This #IJEM review evaluates optical performance in TPL-based #Imaging, covering key materials, #Fabrication, and applications while offering insights into future challenges for high-resolution #3DNanoprinting. @monashuniversity.bsky.social
#OpenAccess: doi.org/10.1088/2631...

This study presents an E-Jet #3Dnanoprinting strategy that enables direct fabrication of 40 nm #PZT #nanostructures using a 100-μm nozzle, achieving high crystallinity, flexibility, and #piezoelectric response. #3DPrinting #AdditiveManufacturing #Sensors

#IJEM: doi.org/10.1088/2631...

In this new Cluster publication, researchers developed a groundbreaking #3DNanoprinting method combining two-step absorption and dynamic multi-focus control for faster, scalable printing with high resolution. Ideal for #Photonics, #Metamaterials, and #MicroOptics. 👉 doi.org/10.1002/lpor...

Nanoscale 3D printing Focused electron beam–induced deposition (FEBID) is a 3D nanoprinting technique capable of producing intricate metal-based nanostructures with exceptional design flexibility. All that’s needed are a c...

Focused electron beam–induced deposition is a #3Dnanoprinting technique capable of producing intricate metal-based #nanostructures with exceptional design flexibility.

3D Printing Speed: Compare Speed and Minimum Feature Size...

A new website by Cluster researchers provides a comparison of different 3D printing technologies by speed and voxel size: https://3dprintingspeed.com/ #3dnanoprinting #3dprinting