Nanoscribe
@nanoscribe.com
The world technology and market leader in 3D printing on the nano-, micro-, and mesoscale.
🌐 https://www.nanoscribe.com/en/
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https://www.nanoscribe.com/en/privacy-policy/
🌐 https://www.nanoscribe.com/en/
https://www.nanoscribe.com/en/legal-notice/
https://www.nanoscribe.com/en/privacy-policy/
🚀 Wafer-scale PIC manufacturing — now on 8 inch
7,200 precisely aligned microlenses patterned across an 8” wafer. Printed with aligned 3D microfabrication at wafer scale.
See it live at #PhotonicsWest
📍 Hall E | Booth 3652 | Jan 20–22 | San Francisco
👉 tinyurl.com/yhcf3ccn
7,200 precisely aligned microlenses patterned across an 8” wafer. Printed with aligned 3D microfabrication at wafer scale.
See it live at #PhotonicsWest
📍 Hall E | Booth 3652 | Jan 20–22 | San Francisco
👉 tinyurl.com/yhcf3ccn
January 20, 2026 at 12:00 PM
🚀 Wafer-scale PIC manufacturing — now on 8 inch
7,200 precisely aligned microlenses patterned across an 8” wafer. Printed with aligned 3D microfabrication at wafer scale.
See it live at #PhotonicsWest
📍 Hall E | Booth 3652 | Jan 20–22 | San Francisco
👉 tinyurl.com/yhcf3ccn
7,200 precisely aligned microlenses patterned across an 8” wafer. Printed with aligned 3D microfabrication at wafer scale.
See it live at #PhotonicsWest
📍 Hall E | Booth 3652 | Jan 20–22 | San Francisco
👉 tinyurl.com/yhcf3ccn
BiOS recap: strong momentum – and a new 150 mm × 150 mm stage 🔍
Thanks to everyone who stopped by #BiOS. We introduced our new high-precision stage for Quantum X systems – 9x more print area, same quality.
Meet us at Photonics West, Booth 3652, 20–22 Jan:
tinyurl.com/4kxy5ufh
Thanks to everyone who stopped by #BiOS. We introduced our new high-precision stage for Quantum X systems – 9x more print area, same quality.
Meet us at Photonics West, Booth 3652, 20–22 Jan:
tinyurl.com/4kxy5ufh
January 19, 2026 at 12:00 PM
BiOS recap: strong momentum – and a new 150 mm × 150 mm stage 🔍
Thanks to everyone who stopped by #BiOS. We introduced our new high-precision stage for Quantum X systems – 9x more print area, same quality.
Meet us at Photonics West, Booth 3652, 20–22 Jan:
tinyurl.com/4kxy5ufh
Thanks to everyone who stopped by #BiOS. We introduced our new high-precision stage for Quantum X systems – 9x more print area, same quality.
Meet us at Photonics West, Booth 3652, 20–22 Jan:
tinyurl.com/4kxy5ufh
🚀 New 150 mm × 150 mm stage for Quantum X
Ninefold larger printable area for wafer-scale 3D microfabrication.
Print on wafers up to 8 inches – now the standard on all Quantum X systems.
📍 Meet us at #BiOS & #PhotonicsWest
#Microfabrication #WaferScale #3DPrinting
Ninefold larger printable area for wafer-scale 3D microfabrication.
Print on wafers up to 8 inches – now the standard on all Quantum X systems.
📍 Meet us at #BiOS & #PhotonicsWest
#Microfabrication #WaferScale #3DPrinting
January 17, 2026 at 5:01 PM
🚀 New 150 mm × 150 mm stage for Quantum X
Ninefold larger printable area for wafer-scale 3D microfabrication.
Print on wafers up to 8 inches – now the standard on all Quantum X systems.
📍 Meet us at #BiOS & #PhotonicsWest
#Microfabrication #WaferScale #3DPrinting
Ninefold larger printable area for wafer-scale 3D microfabrication.
