@cluster3dmm2o.bsky.social
Cluster of Excellence of @uniheidelberg.bsky.social and @kit.edu. The Goal: Taking 3D Additive Manufacturing to the next level. Imprint: http://3dmm2o.de/legals.php
A new multiscale model accurately predicts the interaction of chiral #SURMOFs with light. Experiments confirm this approach, establishing SURMOFs as robust platforms for solid-state VCD and the design of future chiral materials. 🚀
🔗 doi.org/10.1002/adfm...
#3DMM2O #ChiralMaterials
🔗 doi.org/10.1002/adfm...
#3DMM2O #ChiralMaterials
November 25, 2025 at 1:23 PM
A new multiscale model accurately predicts the interaction of chiral #SURMOFs with light. Experiments confirm this approach, establishing SURMOFs as robust platforms for solid-state VCD and the design of future chiral materials. 🚀
🔗 doi.org/10.1002/adfm...
#3DMM2O #ChiralMaterials
🔗 doi.org/10.1002/adfm...
#3DMM2O #ChiralMaterials
Congrats to Cluster PI Christian Koos on winning the 2025 Karl Heinz Beckurts Prize for advancing energy-efficient optical communication. 👏 The photonic microchip technologies developed by his team are paving the way for faster and greener digital infrastructure. 💡🌍
#3DMM2O #Photonics
@kit.edu
#3DMM2O #Photonics
@kit.edu
November 19, 2025 at 2:13 PM
Congrats to Cluster PI Christian Koos on winning the 2025 Karl Heinz Beckurts Prize for advancing energy-efficient optical communication. 👏 The photonic microchip technologies developed by his team are paving the way for faster and greener digital infrastructure. 💡🌍
#3DMM2O #Photonics
@kit.edu
#3DMM2O #Photonics
@kit.edu
Scientists, incl. Cluster Alumnus Marcus H. Dodds and PI @blascolab.bsky.social, present a breakthrough in light-based 3D printing with redox-active polymers, enabling fully switchable and electrochromic 3D structures for future smart electronic and optical devices.🚀
🔗 doi.org/10.1002/adfm...
🔗 doi.org/10.1002/adfm...
November 17, 2025 at 1:18 PM
Scientists, incl. Cluster Alumnus Marcus H. Dodds and PI @blascolab.bsky.social, present a breakthrough in light-based 3D printing with redox-active polymers, enabling fully switchable and electrochromic 3D structures for future smart electronic and optical devices.🚀
🔗 doi.org/10.1002/adfm...
🔗 doi.org/10.1002/adfm...
Reposted
Zwei ERC Synergy Grants für Wissenschaftler der Universität Heidelberg: Europäischer Forschungsrat vergibt hochdotierte Förderungen für komplexe Vorhaben in der Forschung www.uni-heidelberg.de/de/newsroom/...
#universität #heidelberg #uniheidelberg #erc #forschungsrat #eu @erc.europa.eu
#universität #heidelberg #uniheidelberg #erc #forschungsrat #eu @erc.europa.eu
November 6, 2025 at 11:28 AM
Zwei ERC Synergy Grants für Wissenschaftler der Universität Heidelberg: Europäischer Forschungsrat vergibt hochdotierte Förderungen für komplexe Vorhaben in der Forschung www.uni-heidelberg.de/de/newsroom/...
#universität #heidelberg #uniheidelberg #erc #forschungsrat #eu @erc.europa.eu
#universität #heidelberg #uniheidelberg #erc #forschungsrat #eu @erc.europa.eu
🚀A new Cluster paper introduces a 4D printing approach that uses self-immolative polymers to enable printed objects to shrink and regrow reversibly when chemically triggered. @blascolab.bsky.social
👉 https://doi.org/10.1002/adfm.202520642
👉 https://doi.org/10.1002/adfm.202520642
November 6, 2025 at 10:00 AM
🚀A new Cluster paper introduces a 4D printing approach that uses self-immolative polymers to enable printed objects to shrink and regrow reversibly when chemically triggered. @blascolab.bsky.social
👉 https://doi.org/10.1002/adfm.202520642
👉 https://doi.org/10.1002/adfm.202520642
Reposted
This week, I had the honor of partipating in an event the Spanish Embassy in Berlin. Together with @claravamar.bsky.social, Juan Luis (Banco Español de Algas) and Mar (MacroCarbon), we discussed the exciting potential of (micro)algea 🌱 ♻️. Moderation: @sherezademr.bsky.social
September 27, 2025 at 9:43 AM
This week, I had the honor of partipating in an event the Spanish Embassy in Berlin. Together with @claravamar.bsky.social, Juan Luis (Banco Español de Algas) and Mar (MacroCarbon), we discussed the exciting potential of (micro)algea 🌱 ♻️. Moderation: @sherezademr.bsky.social
Scientists have developed a plug-and-play fiber interface for photonic chips, almost like adding a USB port for light. Nearly all of the light reaches the chip, enabling scalable photonic computing with ultra-low loss. 💡
🔗 www.science.org/doi/10.1126/...
