SciOpen
@sciopentup.bsky.social
SciOpen is a professional #open-access resource for discovery of #scientific & #technical content published by #TsinghuaUniversityPress (TUP) & its publisher partners. 📚🔬⚡
https://www.sciopen.com/home
Follow for the latest research!
https://www.sciopen.com/home
Follow for the latest research!
🔋 Recycling garnet electrolytes: Li₆.₄La₃Zr₁.₄Ta₀.₆O₁₂ (LLZTO) recovered via LiOH + ultra-fast sintering shows higher ionic and lower electronic conductivity, boosting solid-state Li-metal performance.
🔗 www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #SciOpen 🧪🌏🌐
🔗 www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #SciOpen 🧪🌏🌐
November 28, 2025 at 1:14 PM
🔋 Recycling garnet electrolytes: Li₆.₄La₃Zr₁.₄Ta₀.₆O₁₂ (LLZTO) recovered via LiOH + ultra-fast sintering shows higher ionic and lower electronic conductivity, boosting solid-state Li-metal performance.
🔗 www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #SciOpen 🧪🌏🌐
🔗 www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #SciOpen 🧪🌏🌐
💎 Ultra-fast sintering boosts transparency
AlON ceramics (≥80% transmittance, 350–4900 nm) made via ultra-fast high-temperature sintering + conventional sintering.
The result: higher density, fewer pores, HV 19.57 GPa.
🔗
www.sciopen.com/article/10.2...
#MaterialsScience #AcademicSky #Science
AlON ceramics (≥80% transmittance, 350–4900 nm) made via ultra-fast high-temperature sintering + conventional sintering.
The result: higher density, fewer pores, HV 19.57 GPa.
🔗
www.sciopen.com/article/10.2...
#MaterialsScience #AcademicSky #Science
November 27, 2025 at 2:06 PM
💎 Ultra-fast sintering boosts transparency
AlON ceramics (≥80% transmittance, 350–4900 nm) made via ultra-fast high-temperature sintering + conventional sintering.
The result: higher density, fewer pores, HV 19.57 GPa.
🔗
www.sciopen.com/article/10.2...
#MaterialsScience #AcademicSky #Science
AlON ceramics (≥80% transmittance, 350–4900 nm) made via ultra-fast high-temperature sintering + conventional sintering.
The result: higher density, fewer pores, HV 19.57 GPa.
🔗
www.sciopen.com/article/10.2...
#MaterialsScience #AcademicSky #Science
⏰ Tracking the body’s clock
This review covers circadian biomarkers—melatonin and glucocorticoids—monitoring methods, and their potential for precision medicine in rhythm-related disorders.
🔗https://sciopen.com/article/10.26599/OSHM.2025.9610028
@tsinghuauniversity.bsky.social #SciOpen #Science
This review covers circadian biomarkers—melatonin and glucocorticoids—monitoring methods, and their potential for precision medicine in rhythm-related disorders.
🔗https://sciopen.com/article/10.26599/OSHM.2025.9610028
@tsinghuauniversity.bsky.social #SciOpen #Science
November 27, 2025 at 7:52 AM
⏰ Tracking the body’s clock
This review covers circadian biomarkers—melatonin and glucocorticoids—monitoring methods, and their potential for precision medicine in rhythm-related disorders.
🔗https://sciopen.com/article/10.26599/OSHM.2025.9610028
@tsinghuauniversity.bsky.social #SciOpen #Science
This review covers circadian biomarkers—melatonin and glucocorticoids—monitoring methods, and their potential for precision medicine in rhythm-related disorders.