Print on wafers up to 8 inches – now the standard on all Quantum X systems.
📍 Meet us at #BiOS & #PhotonicsWest
#Microfabrication #WaferScale #3DPrinting
We’re ready 🧬 for #BiOS 2026 in San Francisco.
Find Nanoscribe on Jan 17–18 at Booth 8652, Hall E.
Then meet us at #PhotonicsWest Jan 20–22, Booth 3652.
Get an overview of our latest highlights and updates.
Who’s stopping by? 👋
Find Nanoscribe on Jan 17–18 at Booth 8652, Hall E.
Then meet us at #PhotonicsWest Jan 20–22, Booth 3652.
Get an overview of our latest highlights and updates.
Who’s stopping by? 👋
January 17, 2026 at 9:00 AM
We’re ready 🧬 for #BiOS 2026 in San Francisco.
Find Nanoscribe on Jan 17–18 at Booth 8652, Hall E.
Then meet us at #PhotonicsWest Jan 20–22, Booth 3652.
Get an overview of our latest highlights and updates.
Who’s stopping by? 👋
Find Nanoscribe on Jan 17–18 at Booth 8652, Hall E.
Then meet us at #PhotonicsWest Jan 20–22, Booth 3652.
Get an overview of our latest highlights and updates.
Who’s stopping by? 👋
We’ve officially opened our Shanghai Quantum X demolab 🌏
A key milestone in Nanoscribe’s international growth, bringing hands-on access to our next-generation Quantum X technology to customers and partners in China.
🔗 Full news: tinyurl.com/3s2nj2h2
A key milestone in Nanoscribe’s international growth, bringing hands-on access to our next-generation Quantum X technology to customers and partners in China.
🔗 Full news: tinyurl.com/3s2nj2h2
January 15, 2026 at 12:00 PM
We’ve officially opened our Shanghai Quantum X demolab 🌏
A key milestone in Nanoscribe’s international growth, bringing hands-on access to our next-generation Quantum X technology to customers and partners in China.
🔗 Full news: tinyurl.com/3s2nj2h2
A key milestone in Nanoscribe’s international growth, bringing hands-on access to our next-generation Quantum X technology to customers and partners in China.
🔗 Full news: tinyurl.com/3s2nj2h2
🔍 Live aligned 3D micro-optics printing
See Quantum X align in action at #BiOS and #PhotonicsWest: Live demos of 3D-printed micro-optics on fibers and photonic chips.
📍 Hall E, Booth 8652 (BiOS) and 3652 (PW26)
🕚 Daily demos at 2 p.m.
More info 👉 www.nanoscribe.com
See Quantum X align in action at #BiOS and #PhotonicsWest: Live demos of 3D-printed micro-optics on fibers and photonic chips.
📍 Hall E, Booth 8652 (BiOS) and 3652 (PW26)
🕚 Daily demos at 2 p.m.
More info 👉 www.nanoscribe.com
January 14, 2026 at 12:00 PM
🔍 Live aligned 3D micro-optics printing
See Quantum X align in action at #BiOS and #PhotonicsWest: Live demos of 3D-printed micro-optics on fibers and photonic chips.
📍 Hall E, Booth 8652 (BiOS) and 3652 (PW26)
🕚 Daily demos at 2 p.m.
More info 👉 www.nanoscribe.com
See Quantum X align in action at #BiOS and #PhotonicsWest: Live demos of 3D-printed micro-optics on fibers and photonic chips.
📍 Hall E, Booth 8652 (BiOS) and 3652 (PW26)
🕚 Daily demos at 2 p.m.
More info 👉 www.nanoscribe.com
Nano-Micro-Lithography Symposium 2026 – last seats available ⏳
Join us on Jan 27–28, 2026 at DTU Nanolab (Lyngby, Denmark) for two days of exchange on hybrid manufacturing, experts’ insights and keynotes – in a real lab environment.
