PDMS microfabrication and design for microfluidics and sustainable energy application
L Lin, CK Chung - Micromachines, 2021 - mdpi.com
The polydimethylsiloxane (PDMS) is popular for wide application in various fields of
microfluidics, microneedles, biology, medicine, chemistry, optics, electronics, architecture …
microfluidics, microneedles, biology, medicine, chemistry, optics, electronics, architecture …
Dynamic ablative networks: shapeable heat-shielding materials
Thermoset materials sacrifice recyclability and reshapeability for increased chemical and
mechanical robustness because of an immobilized, cross-linked polymeric matrix. The …
mechanical robustness because of an immobilized, cross-linked polymeric matrix. The …
Printing of 3D photonic crystals in titania with complete bandgap across the visible spectrum
A photonic bandgap is a range of wavelengths wherein light is forbidden from entering a
photonic crystal, similar to the electronic bandgap in semiconductors. Fabricating photonic …
photonic crystal, similar to the electronic bandgap in semiconductors. Fabricating photonic …
Rapid printing of nanoporous 3D structures by overcoming the proximity effects in projection two-photon lithography
Large and deterministic 3D structures with nanoscale features and porosities are valuable
for various applications but are challenging to print due to the proximity effects that lead to …
for various applications but are challenging to print due to the proximity effects that lead to …
Additive manufacturing: Frameworks for chemical understanding and advancement in vat photopolymerization
JJ Schwartz - MRS bulletin, 2022 - Springer
Three-dimensional printing, or additive manufacturing (AM), is a broad term for a wide range
of fabrication methods utilizing materials such as small-molecule, polymer, and metal …
of fabrication methods utilizing materials such as small-molecule, polymer, and metal …
Additive Manufacturing of SiOC, SiC, and Si3N4 Ceramic 3D Microstructures
Herein, the fabrication of hard ceramic SiOC 3D microstructures by precursor synthesis,
laser lithography, and pyrolysis combination is proposed. Precursors are hybrid …
laser lithography, and pyrolysis combination is proposed. Precursors are hybrid …
Two-photon polymerization lithography for imaging optics
Optical imaging systems have greatly extended human visual capabilities, enabling the
observation and understanding of diverse phenomena. Imaging technologies span a broad …
observation and understanding of diverse phenomena. Imaging technologies span a broad …
Development of transparent, particle‐loaded photoresins for volumetric additive manufacturing of silica glass
Additive manufacturing of glass aims to change the paradigm of glass manufacturing by
allowing for improved customization coupled with lower energy and post‐processing needs …
allowing for improved customization coupled with lower energy and post‐processing needs …
2.5 D, 3D and 4D printing in nanophotonics-a progress report
Additive manufacturing produces 3D geometries by depositing material in a layer-by-layer
fashion. Commonly, the resolution of additive manufacturing is in the millimeter and …
fashion. Commonly, the resolution of additive manufacturing is in the millimeter and …
A Computational Evaluation of Minimum Feature Size in Projection Two-Photon Lithography for Rapid Sub-100 nm Additive Manufacturing
Two-photon lithography (TPL) is a laser-based additive manufacturing technique that
enables the printing of arbitrarily complex cm-scale polymeric 3D structures with sub-micron …
enables the printing of arbitrarily complex cm-scale polymeric 3D structures with sub-micron …