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283 results on '"Low, Hong Yee"'

1. Overcoming Van der Waals Forces in reconfigurable nanostructures

Author

Zhang, Wang, Wang, Hao, Tan, Alvin T. L., Ranganath, Anupama Sargur, Zhang, Biao, Wang, Hongtao, Chan, John You En, Ruan, Qifeng, Liu, Hailong, Ha, Son Tung, Wang, Dong, Ravikumar, Venkat K., Low, Hong Yee, and Yang, Joel K. W.

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Reconfigurable metamaterials require constituent nanostructures to demonstrate switching of shapes with external stimuli. For generality, such nanostructures would touch and stick to other surfaces in one of its configurations. Yet, a longstanding challenge is in overcoming this stiction caused by Van der Waals forces, which impedes shape recovery. Here, we introduce a stiff yet self-recovering material system based on acrylic acid, and tested it in high-aspect ratio structures, where recovery is weak. This designer material has a storage modulus of ~5.2 GPa at room temperature and ~90 MPa in the rubbery state at 150 Celsius, an order of magnitude higher than previous reports. A high-resolution resin for two-photon lithography was developed based on this polymer system, enabling 3D printing of nanopillars with diameters of ~400 nm and aspect ratio as high as ~10. Experimentally, we observed self-recovery as collapsed and touching structures overcome stiction to stand back up. We developed a theoretical model to explain the recoverability of these sub-micron structures. Reconfigurable structural colour prints and holograms were demonstrated, indicating potential applications of the material system as a shape memory polymer suitable for sub-micron reconfigurable metamaterials.

Published
2022

3. Structural Multi-Colour Invisible Inks with Submicron 4D Printing of Shape Memory Polymers

Author

Zhang, Wang, Wang, Hao, Wang, Hongtao, Chan, John You En, Liu, Hailong, Zhang, Biao, Zhang, Yuan-Fang, Agarwal, Komal, Yang, Xiaolong, Low, Hong Yee, Ge, Qi, and Yang, Joel K. W.

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Four-dimensional (4D) printing of shape memory polymer (SMP) imparts time responsive properties to 3D structures. Here, we explore 4D printing of a SMP in the submicron length scale, extending its applications to nanophononics. We report a new SMP photoresist based on Vero Clear achieving print features at a resolution of ~300 nm half pitch using two-photon polymerization lithography (TPL). Prints consisting of grids with size-tunable multi-colours enabled the study of shape memory effects to achieve large visual shifts through nanoscale structure deformation. As the nanostructures are flattened, the colours and printed information become invisible. Remarkably, the shape memory effect recovers the original surface morphology of the nanostructures along with its structural colour within seconds of heating above its glass transition temperature. The high-resolution printing and excellent reversibility in both microtopography and optical properties promises a platform for temperature-sensitive labels, information hiding for anti-counterfeiting, and tunable photonic devices.

Published
2020
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16. Stiff Shape Memory Polymers for High-Resolution Reconfigurable Nanophotonics

Author

Zhang, Wang, primary, Wang, Hao, additional, Tan, Alvin T. L., additional, Sargur Ranganath, Anupama, additional, Zhang, Biao, additional, Wang, Hongtao, additional, Chan, John You En, additional, Ruan, Qifeng, additional, Liu, Hailong, additional, Ha, Son Tung, additional, Wang, Dong, additional, Ravikumar, Venkat K., additional, Low, Hong Yee, additional, and Yang, Joel K. W., additional

Published
2022
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38. Tuning response amplitude in nanoimprinted thermoresponsive polymer blend.

Author

Sargur Ranganath, Anupama, Vellingiri, Suganya, and Low, Hong Yee

Subjects
POLYVINYLIDENE fluoride, ENERGY dispersive X-ray spectroscopy, POLYMER blends, THERMORESPONSIVE polymers, NANOIMPRINT lithography, DIFLUOROETHYLENE
Abstract

We demonstrate the potential of thermoresponsive poly N‐(isopropylacrylamide) (PNIPAM) based surfaces in achieving a low‐energy approach to modulate surface wetting for applications such as fog harvesting and anti‐fogging. Alternative to grafting methods, we use a two‐step approach for tuning the response amplitude. First, we blend PNIPAM with a chemically non‐reactive poly (vinylidene fluoride), PVDF (1/3, 1/1, 3/1 by weight). Second, thermal nanoimprint lithography is used to create micro (3, 5, 10, and 20 μm) and nano‐scale (100 and 200 nm) pillars. Nano‐patterned surfaces show a response amplitude of ~30°–50° compared to ~15°–30°, observed for the micro‐patterned surface. X‐ray photo‐electron spectroscopy and energy dispersive X‐ray analysis confirms the reduction of polyvinylidene fluoride phase domains and enrichment of PNIPAM on the nano‐patterned surface. A real‐time dynamic mist condensation study showed that the nano‐patterned blend exhibited a lower temperature range (34/41°C) for on/off (wetting/drying) state compared to an unpatterned blend (37/50°C). [ABSTRACT FROM AUTHOR]

Published
2022
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