👉 Register now
tinyurl.com/5cfzapzb
Join us on Jan 27–28, 2026 at DTU Nanolab (Lyngby, Denmark) for two days of exchange on hybrid manufacturing, experts’ insights and keynotes – in a real lab environment.
👉 Register now
tinyurl.com/5cfzapzb
January 13, 2026 at 12:00 PM
Nano-Micro-Lithography Symposium 2026 – last seats available ⏳
Join us on Jan 27–28, 2026 at DTU Nanolab (Lyngby, Denmark) for two days of exchange on hybrid manufacturing, experts’ insights and keynotes – in a real lab environment.
👉 Register now
tinyurl.com/5cfzapzb
Join us on Jan 27–28, 2026 at DTU Nanolab (Lyngby, Denmark) for two days of exchange on hybrid manufacturing, experts’ insights and keynotes – in a real lab environment.
👉 Register now
tinyurl.com/5cfzapzb
🔬 What’s next for two-photon lithography?
January means #BiOS & #PhotonicsWest in SF. Nanoscribe brings 3 deep-dive talks on 2PP & 2GL® – from biomimetic cell culture to multi-focus grayscale & fusion targets.
Join us on stage!
January means #BiOS & #PhotonicsWest in SF. Nanoscribe brings 3 deep-dive talks on 2PP & 2GL® – from biomimetic cell culture to multi-focus grayscale & fusion targets.
Join us on stage!
January 12, 2026 at 12:01 PM
🔬 What’s next for two-photon lithography?
January means #BiOS & #PhotonicsWest in SF. Nanoscribe brings 3 deep-dive talks on 2PP & 2GL® – from biomimetic cell culture to multi-focus grayscale & fusion targets.
Join us on stage!
January means #BiOS & #PhotonicsWest in SF. Nanoscribe brings 3 deep-dive talks on 2PP & 2GL® – from biomimetic cell culture to multi-focus grayscale & fusion targets.
Join us on stage!
Using Nanoscribe’s 3D printing, scientists created 3D cages to confine single cells. The study shows that 3D cell shape alone reshapes force distribution and mechanosensitive signaling.
Kudos to Monash University & the Weizmann Institute of Science!
More:
onlinelibrary.wiley.com/doi/10.1002/...
Kudos to Monash University & the Weizmann Institute of Science!
More:
onlinelibrary.wiley.com/doi/10.1002/...
onlinelibrary.wiley.com
January 8, 2026 at 2:30 PM
Using Nanoscribe’s 3D printing, scientists created 3D cages to confine single cells. The study shows that 3D cell shape alone reshapes force distribution and mechanosensitive signaling.
Kudos to Monash University & the Weizmann Institute of Science!
More:
onlinelibrary.wiley.com/doi/10.1002/...
Kudos to Monash University & the Weizmann Institute of Science!
More:
onlinelibrary.wiley.com/doi/10.1002/...
×9
Space is part of the equation.
Photonics West · San Francisco · Jan 17
Space is part of the equation.
Photonics West · San Francisco · Jan 17
January 7, 2026 at 12:00 PM
×9
Space is part of the equation.
Photonics West · San Francisco · Jan 17
Space is part of the equation.
Photonics West · San Francisco · Jan 17
🎆 Hello, 2026.
Here’s to clear priorities, good collaboration, and time for the work that matters in 3D nano- and microfabrication.
All the best for the new year from all of us at Nanoscribe 👋
Here’s to clear priorities, good collaboration, and time for the work that matters in 3D nano- and microfabrication.
All the best for the new year from all of us at Nanoscribe 👋
January 1, 2026 at 12:01 PM
🎆 Hello, 2026.
Here’s to clear priorities, good collaboration, and time for the work that matters in 3D nano- and microfabrication.
All the best for the new year from all of us at Nanoscribe 👋
Here’s to clear priorities, good collaboration, and time for the work that matters in 3D nano- and microfabrication.
