Bumjin Jang
Bumjin Jang
Swiss Federal Institute of Technology Zurich (ETHZ)
Verified email at samsung.com
Cited by
Cited by
Undulatory locomotion of magnetic multilink nanoswimmers
B Jang, E Gutman, N Stucki, BF Seitz, PD Wendel-García, T Newton, ...
Nano letters 15 (7), 4829-4833, 2015
Artificial swimmers propelled by acoustically activated flagella
D Ahmed, T Baasch, B Jang, S Pane, J Dual, BJ Nelson
Nano letters 16 (8), 4968-4974, 2016
Multiwavelength Light-Responsive Au/B-TiO2 Janus Micromotors
B Jang, A Hong, HE Kang, C Alcantara, S Charreyron, F Mushtaq, ...
ACS nano 11 (6), 6146-6154, 2017
Small‐scale machines driven by external power sources
XZ Chen, B Jang, D Ahmed, C Hu, C De Marco, M Hoop, F Mushtaq, ...
Advanced Materials 30 (15), 1705061, 2018
Catalytic locomotion of core–shell nanowire motors
B Jang, W Wang, S Wiget, AJ Petruska, X Chen, C Hu, A Hong, D Folio, ...
ACS nano 10 (11), 9983-9991, 2016
A universal method for planar lipid bilayer formation by freeze and thaw
K Sugihara, B Jang, M Schneider, J Vörös, T Zambelli
Soft Matter 8 (20), 5525-5531, 2012
Fabrication of segmented Au/Co/Au nanowires: insights in the quality of Co/Au Junctions
B Jang, E Pellicer, M Guerrero, X Chen, H Choi, BJ Nelson, J Sort, S Pané
ACS Applied Materials & Interfaces 6 (16), 14583-14589, 2014
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
Motile piezoelectric nanoeels for targeted drug delivery
F Mushtaq, H Torlakcik, M Hoop, B Jang, F Carlson, T Grunow, N Läubli, ...
Advanced Functional Materials 29 (12), 1808135, 2019
High precision, localized proton gradients and fluxes generated by a microelectrode device induce differential growth behaviors of pollen tubes
C Hu, H Vogler, M Aellen, N Shamsudhin, B Jang, JT Burri, N Läubli, ...
Lab on a Chip 17 (4), 671-680, 2017
Magnetometry of individual polycrystalline ferromagnetic nanowires
N Shamsudhin, Y Tao, J Sort, B Jang, CL Degen, BJ Nelson, S Pané
Small 12 (46), 6363-6369, 2016
Silicon-supported aluminum oxide membranes with ultrahigh aspect ratio nanopores
B Jang, XZ Chen, R Siegfried, JMM Moreno, B Özkale, K Nielsch, ...
RSC advances 5 (114), 94283-94289, 2015
Dually actuated atomic force microscope with miniaturized magnetic bead-actuators for single-molecule force measurements
S Sevim, S Ozer, L Feng, J Wurzel, A Fakhraee, N Shamsudhin, B Jang, ...
Nanoscale Horizons 1 (6), 488-495, 2016
Programmable locomotion mechanisms of nanowires with semihard magnetic properties near a surface boundary
B Jang, A Hong, C Alcantara, G Chatzipirpiridis, X Martí, E Pellicer, J Sort, ...
ACS applied materials & interfaces 11 (3), 3214-3223, 2018
Magnetic imaging of a single ferromagnetic nanowire using diamond atomic sensors
M Lee, B Jang, J Yoon, MC Mathpal, Y Lee, C Kim, S Pane, BJ Nelson, ...
Nanotechnology 29 (40), 405502, 2018
Polymeric microellipsoids with programmed magnetic anisotropy for controlled rotation using low (≈ 10 mT) magnetic fields
A Bonilla-Brunner, IL García, B Jang, MA Patiño, V Alimchandani, ...
Applied Materials Today 18, 100511, 2020
Fabrication and locomotion of flexible nanoswimmers
B Jang, A Aho, BJ Nelson, S Pané
2018 IEEE/RSJ International Conference on Intelligent Robots and Systems …, 2018
Exploiting electrolyte confinement effects for the electrosynthesis of two-engine micromachines
M Fernández-Barcia, B Jang, CCJ Alcântara, U Wolff, A Gebert, ...
Applied Materials Today 19, 100629, 2020
Magnetically and chemically propelled nanowire-based swimmers
J Puigmartí-Luis, E Pellicer, B Jang, G Chatzipirpiridis, S Sevim, XZ Chen, ...
Magnetic Nano-and Microwires, 777-799, 2020
Microrobotics: 3D Fabrication of Fully Iron Magnetic Microrobots (Small 16/2019)
CCJ Alcântara, S Kim, S Lee, B Jang, P Thakolkaran, JY Kim, H Choi, ...
Small 15 (16), 1970086, 2019
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