2023 Manav Tyagi, Maryam Fathollahzadeh, Jose Gabriel Martinez Gil, Wing Cheung Mak, Daniel Filippini, Edwin Jager (2023) Radially actuating conducting polymer microactuators as gates for dynamic microparticle sieve based on printed microfluidics Sensors and actuators. B, Chemical, Vol. 382, Article 133448 Continue to DOI 2021 Manav Tyagi, Geoffrey M. Spinks, Edwin Jager (2021) 3D Printing Microactuators for Soft Microrobots SOFT ROBOTICS, Vol. 8, p. 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
Manav Tyagi, Maryam Fathollahzadeh, Jose Gabriel Martinez Gil, Wing Cheung Mak, Daniel Filippini, Edwin Jager (2023) Radially actuating conducting polymer microactuators as gates for dynamic microparticle sieve based on printed microfluidics Sensors and actuators. B, Chemical, Vol. 382, Article 133448 Continue to DOI
Manav Tyagi, Geoffrey M. Spinks, Edwin Jager (2021) 3D Printing Microactuators for Soft Microrobots SOFT ROBOTICS, Vol. 8, p. 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
Soft robots 3D-printed in sub-millimeter sizes The Bionics and Transduction Science unit has created the worlds smallest 3D-printed robot.