All the best for the new year from all of us at Nanoscribe 👋
Unimolecular stimuli-responsive nanomaterials
Stable, biocompatible, & optically self-reporting nanomaterials printed in microstructures using a Nanoscribe two-photon system.
Kudos to the @sydney.edu.au & @uniheidelberg.bsky.social teams!
More: pubs.rsc.org/en/content/a...
Stable, biocompatible, & optically self-reporting nanomaterials printed in microstructures using a Nanoscribe two-photon system.
Kudos to the @sydney.edu.au & @uniheidelberg.bsky.social teams!
More: pubs.rsc.org/en/content/a...
A printable, unimolecular, core–shell polymer bottlebrush-based signal transducer using solvatochromatic reporting - Chemical Science (RSC Publishing) DOI:10.1039/D5SC07029E
Chenyou Zhang a, Samantha O. Catt b, Tom Hawtrey cde, Ping Zeng a, Haoxiang Zeng a, Simran D. Kerai a, Yen Theng Cheng a, Moritz P. Hopp b, Qinqin Yang a, Elizabeth J. New cde, Eva Blasco *b and…
pubs.rsc.org
December 29, 2025 at 12:01 PM
Unimolecular stimuli-responsive nanomaterials
Stable, biocompatible, & optically self-reporting nanomaterials printed in microstructures using a Nanoscribe two-photon system.
Kudos to the @sydney.edu.au & @uniheidelberg.bsky.social teams!
More: pubs.rsc.org/en/content/a...
Stable, biocompatible, & optically self-reporting nanomaterials printed in microstructures using a Nanoscribe two-photon system.
Kudos to the @sydney.edu.au & @uniheidelberg.bsky.social teams!
More: pubs.rsc.org/en/content/a...
🤝 Wishing you a warm and restful season.
Thank you for trusting us, sharing ideas and driving new projects in 3D nano- and microfabrication.
Enjoy spending time with your loved ones and start the new year off right 😊
Thank you for trusting us, sharing ideas and driving new projects in 3D nano- and microfabrication.
Enjoy spending time with your loved ones and start the new year off right 😊
December 25, 2025 at 12:02 PM
🤝 Wishing you a warm and restful season.
Thank you for trusting us, sharing ideas and driving new projects in 3D nano- and microfabrication.
Enjoy spending time with your loved ones and start the new year off right 😊
Thank you for trusting us, sharing ideas and driving new projects in 3D nano- and microfabrication.
Enjoy spending time with your loved ones and start the new year off right 😊
14 days of high-quality wearable ECG – using microneedle electrodes.
Inha University researchers validated ECG monitoring with a wireless system, using Nanoscribe’s 2PP for printing the microneedle master.
Congrats to the team!
More: advanced.onlinelibrary.wiley.com/doi/10.1002/...
Inha University researchers validated ECG monitoring with a wireless system, using Nanoscribe’s 2PP for printing the microneedle master.
Congrats to the team!
More: advanced.onlinelibrary.wiley.com/doi/10.1002/...
Antifouling All-Polymeric Microneedle Array for Long-Term Wearable ECG Monitoring
advanced.onlinelibrary.wiley.com
December 23, 2025 at 12:01 PM
14 days of high-quality wearable ECG – using microneedle electrodes.
Inha University researchers validated ECG monitoring with a wireless system, using Nanoscribe’s 2PP for printing the microneedle master.
Congrats to the team!
More: advanced.onlinelibrary.wiley.com/doi/10.1002/...
Inha University researchers validated ECG monitoring with a wireless system, using Nanoscribe’s 2PP for printing the microneedle master.
Congrats to the team!
More: advanced.onlinelibrary.wiley.com/doi/10.1002/...