🔗 www.science.org/doi/10.1126/...
November 4, 2025 at 1:10 PM
Scientists have developed a plug-and-play fiber interface for photonic chips, almost like adding a USB port for light. Nearly all of the light reaches the chip, enabling scalable photonic computing with ultra-low loss. 💡
🔗 www.science.org/doi/10.1126/...
🔗 www.science.org/doi/10.1126/...
Now, two colors of light can control how polymers solidify.
Researchers developed a photochemical system in which materials only form when two specific wavelengths act together, opening new possibilities for precise, light-guided #3DPrinting. 🚀
🔗 doi.org/10.1002/anie...
#3DMM2O #Photochemistry
Researchers developed a photochemical system in which materials only form when two specific wavelengths act together, opening new possibilities for precise, light-guided #3DPrinting. 🚀
🔗 doi.org/10.1002/anie...
#3DMM2O #Photochemistry
October 17, 2025 at 8:00 AM
Now, two colors of light can control how polymers solidify.
Researchers developed a photochemical system in which materials only form when two specific wavelengths act together, opening new possibilities for precise, light-guided #3DPrinting. 🚀
🔗 doi.org/10.1002/anie...
#3DMM2O #Photochemistry
Researchers developed a photochemical system in which materials only form when two specific wavelengths act together, opening new possibilities for precise, light-guided #3DPrinting. 🚀
🔗 doi.org/10.1002/anie...
#3DMM2O #Photochemistry
Reposted
🙏 Thanks to all our speakers and participants for making the Beilstein Organic Chemistry Symposium “Organic #semiconductor materials: Challenges and opportunities” an amazing event!
The first pics 📷 are online 🔗 https://tinyurl.com/mr2w8myh
@sbraese.bsky.social #BeilsteinSemiconductors2025
The first pics 📷 are online 🔗 https://tinyurl.com/mr2w8myh
@sbraese.bsky.social #BeilsteinSemiconductors2025
October 1, 2025 at 8:02 AM
🙏 Thanks to all our speakers and participants for making the Beilstein Organic Chemistry Symposium “Organic #semiconductor materials: Challenges and opportunities” an amazing event!
The first pics 📷 are online 🔗 https://tinyurl.com/mr2w8myh
@sbraese.bsky.social #BeilsteinSemiconductors2025
The first pics 📷 are online 🔗 https://tinyurl.com/mr2w8myh
@sbraese.bsky.social #BeilsteinSemiconductors2025
Our Summer Cluster Meeting 2025 in Heidelberg brought a day full of presentations, discussions, and new perspectives for the second funding period. 🚀 We can’t wait to share what’s coming next! 🙌
#3DMM2O #3DPrining #Networking
#3DMM2O #3DPrining #Networking
October 1, 2025 at 2:20 PM
Our Summer Cluster Meeting 2025 in Heidelberg brought a day full of presentations, discussions, and new perspectives for the second funding period. 🚀 We can’t wait to share what’s coming next! 🙌
#3DMM2O #3DPrining #Networking
#3DMM2O #3DPrining #Networking
🔬 Researchers developed intrinsically bistable #hydrogel microactuators using two-photon polymerization. Their dual light- and temperature-responsiveness enables stable, microscale actuation, which opens new doors for #softrobotics and #microfluidics.
👉 doi.org/10.1002/aisy...