🔗https://sciopen.com/article/10.26599/OSHM.2025.9610028
@tsinghuauniversity.bsky.social #SciOpen #Science
🧬 How cell death shapes craniofacial development
This review explores apoptosis, necroptosis, autophagy, and ferroptosis, showing how they interact with BMP, FGF, and WNT to guide organ morphogenesis. www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #CellDeath #Science
This review explores apoptosis, necroptosis, autophagy, and ferroptosis, showing how they interact with BMP, FGF, and WNT to guide organ morphogenesis. www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #CellDeath #Science
November 26, 2025 at 2:47 PM
🧬 How cell death shapes craniofacial development
This review explores apoptosis, necroptosis, autophagy, and ferroptosis, showing how they interact with BMP, FGF, and WNT to guide organ morphogenesis. www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #CellDeath #Science
This review explores apoptosis, necroptosis, autophagy, and ferroptosis, showing how they interact with BMP, FGF, and WNT to guide organ morphogenesis. www.sciopen.com/article/10.2...
@tsinghuauniversity.bsky.social #TUP #CellDeath #Science
🧬 miR-145 & miR-21 are key oral squamous cell carcinoma prognostic biomarkers. High miR-145 & low miR-21 link to 91.6% 5-yr survival by controlling the cell cycle via CCNA2/CDK6.
www.sciopen.com/article/10.2...
#CancerResearch #AcademicSky #OSCC #SciOpen #TUP @tsinghuauniversity.bsky.social
www.sciopen.com/article/10.2...
#CancerResearch #AcademicSky #OSCC #SciOpen #TUP @tsinghuauniversity.bsky.social
November 26, 2025 at 1:36 PM
🧬 miR-145 & miR-21 are key oral squamous cell carcinoma prognostic biomarkers. High miR-145 & low miR-21 link to 91.6% 5-yr survival by controlling the cell cycle via CCNA2/CDK6.
www.sciopen.com/article/10.2...
#CancerResearch #AcademicSky #OSCC #SciOpen #TUP @tsinghuauniversity.bsky.social
www.sciopen.com/article/10.2...
#CancerResearch #AcademicSky #OSCC #SciOpen #TUP @tsinghuauniversity.bsky.social
🦷Journal of the Week: Oral Science & Homeostatic Medicine
How oral health shapes metabolism, immunity & aging via stem cells microbiota & regenerative research.
Led by Co-EICs Prof. Songlin Wang & Prof.Jian-Kang Zhu.
🔗 www.sciopen.com/journal/3079...
@tsinghuauniversity.bsky.social #Sciopen #TUP 🧪🌏🌐
How oral health shapes metabolism, immunity & aging via stem cells microbiota & regenerative research.
Led by Co-EICs Prof. Songlin Wang & Prof.Jian-Kang Zhu.
🔗 www.sciopen.com/journal/3079...
@tsinghuauniversity.bsky.social #Sciopen #TUP 🧪🌏🌐
November 25, 2025 at 7:02 AM
🦷Journal of the Week: Oral Science & Homeostatic Medicine
How oral health shapes metabolism, immunity & aging via stem cells microbiota & regenerative research.
Led by Co-EICs Prof. Songlin Wang & Prof.Jian-Kang Zhu.
🔗 www.sciopen.com/journal/3079...
@tsinghuauniversity.bsky.social #Sciopen #TUP 🧪🌏🌐
How oral health shapes metabolism, immunity & aging via stem cells microbiota & regenerative research.
Led by Co-EICs Prof. Songlin Wang & Prof.Jian-Kang Zhu.
🔗 www.sciopen.com/journal/3079...
@tsinghuauniversity.bsky.social #Sciopen #TUP 🧪🌏🌐
⚡Powering better fuel cells
Nd-doped Sr2.9Nd0.1Fe2O7–δ (SNFO) enhances SOFCs, with 0.20 Ω·cm² polarization resistance and 803 mW·cm⁻² at 700 °C. Improved ORR kinetics make it a potential cathode.
🔗 www.sciopen.com/article/10.2...
#SciOpen @tsinghuauniversity.bsky.social @heilongjiang.bsky.social 🧪🌏🌐
Nd-doped Sr2.9Nd0.1Fe2O7–δ (SNFO) enhances SOFCs, with 0.20 Ω·cm² polarization resistance and 803 mW·cm⁻² at 700 °C. Improved ORR kinetics make it a potential cathode.
🔗 www.sciopen.com/article/10.2...