⏳ Year-end highlights in 3D nano- and microfabrication
Company milestones, customer results, and a tiny advent arrangement aligned onto an optical fiber, with nanoscale precision🔬
Discover what shaped our 2025 and how we made it
tinyurl.com/2mefv2ym
Company milestones, customer results, and a tiny advent arrangement aligned onto an optical fiber, with nanoscale precision🔬
Discover what shaped our 2025 and how we made it
tinyurl.com/2mefv2ym
December 19, 2025 at 10:00 AM
⏳ Year-end highlights in 3D nano- and microfabrication
Company milestones, customer results, and a tiny advent arrangement aligned onto an optical fiber, with nanoscale precision🔬
Discover what shaped our 2025 and how we made it
tinyurl.com/2mefv2ym
Company milestones, customer results, and a tiny advent arrangement aligned onto an optical fiber, with nanoscale precision🔬
Discover what shaped our 2025 and how we made it
tinyurl.com/2mefv2ym
How do you speed up laser fusion target development?
With Nanoscribe’s 3D printing by 2GL®: single-step fabrication of ultrasmooth shells (Ra < 10 nm) and nanoporous foam lattices with repeatable and precise results for rapid iteration.
Discover more:
👉 tinyurl.com/49kcdwbm
With Nanoscribe’s 3D printing by 2GL®: single-step fabrication of ultrasmooth shells (Ra < 10 nm) and nanoporous foam lattices with repeatable and precise results for rapid iteration.
Discover more:
👉 tinyurl.com/49kcdwbm
December 16, 2025 at 12:00 PM
How do you speed up laser fusion target development?
With Nanoscribe’s 3D printing by 2GL®: single-step fabrication of ultrasmooth shells (Ra < 10 nm) and nanoporous foam lattices with repeatable and precise results for rapid iteration.
Discover more:
👉 tinyurl.com/49kcdwbm
With Nanoscribe’s 3D printing by 2GL®: single-step fabrication of ultrasmooth shells (Ra < 10 nm) and nanoporous foam lattices with repeatable and precise results for rapid iteration.
Discover more:
👉 tinyurl.com/49kcdwbm
🎄 A touch of Christmas spirit and year-end spirit at Nanoscribe.
A team get-together with gifts, hot drinks, pastries and good conversations brought a warm pause to a busy year.
And Nanoscribe turned 18 this week, so there was anniversary cake too 🎂
A team get-together with gifts, hot drinks, pastries and good conversations brought a warm pause to a busy year.
And Nanoscribe turned 18 this week, so there was anniversary cake too 🎂
December 12, 2025 at 12:02 PM
🎄 A touch of Christmas spirit and year-end spirit at Nanoscribe.
A team get-together with gifts, hot drinks, pastries and good conversations brought a warm pause to a busy year.
And Nanoscribe turned 18 this week, so there was anniversary cake too 🎂
A team get-together with gifts, hot drinks, pastries and good conversations brought a warm pause to a busy year.
And Nanoscribe turned 18 this week, so there was anniversary cake too 🎂
🎥 200+ double-sided aspherical lenses, 3D printed (not molded) with highest shape accuracy.
That’s 3D printing by 2GL® on Quantum X: throughput + top-tier print quality, no trade-off.
👉 Explore the most versatile Quantum X shape 3D printer: tinyurl.com/yrvhxytb
That’s 3D printing by 2GL® on Quantum X: throughput + top-tier print quality, no trade-off.
👉 Explore the most versatile Quantum X shape 3D printer: tinyurl.com/yrvhxytb
December 10, 2025 at 12:00 PM
🎥 200+ double-sided aspherical lenses, 3D printed (not molded) with highest shape accuracy.
That’s 3D printing by 2GL® on Quantum X: throughput + top-tier print quality, no trade-off.
👉 Explore the most versatile Quantum X shape 3D printer: tinyurl.com/yrvhxytb
That’s 3D printing by 2GL® on Quantum X: throughput + top-tier print quality, no trade-off.
👉 Explore the most versatile Quantum X shape 3D printer: tinyurl.com/yrvhxytb
Micro-optics manufacturing – now as a service with Printoptix
Together with Printoptix, we support you from optical design to integration-ready micro-optical systems – powered by Nanoscribe tech and Quantum X align.
