2021 Manav Tyagi, Geoffrey M. Spinks, Edwin Jager (2021) 3D Printing Microactuators for Soft Microrobots SOFT ROBOTICS , Vol. 8 , s. 19-27 Continue to DOI 2020 Manav Tyagi, Geoffrey M. Spinks, Edwin Jager (2020) Fully 3D printed soft microactuators for soft microrobotics Smart materials and structures (Print) , Vol. 29 Continue to DOI 2019 Manav Tyagi, Jingle Pan, Edwin Jager (2019) Novel fabrication of soft microactuators with morphological computing using soft lithography , MICROSYSTEMS and NANOENGINEERING , Vol. 5 Continue to DOI Fariba Mashayekhi Mazar, Jose Gabriel Martinez Gil, Manav Tyagi, Mahdi Alijanianzadeh, Anthony Turner, Edwin Jager (2019) Artificial Muscles Powered by Glucose Advanced Materials , Vol. 31 Continue to DOI 2016 Marjam Fathollahzadeh, Manav Tyagi, Ali Maziz, Daniel Filippini, B Haghighi., Anthony Turner, Wing Cheung Mak (2016) Dynamic gates based on polypyrrole for microfluidic bioanalytical applications Biosensors 2016 – The World Congress on Biosensors, Gothenburg, Sweden, 25-27 May 2016
Manav Tyagi, Geoffrey M. Spinks, Edwin Jager (2021) 3D Printing Microactuators for Soft Microrobots SOFT ROBOTICS , Vol. 8 , s. 19-27 Continue to DOI
Manav Tyagi, Geoffrey M. Spinks, Edwin Jager (2020) Fully 3D printed soft microactuators for soft microrobotics Smart materials and structures (Print) , Vol. 29 Continue to DOI
Manav Tyagi, Jingle Pan, Edwin Jager (2019) Novel fabrication of soft microactuators with morphological computing using soft lithography , MICROSYSTEMS and NANOENGINEERING , Vol. 5 Continue to DOI
Fariba Mashayekhi Mazar, Jose Gabriel Martinez Gil, Manav Tyagi, Mahdi Alijanianzadeh, Anthony Turner, Edwin Jager (2019) Artificial Muscles Powered by Glucose Advanced Materials , Vol. 31 Continue to DOI
Marjam Fathollahzadeh, Manav Tyagi, Ali Maziz, Daniel Filippini, B Haghighi., Anthony Turner, Wing Cheung Mak (2016) Dynamic gates based on polypyrrole for microfluidic bioanalytical applications Biosensors 2016 – The World Congress on Biosensors, Gothenburg, Sweden, 25-27 May 2016
Soft robots 3D-printed in sub-millimeter sizes The Bionics and Transduction Science unit has created the worlds smallest 3D-printed robot.