretchable wireless system for sweat pH monitoring
W Dang, L Manjakkal, WT Navaraj, L Lorenzelli, V Vinciguerra, R Dahiya
Biosensors and Bioelectronics 107, 192-202, 2018
Glycine–chitosan-based flexible biodegradable piezoelectric pressure sensor
ES Hosseini, L Manjakkal, D Shakthivel, R Dahiya
ACS applied materials & interfaces 12 (8), 9008-9016, 2020
Large-area soft e-skin: The challenges beyond sensor designs
R Dahiya, N Yogeswaran, F Liu, L Manjakkal, E Burdet, V Hayward, ...
Proceedings of the IEEE 107 (10), 2016-2033, 2019
Energy autonomous electronic skin
L Manjakkal, R Dahiya
npj Flexible Electronics 3 (1), 2019
Flexible self-charging supercapacitor based on graphene-Ag-3D graphene foam electrodes
L Manjakkal, CG Núñez, W Dang, R Dahiya
Nano Energy 51, 604-612, 2018
Flexible potentiometric pH sensors for wearable systems
L Manjakkal, S Dervin, R Dahiya
RSC advances 10 (15), 8594-8617, 2020
Textile-based potentiometric electrochemical pH sensor for wearable applications
L Manjakkal, W Dang, N Yogeswaran, R Dahiya
Biosensors 9 (1), 14, 2019
Printed flexible electrochemical pH sensors based on CuO nanorods
L Manjakkal, B Sakthivel, N Gopalakrishnan, R Dahiya
Sensors and Actuators B: Chemical 263, 50-58, 2018
Energy Autonomous Sweat Based Wearable Systems
L Manjakkal, L Yin, A Nathan, J Wang, R Dahiya
Advanced Materials, 2100899, 2021
Energy autonomous electronic skin
C García Núñez, L Manjakkal, R Dahiya
npj Flexible Electronics 3 (1), 1, 2019
Fabrication of thick film sensitive RuO2-TiO2 and Ag/AgCl/KCl reference electrodes and their application for pH measurements
L Manjakkal, K Cvejin, J Kulawik, K Zaraska, D Szwagierczak, RP Socha
Sensors and Actuators B: Chemical 204, 57-67, 2014
Flexible electronic skin: From humanoids to humans [scanning the issue]
R Dahiya, D Akinwande, JS Chang
Proceedings of the IEEE 107 (10), 2011-2015, 2019
Graphene–graphite polyurethane composite based high‐energy density flexible supercapacitors
L Manjakkal, WT Navaraj, CG Núñez, R Dahiya
Advanced Science 6 (7), 1802251, 2019
Multi-sensor system for remote environmental (air and water) quality monitoring
M Simić, GM Stojanović, L Manjakkal, K Zaraska
2016 24th telecommunications forum (TELFOR), 1-4, 2016
TiO 2-Based Thick Film pH Sensor
M Simić, L Manjakkal, K Zaraska, GM Stojanović, R Dahiya
IEEE Sensors Journal 17 (2), 248-255, 2017
Electrochemical impedance spectroscopic analysis of RuO2 based thick film pH sensors
L Manjakkal, E Djurdjic, K Cvejin, J Kulawik, K Zaraska, D Szwagierczak
Electrochimica Acta 168, 246-255, 2015
Potentiometric RuO2–Ta2O5 pH sensors fabricated using thick film and LTCC technologies
L Manjakkal, K Zaraska, K Cvejin, J Kulawik, D Szwagierczak
Talanta 147, 233-240, 2016
Sensing mechanism of RuO2–SnO2 thick film pH sensors studied by potentiometric method and electrochemical impedance spectroscopy
L Manjakkal, K Cvejin, J Kulawik, K Zaraska, D Szwagierczak, ...
Journal of Electroanalytical Chemistry 759, 82-90, 2015
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