Check out this new outlook article highlighting emerging strategies for single-vat multimaterial vat photopolymerization! "One-Vat Multimaterial 3D Printing: The Devil is in the Details" 🔱⚡️🦴 https://t.co/UWgNQ3DsvK

A hybrid epoxy–acrylate resin is reported for the digital light processing 3D printing of bioinspired metamaterial structures with precisely patterned hard and soft domains. @ZPageGroup https://t.co/zwT5W3vGCU

#A dual-light 3D #PrintingMethod enables precise integration of flexible and rigid materials, advancing the design of prosthetics, medical devices, and stretchable electronics in a single print. @utaustin @NatureMaterials https://t.co/Q3J9V08Zw0

🚨New in @NatureMaterials today, Wavelength-selective 3D printing with hybrid epoxy–acrylate resins enables ultrafast, high-res multimaterial parts! Big congratulations to all involved! Give it a read: https://t.co/Gf3rCWF87W ⚡️

Bifunctional Ruthenium Alkylidene Initiator for Outward Growth of Block Copolymers via Ring-Opening Metathesis Polymerization (@ZPageGroup)(@JPolymSci) https://t.co/QC5Zv2n6P1

This work highlights the ability to spatially control epoxy/acrylate polymerization to obtain cross linked and dissolvable regions to solve the ever present problem of manual support removal in 3D printing. Check it out!

Exciting new publication today in ACS Central Science (@ACSPublications) “Multicolor Digital Light Processing 3D Printing Enables Dissolvable Supports for Freestanding and Non-Assembly Structures”! https://t.co/uNpgG75KL5 🎉👏

Went through a few more sticky notes than usual…Happy Birthday @zakpage 🎉😇

Congratulations to Camille Dreyfus Teacher-Scholar @zakpage (@ZPageGroup) of @UTAustin for being awarded the Presidential Early Career Award for Scientists and Engineers! https://t.co/uN12iMPIKm

Recent paper in Advanced Materials: highly functional thermoplastic elastomers (TPEs) with ROMP! With high upper service temperatures, super soft moduli, and strain-stiffening behavior!🔬 https://t.co/yJl1u8KuHC #Polymerization

Congratulations to Dr. Henry Cater for defending his thesis on “Biomimetic Elastomers from Ring-Opening Metathesis Polymerization!!

Congrats Zak!! @zakpage

Converting green light to violet via triplet fusion upconversion was leveraged to achieve high-resolution and rapid 3D printing with practical low-intensity visible light under ambient conditions NEW #ASAP by @zakpage @RobertsGroupUT & team Read it here: https://t.co/tX09fVTVen

New from @ZPageGroup and @JLsessler group: 3D printed supramolecular sorbents tackle e-waste! 🔋Selective cobalt binding via eco-friendly catch-and-release in benign solvents ♻️ #3Dprinting #RecyclingInnovation

3D-Printed Porous Supramolecular Sorbents for Cobalt Recycling | Journal of the American Chemical Society @JLsessler @UTAustin @zakpage @UTChemistry #Porous #Supramolecular #Sorbents #Co #Recycling

The advancement of light-based💡3D printing platforms and LED efficiency make TTA-UC a more viable mechanism for high resolution features under accessible conditions. We hope this application-oriented approach inspires further exploration into 3D printing driven by TTA-UC. 8/8

TTA-UC resins formulated using a common acrylic monomer🛢️exhibited good shelf stability in comparison to an analogous Type II resin operating under green light, allowing for easy bottling and long-term storage.📦7/8

This unique property can enable improved spatial resolution in 3D printing over that achievable with analogous Type I and II photosystems by mitigating curing that occurs outside of the desired irradiation zone🔦from low-intensity transmitted and scattered light. 6/8

The polymerization rate of the TTA-UC to Type I system exhibited a quadratic (superlinear) dependence on light intensity📈, which translates to more confined curing in comparison to other state-of-the-art photosystems. 5/8

The complete TTA-UC resin contains a Type I, UV-absorbing photoinitiator, allowing for rapid solidification♟️and concurrent increase of red phosphorescence🚨originating from the green light absorbing species.🌿4/8