|Fabrication and characterization of magnetic microrobots for three‐dimensional cell culture and targeted transportation|
S Kim, F Qiu, S Kim, A Ghanbari, C Moon, L Zhang, BJ Nelson, H Choi
Advanced Materials 25 (41), 5863-5868, 2013
|Magnetically actuated microrobots as a platform for stem cell transplantation|
S Jeon, S Kim, S Ha, S Lee, E Kim, SY Kim, SH Park, JH Jeon, SW Kim, ...
Science Robotics 4 (30), eaav4317, 2019
|Review of piezoelectric micromachined ultrasonic transducers and their applications|
J Jung, W Lee, W Kang, E Shin, J Ryu, H Choi
Journal of Micromechanics and Microengineering 27 (11), 113001, 2017
|Magnetic actuation based motion control for microrobots: An overview|
T Xu, J Yu, X Yan, H Choi, L Zhang
Micromachines 6 (9), 1346-1364, 2015
|A magnetically controlled soft microrobot steering a guidewire in a three-dimensional phantom vascular network|
S Jeon, AK Hoshiar, K Kim, S Lee, E Kim, S Lee, J Kim, BJ Nelson, ...
Soft robotics 6 (1), 54-68, 2019
|3D‐printed soft magnetoelectric microswimmers for delivery and differentiation of neuron‐like cells|
M Dong, X Wang, XZ Chen, F Mushtaq, S Deng, C Zhu, H Torlakcik, ...
Advanced Functional Materials 30 (17), 1910323, 2020
|Fabrication and Manipulation of Ciliary Microrobots with Non-reciprocal Magnetic Actuation|
S Kim, S Lee, J Lee, BJ Nelson, L Zhang, H Choi
Scientific Reports 6, 30713, 2016
|A Capsule‐Type Microrobot with Pick‐and‐Drop Motion for Targeted Drug and Cell Delivery|
S Lee, S Kim, S Kim, JY Kim, C Moon, BJ Nelson, H Choi
Advanced healthcare materials 7 (9), 1700985, 2018
|Magnetically actuated degradable microrobots for actively controlled drug release and hyperthermia therapy|
J Park, C Jin, S Lee, JY Kim, H Choi
Advanced healthcare materials 8 (16), 1900213, 2019
|3D fabrication of fully iron magnetic microrobots|
CCJ Alcântara, S Kim, S Lee, B Jang, P Thakolkaran, JY Kim, H Choi, ...
Small 15 (16), 1805006, 2019
|A microelectromechanical system artificial basilar membrane based on a piezoelectric cantilever array and its characterization using an animal model|
J Jang, JW Lee, S Woo, DJ Sly, LJ Campbell, JH Cho, SJ O¡¯Leary, ...
Scientific reports 5 (1), 12447, 2015
|Noncytotoxic artificial bacterial flagella fabricated from biocompatible ORMOCOMP and iron coating|
F Qiu, L Zhang, KE Peyer, M Casarosa, A Franco-Obregón, H Choi, ...
Journal of Materials Chemistry B 2 (4), 357-362, 2014
|A review of magnetic actuation systems and magnetically actuated guidewire-and catheter-based microrobots for vascular interventions|
J Hwang, J Kim, H Choi
Intelligent Service Robotics 13, 1-14, 2020
|Fabrication of a two-dimensional piezoelectric micromachined ultrasonic transducer array using a top-crossover-to-bottom structure and metal bridge connections|
J Jung, S Kim, W Lee, H Choi
Journal of Micromechanics and Microengineering 23 (12), 125037, 2013
|Fabrication and characterization of a magnetic drilling actuator for navigation in a three-dimensional phantom vascular network|
S Lee, S Lee, S Kim, CH Yoon, HJ Park, J Kim, H Choi
Scientific reports 8 (1), 1-9, 2018
|Dumbbell fluidic tweezers for dynamical trapping and selective transport of microobjects|
Q Zhou, T Petit, H Choi, BJ Nelson, L Zhang
Advanced Functional Materials 27 (1), 1604571, 2017
|Stretchable and suturable fibre sensors for wireless monitoring of connective tissue strain|
J Lee, SJ Ihle, GS Pellegrino, H Kim, J Yea, CY Jeon, HC Son, C Jin, ...
Nature Electronics 4 (4), 291-301, 2021
|A triboelectric‐based artificial basilar membrane to mimic cochlear tonotopy|
J Jang, JW Lee, JH Jang, H Choi
Advanced healthcare materials 5 (19), 2481-2487, 2016
|Psychological tactile sensor structure based on piezoelectric nanowire cell arrays|
Y Jeong, M Sim, JH Shin, JW Choi, JI Sohn, SN Cha, H Choi, C Moon, ...
RSC Advances 5 (50), 40363-40368, 2015
|A needle‐type microrobot for targeted drug delivery by affixing to a microtissue|
S Lee, J Kim, J Kim, AK Hoshiar, J Park, S Lee, J Kim, S Pané, BJ Nelson, ...
Advanced healthcare materials 9 (7), 1901697, 2020