#SciOpen @tsinghuauniversity.bsky.social @heilongjiang.bsky.social 🧪🌏🌐
November 20, 2025 at 1:14 PM
⚡Powering better fuel cells
Nd-doped Sr2.9Nd0.1Fe2O7–δ (SNFO) enhances SOFCs, with 0.20 Ω·cm² polarization resistance and 803 mW·cm⁻² at 700 °C. Improved ORR kinetics make it a potential cathode.
🔗 www.sciopen.com/article/10.2...
#SciOpen @tsinghuauniversity.bsky.social @heilongjiang.bsky.social 🧪🌏🌐
Nd-doped Sr2.9Nd0.1Fe2O7–δ (SNFO) enhances SOFCs, with 0.20 Ω·cm² polarization resistance and 803 mW·cm⁻² at 700 °C. Improved ORR kinetics make it a potential cathode.
🔗 www.sciopen.com/article/10.2...
#SciOpen @tsinghuauniversity.bsky.social @heilongjiang.bsky.social 🧪🌏🌐
🔬Journal of the Week: AIMS Materials Science
Materials research that moves fast! This journal covers materials from nanomaterials to polymer composites, this journal publishes, indexed in Web of Science & Scopus.
🔗 sciopen.com/journal/2372...
@tsinghuauniversity.bsky.social
#Sciopen #TUP 🧪🌏🌐
Materials research that moves fast! This journal covers materials from nanomaterials to polymer composites, this journal publishes, indexed in Web of Science & Scopus.
🔗 sciopen.com/journal/2372...
@tsinghuauniversity.bsky.social
#Sciopen #TUP 🧪🌏🌐
November 19, 2025 at 7:25 AM
🔬Journal of the Week: AIMS Materials Science
Materials research that moves fast! This journal covers materials from nanomaterials to polymer composites, this journal publishes, indexed in Web of Science & Scopus.
🔗 sciopen.com/journal/2372...
@tsinghuauniversity.bsky.social
#Sciopen #TUP 🧪🌏🌐
Materials research that moves fast! This journal covers materials from nanomaterials to polymer composites, this journal publishes, indexed in Web of Science & Scopus.
🔗 sciopen.com/journal/2372...
@tsinghuauniversity.bsky.social
#Sciopen #TUP 🧪🌏🌐
🌐 Digital twins dive into the deep sea
This study reviews marine digital twin (MDT) tech, its framework, key technologies, and applications in deep-sea, data-driven marine engineering.
🔗 www.sciopen.com/article/10.2...
#marine #OceanTech #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
This study reviews marine digital twin (MDT) tech, its framework, key technologies, and applications in deep-sea, data-driven marine engineering.
🔗 www.sciopen.com/article/10.2...
#marine #OceanTech #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
November 18, 2025 at 12:36 PM
🌐 Digital twins dive into the deep sea
This study reviews marine digital twin (MDT) tech, its framework, key technologies, and applications in deep-sea, data-driven marine engineering.
🔗 www.sciopen.com/article/10.2...
#marine #OceanTech #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
This study reviews marine digital twin (MDT) tech, its framework, key technologies, and applications in deep-sea, data-driven marine engineering.
🔗 www.sciopen.com/article/10.2...
#marine #OceanTech #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
⚡ Harnessing AI for ocean energy
Machine learning is transforming fluid–structure interaction, speeding up predictions and optimizing hydrokinetic devices in complex marine environments.
🔗 www.sciopen.com/article/10.2...
#OceanEngineeringy #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
Machine learning is transforming fluid–structure interaction, speeding up predictions and optimizing hydrokinetic devices in complex marine environments.
🔗 www.sciopen.com/article/10.2...
#OceanEngineeringy #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
November 18, 2025 at 11:49 AM
⚡ Harnessing AI for ocean energy
Machine learning is transforming fluid–structure interaction, speeding up predictions and optimizing hydrokinetic devices in complex marine environments.
🔗 www.sciopen.com/article/10.2...
#OceanEngineeringy #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
Machine learning is transforming fluid–structure interaction, speeding up predictions and optimizing hydrokinetic devices in complex marine environments.