#3DMM2O #2PP
👉 doi.org/10.1002/aisy...
#3DMM2O #2PP
September 23, 2025 at 1:23 PM
🔬 Researchers developed intrinsically bistable #hydrogel microactuators using two-photon polymerization. Their dual light- and temperature-responsiveness enables stable, microscale actuation, which opens new doors for #softrobotics and #microfluidics.
👉 doi.org/10.1002/aisy...
#3DMM2O #2PP
👉 doi.org/10.1002/aisy...
#3DMM2O #2PP
Reposted
Save the date and join the FREE livestream 🎥 of the Beilstein Organic Chemistry Symposium “Organic #semiconductor materials: Challenges and opportunities” in Frankfurt/Main, 🇩🇪, 📅 September 23–25, 2025.
Just register: 🔗 https://tinyurl.com/mvb6bktc
#BeilsteinSemiconductors2025 @sbraese.bsky.social
Just register: 🔗 https://tinyurl.com/mvb6bktc
#BeilsteinSemiconductors2025 @sbraese.bsky.social
September 11, 2025 at 8:02 AM
Save the date and join the FREE livestream 🎥 of the Beilstein Organic Chemistry Symposium “Organic #semiconductor materials: Challenges and opportunities” in Frankfurt/Main, 🇩🇪, 📅 September 23–25, 2025.
Just register: 🔗 https://tinyurl.com/mvb6bktc
#BeilsteinSemiconductors2025 @sbraese.bsky.social
Just register: 🔗 https://tinyurl.com/mvb6bktc
#BeilsteinSemiconductors2025 @sbraese.bsky.social
Fluorescent #MOF thin-film arrays enable stable, multiplexed sensing of pH and disease-related molecules like dopamine. A step toward next-gen diagnostics, environmental monitoring, and food safety. 👉 doi.org/10.1002/smll...
📷Wang et al., Small 2025, CC BY
#3DMM2O #Nanotechnology #Sensors
📷Wang et al., Small 2025, CC BY
#3DMM2O #Nanotechnology #Sensors
September 12, 2025 at 9:32 AM
Fluorescent #MOF thin-film arrays enable stable, multiplexed sensing of pH and disease-related molecules like dopamine. A step toward next-gen diagnostics, environmental monitoring, and food safety. 👉 doi.org/10.1002/smll...
📷Wang et al., Small 2025, CC BY
#3DMM2O #Nanotechnology #Sensors
📷Wang et al., Small 2025, CC BY
#3DMM2O #Nanotechnology #Sensors
🚀 A new study shows that organotin sulfide clusters can be inkjet-printed without losing function, paving the way for optical data storage. 👉 https://www.nature.com/articles/s43246-025-00922-z
📷Nier et al., Communications Materials, 2025, CC BY 4.0
#3DMM2O #NonlinearOptics #InjektPrinting
📷Nier et al., Communications Materials, 2025, CC BY 4.0
#3DMM2O #NonlinearOptics #InjektPrinting
September 3, 2025 at 1:48 PM
🚀 A new study shows that organotin sulfide clusters can be inkjet-printed without losing function, paving the way for optical data storage. 👉 https://www.nature.com/articles/s43246-025-00922-z
📷Nier et al., Communications Materials, 2025, CC BY 4.0
#3DMM2O #NonlinearOptics #InjektPrinting
📷Nier et al., Communications Materials, 2025, CC BY 4.0
#3DMM2O #NonlinearOptics #InjektPrinting
A new study used multi-photon #3DLaserPrinting to explore how the shape of carrier particles affects drug delivery in inhalers, finding that the spiked Pharmacone performed best. 👉 https://www.nature.com/articles/s43246-025-00913-0#Sec7.
📷Wostry et al., Communications Materials 2025, CC BY 4.0.
📷Wostry et al., Communications Materials 2025, CC BY 4.0.
August 28, 2025 at 8:00 AM
A new study used multi-photon #3DLaserPrinting to explore how the shape of carrier particles affects drug delivery in inhalers, finding that the spiked Pharmacone performed best. 👉 https://www.nature.com/articles/s43246-025-00913-0#Sec7.
📷Wostry et al., Communications Materials 2025, CC BY 4.0.
