Two‐photon polymerization lithography for optics and photonics: fundamentals, materials, technologies, and applications
The rapid development of additive manufacturing has fueled a revolution in various research
fields and industrial applications. Among the myriad of advanced 3D printing techniques …
fields and industrial applications. Among the myriad of advanced 3D printing techniques …
Surface roughness of as-printed polymers: a comprehensive review
AP Golhin, R Tonello, JR Frisvad… - … International Journal of …, 2023 - Springer
Surface roughness is gaining increasing recognition in the processing design methods of
additive manufacturing (AM) due to its role in many critical applications. This impact extends …
additive manufacturing (AM) due to its role in many critical applications. This impact extends …
Wetting-regulated gas-involving (photo) electrocatalysis: biomimetics in energy conversion
(Photo) electrolysis of water or gases with water to species serving as industrial feedstocks
and energy carriers, such as hydrogen, ammonia, ethylene, propanol, etc., has drawn …
and energy carriers, such as hydrogen, ammonia, ethylene, propanol, etc., has drawn …
3D printed optics and photonics: Processes, materials and applications
Abstract Interest in 3D (3-dimensional) printed optics and photonics by both industry and
academic researchers is burgeoning, due to the unique features availed by 3D printing not …
academic researchers is burgeoning, due to the unique features availed by 3D printing not …
Breakthrough in the printing tactics for stimuli-responsive materials: 4D printing
P Rastogi, B Kandasubramanian - Chemical Engineering Journal, 2019 - Elsevier
The idea of 3D printing ever since 1980's has agitated the research domains challenging the
conventional techniques with its inordinate efficiency in the utility of material, superior …
conventional techniques with its inordinate efficiency in the utility of material, superior …
Mesoscale laser 3D printing
3D meso scale structures that can reach up to centimeters in overall size but retain micro-or
nano-features, proved to be promising in various science fields ranging from micro …
nano-features, proved to be promising in various science fields ranging from micro …
3D printing of glass by additive manufacturing techniques: a review
D Zhang, X Liu, J Qiu - Frontiers of Optoelectronics, 2021 - Springer
Additive manufacturing (AM), which is also known as three-dimensional (3D) printing, uses
computer-aided design to build objects layer by layer. Here, we focus on the recent progress …
computer-aided design to build objects layer by layer. Here, we focus on the recent progress …
Complex aspherical singlet and doublet microoptics by grayscale 3D printing
We demonstrate 3D printed aspherical singlet and doublet microoptical components by
grayscale lithography and characterize and evaluate their excellent shape accuracy and …
grayscale lithography and characterize and evaluate their excellent shape accuracy and …
[PDF][PDF] Laser additive manufacturing of Si/ZrO2 tunable crystalline phase 3D nanostructures
G Merkininkaitė, E Aleksandravičius… - Opto-electronic …, 2022 - researching.cn
The current study is directed to the rapidly developing field of inorganic material 3D object
production at nano-/micro scale. The fabrication method includes laser lithography of hybrid …
production at nano-/micro scale. The fabrication method includes laser lithography of hybrid …
Two-photon polymerization for 3D biomedical scaffolds: Overview and updates
X Jing, H Fu, B Yu, M Sun, L Wang - Frontiers in bioengineering and …, 2022 - frontiersin.org
The needs for high-resolution, well-defined and complex 3D microstructures in diverse fields
call for the rapid development of novel 3D microfabrication techniques. Among those, two …
call for the rapid development of novel 3D microfabrication techniques. Among those, two …