Explore more: tinyurl.com/5n6hzw3k
Together with Printoptix, we support you from optical design to integration-ready micro-optical systems – powered by Nanoscribe tech and Quantum X align.
Explore more: tinyurl.com/5n6hzw3k
December 9, 2025 at 12:00 PM
Micro-optics manufacturing – now as a service with Printoptix
Together with Printoptix, we support you from optical design to integration-ready micro-optical systems – powered by Nanoscribe tech and Quantum X align.
Explore more: tinyurl.com/5n6hzw3k
Together with Printoptix, we support you from optical design to integration-ready micro-optical systems – powered by Nanoscribe tech and Quantum X align.
Explore more: tinyurl.com/5n6hzw3k
Fluorescence monitoring in 3D microtissues – on just 1 mm²
Nanoscribe’s high-resolution 3D printer is used to fabricate a low-autofluorescence light guide. Kudos to KTH & partners. 👏
📖 Read the paper here: doi.org/10.1038/s413...
Nanoscribe’s high-resolution 3D printer is used to fabricate a low-autofluorescence light guide. Kudos to KTH & partners. 👏
📖 Read the paper here: doi.org/10.1038/s413...
Integrated microoptical system for continuous fluorescence monitoring of microtissues - Microsystems & Nanoengineering
Microsystems & Nanoengineering - Integrated microoptical system for continuous fluorescence monitoring of microtissues
doi.org
December 8, 2025 at 12:00 PM
Fluorescence monitoring in 3D microtissues – on just 1 mm²
Nanoscribe’s high-resolution 3D printer is used to fabricate a low-autofluorescence light guide. Kudos to KTH & partners. 👏
📖 Read the paper here: doi.org/10.1038/s413...
Nanoscribe’s high-resolution 3D printer is used to fabricate a low-autofluorescence light guide. Kudos to KTH & partners. 👏
📖 Read the paper here: doi.org/10.1038/s413...
Finding the right resin for your project got easier!
Explore our resins grouped by application areas:
➡️ High-resolution 3D printing
➡️ High-resolution 3D biofabrication
➡️ Optics manufacturing
➡️ Maskless lithography
👉 Explore the new resin overview: tinyurl.com/4f3ut6a2
Explore our resins grouped by application areas:
➡️ High-resolution 3D printing
➡️ High-resolution 3D biofabrication
➡️ Optics manufacturing
➡️ Maskless lithography
👉 Explore the new resin overview: tinyurl.com/4f3ut6a2
December 4, 2025 at 12:35 PM
Finding the right resin for your project got easier!
Explore our resins grouped by application areas:
➡️ High-resolution 3D printing
➡️ High-resolution 3D biofabrication
➡️ Optics manufacturing
➡️ Maskless lithography
👉 Explore the new resin overview: tinyurl.com/4f3ut6a2
Explore our resins grouped by application areas:
➡️ High-resolution 3D printing
➡️ High-resolution 3D biofabrication
➡️ Optics manufacturing
➡️ Maskless lithography
👉 Explore the new resin overview: tinyurl.com/4f3ut6a2
🔬 Meet us at #MRSFall 2025 in Boston!
Visit our colleagues at Booth 818 until Dec 4 and explore high-precision 3D microfabrication with the Quantum X printer line and 2GL®.
If you're at MRS Fall, stop by 🗣️
More upcoming events: tinyurl.com/3jrpzvbc
Visit our colleagues at Booth 818 until Dec 4 and explore high-precision 3D microfabrication with the Quantum X printer line and 2GL®.
If you're at MRS Fall, stop by 🗣️
More upcoming events: tinyurl.com/3jrpzvbc
December 3, 2025 at 12:00 PM
🔬 Meet us at #MRSFall 2025 in Boston!