📷Wostry et al., Communications Materials 2025, CC BY 4.0.
A new Cluster publication presents a single-component resin for 3D microprinting that makes structures from soft to stiff in one step, opening possibilities for soft robotics, microfluidics, and biofabrication.🔗 doi.org/10.1002/adfm...
📷T. N. Eren, et al., Adv. Funct. Mater., 2025, e02876 (CC BY)
📷T. N. Eren, et al., Adv. Funct. Mater., 2025, e02876 (CC BY)
August 22, 2025 at 9:41 AM
A new Cluster publication presents a single-component resin for 3D microprinting that makes structures from soft to stiff in one step, opening possibilities for soft robotics, microfluidics, and biofabrication.🔗 doi.org/10.1002/adfm...
📷T. N. Eren, et al., Adv. Funct. Mater., 2025, e02876 (CC BY)
📷T. N. Eren, et al., Adv. Funct. Mater., 2025, e02876 (CC BY)
📽️ New video out!📢 How can #BrainOrganoids — tiny, lab-grown models of the human brain — help us understand neurological disorders? Lízia Branco from @kit.edu explains how she uses them to study brain development. Watch on YouTube👉 https://youtu.be/NjrFh7FWh_k ##ELI5 #Neuroscience
August 19, 2025 at 11:20 AM
📽️ New video out!📢 How can #BrainOrganoids — tiny, lab-grown models of the human brain — help us understand neurological disorders? Lízia Branco from @kit.edu explains how she uses them to study brain development. Watch on YouTube👉 https://youtu.be/NjrFh7FWh_k ##ELI5 #Neuroscience
🚀A big step for MOF-based electronics! A research team, incl. Chatrawee Scheiger, Mariana Kozlowska, and PIs Christof Wöll and Wolfgang Wenzel, reports the first #MOF thin film with metallic conductivity.🔗 doi.org/10.1039/D5MH...
📷 Scheiger et al., Materials Horizons, 2025 (CC BY 3.0)
📷 Scheiger et al., Materials Horizons, 2025 (CC BY 3.0)
July 17, 2025 at 9:51 AM
🚀A big step for MOF-based electronics! A research team, incl. Chatrawee Scheiger, Mariana Kozlowska, and PIs Christof Wöll and Wolfgang Wenzel, reports the first #MOF thin film with metallic conductivity.🔗 doi.org/10.1039/D5MH...
📷 Scheiger et al., Materials Horizons, 2025 (CC BY 3.0)
📷 Scheiger et al., Materials Horizons, 2025 (CC BY 3.0)
New deep eutectic inks (DEIs) for multiphoton #3Dprinting enable soft, elastic microstructures with high resolution. A step forward for soft robotics, bioengineering & photonics.🙌
🔗 doi.org/10.1002/adma...
#3DMM2O #MaterialsScience
📷 © Mainik et al., 2025, Adv. Mater., CC BY 4.0
🔗 doi.org/10.1002/adma...
#3DMM2O #MaterialsScience
📷 © Mainik et al., 2025, Adv. Mater., CC BY 4.0
July 16, 2025 at 9:33 AM
New deep eutectic inks (DEIs) for multiphoton #3Dprinting enable soft, elastic microstructures with high resolution. A step forward for soft robotics, bioengineering & photonics.🙌
🔗 doi.org/10.1002/adma...
#3DMM2O #MaterialsScience
📷 © Mainik et al., 2025, Adv. Mater., CC BY 4.0
🔗 doi.org/10.1002/adma...
