Terry Tsz Him Ching
Terry Tsz Him Ching
Postdoc at Christopher Chen Lab (Boston University; Wyss Institute at Harvard)
Verified email at
Cited by
Cited by
Digital light processing based bioprinting with composable gradients
M Wang, W Li, LS Mille, T Ching, Z Luo, G Tang, CE Garciamendez, ...
Advanced Materials 34 (1), 2107038, 2022
Fabrication of Integrated Microfluidic Devices by Direct Ink Writing (DIW) 3D Printing
T Ching, Y Li, R Karyappa, A Ohno, YC Toh, M Hashimoto
Sensors and Actuators B: Chemical 297, 126609, 2019
Self-aligning Tetris-Like (TILE) modular microfluidic platform for mimicking multi-organ interactions
LJY Ong, T Ching, LH Chong, S Arora, H Li, M Hashimoto, R DasGupta, ...
Lab on a Chip 19 (13), 2178-2191, 2019
A smartphone‐enabled portable digital light processing 3D printer
W Li, M Wang, LS Mille, JA Robledo Lara, V Huerta, T Uribe Velázquez, ...
Advanced Materials 33 (35), 2102153, 2021
Ultra‐deformable and tissue‐adhesive liquid metal antennas with high wireless powering efficiency
K Yamagishi, W Zhou, T Ching, SY Huang, M Hashimoto
Advanced Materials 33 (26), 2008062, 2021
Molecularly cleavable bioinks facilitate high-performance digital light processing-based bioprinting of functional volumetric soft tissues
M Wang, W Li, J Hao, A Gonzales III, Z Zhao, RS Flores, X Kuang, X Mu, ...
Nature communications 13 (1), 3317, 2022
3D-printable colloidal photonic crystals
J Liao, C Ye, J Guo, CE Garciamendez-Mijares, P Agrawal, X Kuang, ...
Materials Today 56, 29-41, 2022
Bridging the academia-to-industry gap: organ-on-a-chip platforms for safety and toxicology assessment
T Ching, YC Toh, M Hashimoto, YS Zhang
Trends in Pharmacological Sciences 42 (9), 715-728, 2021
Fabrication of Complex 3D Fluidic Networks via Modularized Stereolithography
T Ching, YC Toh, M Hashimoto
Advanced Engineering Materials 22 (3), 1901109, 2019
Embedded ink writing (eiw) of polysiloxane inks
R Karyappa, T Ching, M Hashimoto
ACS applied materials & interfaces 12 (20), 23565-23575, 2020
Highly-customizable 3D-printed peristaltic pump kit
T Ching, J Vasudevan, HY Tan, CT Lim, J Fernandez, YC Toh, ...
HardwareX 10, e00202, 2021
Biomimetic Vasculatures by 3D‐Printed Porous Molds
T Ching, J Vasudevan, SY Chang, HY Tan, A Sargur Ranganath, CT Lim, ...
Small 18 (39), 2203426, 2022
Integration of a microfluidic multicellular coculture array with machine learning analysis to predict adverse cutaneous drug reactions
LH Chong, T Ching, HJ Farm, G Grenci, KH Chiam, YC Toh
Lab on a Chip 22 (10), 1890-1904, 2022
Bward: An optical approach for reliable in-situ early blood leakage detection at catheter extraction points
JPF Cortés, TH Ching, C Wu, CY Chionh, S Nanayakkara, S Foong
2015 IEEE 7th International Conference on Cybernetics and Intelligent …, 2015
Techniques and materials for the fabrication of microfluidic devices
T Ching, X Nie, SY Chang, YC Toh, M Hashimoto
Principles of Human Organs-on-Chips, 1-36, 2023
Bioprinting using PEGDMA-based hydrogel on DLP printer
SY Chang, T Ching, M Hashimoto
Materials Today: Proceedings 70, 179-183, 2022
Lung simulation apparatus
LJ Quah, TH Ching
US Patent 11,189,197, 2021
A body fluid drainage device
LJ Quah, TH Ching
US Patent App. 16/081,641, 2020
Fabrication Methods for Stretchable, Self-tuning Multi-element Liquid Metal Coil Arrays (LiquiTune)
E Motovilova, T Ching, J Vincent, J Shin, ET Tan, V Taracila, F Robb, ...
Dual-Channel Stretchable, Self-Tuning, Liquid Metal Coils and Their Fabrication Techniques
E Motovilova, T Ching, J Vincent, J Shin, ET Tan, V Taracila, F Robb, ...
Sensors 23 (17), 7588, 2023
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