Visit our colleagues at Booth 818 until Dec 4 and explore high-precision 3D microfabrication with the Quantum X printer line and 2GL®.
If you're at MRS Fall, stop by 🗣️
More upcoming events: tinyurl.com/3jrpzvbc
Visit our colleagues at Booth 818 until Dec 4 and explore high-precision 3D microfabrication with the Quantum X printer line and 2GL®.
If you're at MRS Fall, stop by 🗣️
More upcoming events: tinyurl.com/3jrpzvbc
3D-printed microfluidic designs enable in vitro engineering of human neuronal networks
Using Nanoscribe’s 3D printing, researchers fabricated a mold of the microfluidic design for the final PDMS-based microfluidic chip.
Read the open access publication:
doi.org/10.1021/acsn...
Using Nanoscribe’s 3D printing, researchers fabricated a mold of the microfluidic design for the final PDMS-based microfluidic chip.
Read the open access publication:
doi.org/10.1021/acsn...
Reproducible Human Neural Circuits Printed with Single-Cell Precision Reveal the Functional Roles of Ephaptic Coupling
Although in vitro neuronal models are accessible and versatile systems for functional electrophysiological studies, the spontaneous and random formation of neural circuits often compromises the…
doi.org
December 2, 2025 at 12:04 PM
3D-printed microfluidic designs enable in vitro engineering of human neuronal networks
Using Nanoscribe’s 3D printing, researchers fabricated a mold of the microfluidic design for the final PDMS-based microfluidic chip.
Read the open access publication:
doi.org/10.1021/acsn...
Using Nanoscribe’s 3D printing, researchers fabricated a mold of the microfluidic design for the final PDMS-based microfluidic chip.
Read the open access publication:
doi.org/10.1021/acsn...
How to create functional materials for next generation microdevices?
With #2PP and the Quantum X platform, you can explore new custom resin formulations faster and more systematically.
Discover how researchers accelerate functional resin innovation:
tinyurl.com/36f5enfy
With #2PP and the Quantum X platform, you can explore new custom resin formulations faster and more systematically.
Discover how researchers accelerate functional resin innovation:
tinyurl.com/36f5enfy
November 27, 2025 at 12:00 PM
How to create functional materials for next generation microdevices?
With #2PP and the Quantum X platform, you can explore new custom resin formulations faster and more systematically.
Discover how researchers accelerate functional resin innovation:
tinyurl.com/36f5enfy
With #2PP and the Quantum X platform, you can explore new custom resin formulations faster and more systematically.
Discover how researchers accelerate functional resin innovation:
tinyurl.com/36f5enfy
Exciting insights into microneedle design optimization!
Recent study on microneedle arrays presents a systematic comparison of more than 75 distinct microneedle designs fabricated using Nanoscribe’s high-resolution 3D printing.
➡️ Read the publication:
doi.org/10.1007/s110...
Recent study on microneedle arrays presents a systematic comparison of more than 75 distinct microneedle designs fabricated using Nanoscribe’s high-resolution 3D printing.
➡️ Read the publication:
doi.org/10.1007/s110...
A Comprehensive Design-to-skin Pipeline to Fabricate Polymeric Microneedles Using Ultrahigh-resolution 3D Printing - Pharmaceutical Research
Objective Microneedle technologies have emerged as a promising approach to improve intradermal drug delivery. This study presents a comprehensive workflow for fabricating polymeric microneedle arrays…
doi.org
November 26, 2025 at 12:02 PM
Exciting insights into microneedle design optimization!
Recent study on microneedle arrays presents a systematic comparison of more than 75 distinct microneedle designs fabricated using Nanoscribe’s high-resolution 3D printing.
➡️ Read the publication:
doi.org/10.1007/s110...
Recent study on microneedle arrays presents a systematic comparison of more than 75 distinct microneedle designs fabricated using Nanoscribe’s high-resolution 3D printing.
➡️ Read the publication:
doi.org/10.1007/s110...