#3DMM2O #MaterialsScience
📷 © Mainik et al., 2025, Adv. Mater., CC BY 4.0
Shaping the Future of Research 🎉 We are proud to share that PI Stefanie Dehnen has been elected to the Senate of @dfg.de. Taking up her position in January 2026, she will be one of six newly elected members who will contribute to key decisions in Germany’s research landscape. Congratulations! 👏
July 8, 2025 at 12:47 PM
Shaping the Future of Research 🎉 We are proud to share that PI Stefanie Dehnen has been elected to the Senate of @dfg.de. Taking up her position in January 2026, she will be one of six newly elected members who will contribute to key decisions in Germany’s research landscape. Congratulations! 👏
🎉Congratulations to Cluster PIs Wolfram Pernice and Jana Zaumseil from @uniheidelberg.bsky.social on being awarded ERC Advanced Grants! Pernice is exploring photonic computing using physical randomness, while Zaumseil is developing sustainable methods for processing semiconducting carbon nanotubes.👏
June 18, 2025 at 2:04 PM
🎉Congratulations to Cluster PIs Wolfram Pernice and Jana Zaumseil from @uniheidelberg.bsky.social on being awarded ERC Advanced Grants! Pernice is exploring photonic computing using physical randomness, while Zaumseil is developing sustainable methods for processing semiconducting carbon nanotubes.👏
Reposted
Hochdotierte Förderung für fünf Forscherinnen und Forscher der Universität Heidelberg – Der Europäische Forschungsrat fördert mit ERC Advanced Grants bahnbrechende Projekte
www.uni-heidelberg.de/de/newsroom/...
#universität #heidelberg #uniheidelberg #förderung #ercadvancedgrant #erc
www.uni-heidelberg.de/de/newsroom/...
#universität #heidelberg #uniheidelberg #förderung #ercadvancedgrant #erc
June 17, 2025 at 12:54 PM
Hochdotierte Förderung für fünf Forscherinnen und Forscher der Universität Heidelberg – Der Europäische Forschungsrat fördert mit ERC Advanced Grants bahnbrechende Projekte
www.uni-heidelberg.de/de/newsroom/...
#universität #heidelberg #uniheidelberg #förderung #ercadvancedgrant #erc
www.uni-heidelberg.de/de/newsroom/...
#universität #heidelberg #uniheidelberg #förderung #ercadvancedgrant #erc
Reposted
Materialien: Metallorganische Gerüste mit metallischer Leitfähigkeit
Metallorganische Gerüstverbindungen (MOFs) zeichnen sich durch hohe Porosität und eine anpassbare Struktur aus. Sie besitzen enormes Potenzial, etwa für Anwendungen in de...
weiterlesen
Metallorganische Gerüstverbindungen (MOFs) zeichnen sich durch hohe Porosität und eine anpassbare Struktur aus. Sie besitzen enormes Potenzial, etwa für Anwendungen in de...
weiterlesen
June 16, 2025 at 12:06 PM
Materialien: Metallorganische Gerüste mit metallischer Leitfähigkeit
Metallorganische Gerüstverbindungen (MOFs) zeichnen sich durch hohe Porosität und eine anpassbare Struktur aus. Sie besitzen enormes Potenzial, etwa für Anwendungen in de...
weiterlesen
Metallorganische Gerüstverbindungen (MOFs) zeichnen sich durch hohe Porosität und eine anpassbare Struktur aus. Sie besitzen enormes Potenzial, etwa für Anwendungen in de...
weiterlesen
🚀 This new study introduces electrospun V₂O₅ nanofibers annealed at 500°C, enabling ultra-fast, sensitive, and energy-efficient room-temperature humidity sensors. This innovation opens new possibilities for smart homes, agriculture, and healthcare. 👉 doi.org/10.1002/adsr... #3DMM2O
June 4, 2025 at 6:11 AM
🚀 This new study introduces electrospun V₂O₅ nanofibers annealed at 500°C, enabling ultra-fast, sensitive, and energy-efficient room-temperature humidity sensors. This innovation opens new possibilities for smart homes, agriculture, and healthcare. 👉 doi.org/10.1002/adsr... #3DMM2O
🎉Exciting news! 3DMM2O’s second funding phase is approved! Thanks to our amazing team & partners, we’re continuing to innovate in 3D #AdditiveManufacturing at @kit.edu & @uniheidelberg.bsky.social, supported by the #GermanExcellenceStrategy. More groundbreaking projects ahead!🚀🙌 #3DMM2O #3DPrinting
May 30, 2025 at 10:40 AM
🎉Exciting news! 3DMM2O’s second funding phase is approved! Thanks to our amazing team & partners, we’re continuing to innovate in 3D #AdditiveManufacturing at @kit.edu & @uniheidelberg.bsky.social, supported by the #GermanExcellenceStrategy. More groundbreaking projects ahead!🚀🙌 #3DMM2O #3DPrinting