🔗 www.sciopen.com/article/10.2...
#OceanEngineeringy #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
🔬This #AntimicrobialAwarenessWeek we recognise, a pressing threat.🦠
Scientists are racing to understand resistance mechanisms of microbes, develop novel antimicrobials, and discover alternative therapies.
Read the latest findings:
🔗 www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social🧪🌏🌐
Scientists are racing to understand resistance mechanisms of microbes, develop novel antimicrobials, and discover alternative therapies.
Read the latest findings:
🔗 www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social🧪🌏🌐
November 18, 2025 at 5:48 AM
🔬This #AntimicrobialAwarenessWeek we recognise, a pressing threat.🦠
Scientists are racing to understand resistance mechanisms of microbes, develop novel antimicrobials, and discover alternative therapies.
Read the latest findings:
🔗 www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social🧪🌏🌐
Scientists are racing to understand resistance mechanisms of microbes, develop novel antimicrobials, and discover alternative therapies.
Read the latest findings:
🔗 www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social🧪🌏🌐
🌊 Blue energy, hydropower, tides, wind, waves is the future. This study highlights trends and triboelectric nanogenerators (TENGs) for ocean energy harvesting.
🔗 www.sciopen.com/article/10.2...
#BlueEnergy #RenewableEnergy #OceanEngineering #SustainableTech #SciOpen @tsinghuauniversity.bsky.social
🔗 www.sciopen.com/article/10.2...
#BlueEnergy #RenewableEnergy #OceanEngineering #SustainableTech #SciOpen @tsinghuauniversity.bsky.social
November 17, 2025 at 12:08 PM
🌊 Blue energy, hydropower, tides, wind, waves is the future. This study highlights trends and triboelectric nanogenerators (TENGs) for ocean energy harvesting.
🔗 www.sciopen.com/article/10.2...
#BlueEnergy #RenewableEnergy #OceanEngineering #SustainableTech #SciOpen @tsinghuauniversity.bsky.social
🔗 www.sciopen.com/article/10.2...
#BlueEnergy #RenewableEnergy #OceanEngineering #SustainableTech #SciOpen @tsinghuauniversity.bsky.social
🌊 AI meets marine engineering!
This review shows how machine learning and deep learning improve the design, construction, and maintenance of marine structures with reliable mechanism-based models.
🔗 www.sciopen.com/article/10.2...
#MarineEngineering #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
This review shows how machine learning and deep learning improve the design, construction, and maintenance of marine structures with reliable mechanism-based models.
🔗 www.sciopen.com/article/10.2...
#MarineEngineering #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
November 14, 2025 at 12:47 PM
🌊 AI meets marine engineering!
This review shows how machine learning and deep learning improve the design, construction, and maintenance of marine structures with reliable mechanism-based models.
🔗 www.sciopen.com/article/10.2...
#MarineEngineering #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
This review shows how machine learning and deep learning improve the design, construction, and maintenance of marine structures with reliable mechanism-based models.
🔗 www.sciopen.com/article/10.2...
#MarineEngineering #SciOpen #TUP @tsinghuauniversity.bsky.social 🧪🌏🌐
💙This #WorldDiabetesDay research shows nutrition plays a critical role in managing blood glucose, preventing complications, improving quality of life!
Discover science-backed dietary diabetes care in Food Science and Human Wellness:
www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social 🧪🌏🌐
Discover science-backed dietary diabetes care in Food Science and Human Wellness:
www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social 🧪🌏🌐
November 14, 2025 at 6:06 AM
💙This #WorldDiabetesDay research shows nutrition plays a critical role in managing blood glucose, preventing complications, improving quality of life!
Discover science-backed dietary diabetes care in Food Science and Human Wellness:
www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social 🧪🌏🌐
Discover science-backed dietary diabetes care in Food Science and Human Wellness:
www.sciopen.com/journal/2097...
@tsinghuauniversity.bsky.social 🧪🌏🌐
🌬️How does flow direction affect floating offshore wind platforms?
CFD study shows varying flow angles drive vortex-induced motion, unique wake patterns, and distinct platform trajectories.
🔗 sciopen.com/article/10.2...
#OffshoreWind #OceanEngineering #SciOpen #TUP
@tsinghuauniversity.bsky.social 🧪🌏🌐
CFD study shows varying flow angles drive vortex-induced motion, unique wake patterns, and distinct platform trajectories.
🔗 sciopen.com/article/10.2...
#OffshoreWind #OceanEngineering #SciOpen #TUP
@tsinghuauniversity.bsky.social 🧪🌏🌐
November 13, 2025 at 1:18 PM
🌬️How does flow direction affect floating offshore wind platforms?
CFD study shows varying flow angles drive vortex-induced motion, unique wake patterns, and distinct platform trajectories.
🔗 sciopen.com/article/10.2...
#OffshoreWind #OceanEngineering #SciOpen #TUP
@tsinghuauniversity.bsky.social 🧪🌏🌐
CFD study shows varying flow angles drive vortex-induced motion, unique wake patterns, and distinct platform trajectories.
🔗 sciopen.com/article/10.2...
#OffshoreWind #OceanEngineering #SciOpen #TUP
@tsinghuauniversity.bsky.social 🧪🌏🌐
⚡Wireless power transfer could redefine long-term operation of autonomous underwater vehicles.
This study explores eddy current loss modeling, misalignment-tolerant design, simultaneous power–data transfer for next-gen marine systems.
🔗 www.sciopen.com/article/10.2... @tsinghuauniversity.bsky.social
This study explores eddy current loss modeling, misalignment-tolerant design, simultaneous power–data transfer for next-gen marine systems.
🔗 www.sciopen.com/article/10.2... @tsinghuauniversity.bsky.social
November 13, 2025 at 12:03 PM
⚡Wireless power transfer could redefine long-term operation of autonomous underwater vehicles.
This study explores eddy current loss modeling, misalignment-tolerant design, simultaneous power–data transfer for next-gen marine systems.
🔗 www.sciopen.com/article/10.2... @tsinghuauniversity.bsky.social
This study explores eddy current loss modeling, misalignment-tolerant design, simultaneous power–data transfer for next-gen marine systems.
🔗 www.sciopen.com/article/10.2... @tsinghuauniversity.bsky.social
🌊 GPU-accelerated coastal flood model with local time stepping handles dense urban sea–land grids, cutting computation ~40× for Macau storm surge forecasts.
🔗 www.sciopen.com/article/10.2...
#CoastalModeling #FloodForecasting #TUP
#GPUComputing #SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
🔗 www.sciopen.com/article/10.2...
#CoastalModeling #FloodForecasting #TUP
#GPUComputing #SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
November 12, 2025 at 12:50 PM
🌊 GPU-accelerated coastal flood model with local time stepping handles dense urban sea–land grids, cutting computation ~40× for Macau storm surge forecasts.
🔗 www.sciopen.com/article/10.2...
#CoastalModeling #FloodForecasting #TUP
#GPUComputing #SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
🔗 www.sciopen.com/article/10.2...
#CoastalModeling #FloodForecasting #TUP
#GPUComputing #SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
🔋 Nd-doped Sr₂.₉Nd₀.₁Fe₂O₇–δ (SNFO) emerges as a powerful SOFC cathode, achieving 0.20 Ω·cm² polarization resistance and 803 mW·cm⁻² at 700 °C.
Enhanced ORR kinetics and lower oxygen vacancy formation energy push fuel cell performance higher.
🔗 www.sciopen.com/article/10.2... #SciOpen #TUP
🧪🌏🌐
Enhanced ORR kinetics and lower oxygen vacancy formation energy push fuel cell performance higher.
🔗 www.sciopen.com/article/10.2... #SciOpen #TUP
🧪🌏🌐
November 12, 2025 at 11:41 AM
🔋 Nd-doped Sr₂.₉Nd₀.₁Fe₂O₇–δ (SNFO) emerges as a powerful SOFC cathode, achieving 0.20 Ω·cm² polarization resistance and 803 mW·cm⁻² at 700 °C.
Enhanced ORR kinetics and lower oxygen vacancy formation energy push fuel cell performance higher.
🔗 www.sciopen.com/article/10.2... #SciOpen #TUP
🧪🌏🌐
Enhanced ORR kinetics and lower oxygen vacancy formation energy push fuel cell performance higher.
🔗 www.sciopen.com/article/10.2... #SciOpen #TUP
🧪🌏🌐
🫁 This #WorldPneumoniaDay, let’s back research saving lives! Pneumonia remains a top cause of child deaths, yet preventable. Modeling helps refine vaccines & treatments to protect vulnerable children.👇
www.sciopen.com/article/10.3...
#SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
www.sciopen.com/article/10.3...
#SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
November 12, 2025 at 5:57 AM
🫁 This #WorldPneumoniaDay, let’s back research saving lives! Pneumonia remains a top cause of child deaths, yet preventable. Modeling helps refine vaccines & treatments to protect vulnerable children.👇
www.sciopen.com/article/10.3...
#SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
www.sciopen.com/article/10.3...
#SciOpen @tsinghuauniversity.bsky.social 🧪🌏🌐
🌊SciOpen's new addition: OCEAN. 71% of Earth is ocean. We've barely scratched the surface. OCEAN publishes research across marine science, ecosystem dynamic to infrastructure.
Led by Profs.Torgeir Moan, Zhonglin Wang & Jian-Min Zhang.
🔗 www.sciopen.com/journal/3008...
@tsinghuauniversity.bsky.social
Led by Profs.Torgeir Moan, Zhonglin Wang & Jian-Min Zhang.
🔗 www.sciopen.com/journal/3008...
@tsinghuauniversity.bsky.social
November 10, 2025 at 12:26 PM
🌊SciOpen's new addition: OCEAN. 71% of Earth is ocean. We've barely scratched the surface. OCEAN publishes research across marine science, ecosystem dynamic to infrastructure.
Led by Profs.Torgeir Moan, Zhonglin Wang & Jian-Min Zhang.
🔗 www.sciopen.com/journal/3008...
@tsinghuauniversity.bsky.social
Led by Profs.Torgeir Moan, Zhonglin Wang & Jian-Min Zhang.
🔗 www.sciopen.com/journal/3008...
@tsinghuauniversity.bsky.social
🌍This #InternationalWeekofScienceandPeace, science transcends borders and achieving carbon neutrality demands global cooperation!
Nations can strengthen international collaboration from disruptive technologies to policy coordination.👇https://www.sciopen.com/article/10.26599/TRCN.2025.9550002🌍🧪
Nations can strengthen international collaboration from disruptive technologies to policy coordination.👇https://www.sciopen.com/article/10.26599/TRCN.2025.9550002🌍🧪
November 9, 2025 at 8:45 AM
🌍This #InternationalWeekofScienceandPeace, science transcends borders and achieving carbon neutrality demands global cooperation!
Nations can strengthen international collaboration from disruptive technologies to policy coordination.👇https://www.sciopen.com/article/10.26599/TRCN.2025.9550002🌍🧪
Nations can strengthen international collaboration from disruptive technologies to policy coordination.👇https://www.sciopen.com/article/10.26599/TRCN.2025.9550002🌍🧪
🔬 Happy #InternationalSTEMDay!
To celebrate, we’re spotlighting just two of the many researchers who are pushing the boundaries of what's possible in science. 👇🧵
#SciOpen #STEMEducation @tsinghuauniversity.bsky.social 🧪🌏🌐
To celebrate, we’re spotlighting just two of the many researchers who are pushing the boundaries of what's possible in science. 👇🧵
#SciOpen #STEMEducation @tsinghuauniversity.bsky.social 🧪🌏🌐
November 8, 2025 at 6:42 AM
🔬 Happy #InternationalSTEMDay!
To celebrate, we’re spotlighting just two of the many researchers who are pushing the boundaries of what's possible in science. 👇🧵
#SciOpen #STEMEducation @tsinghuauniversity.bsky.social 🧪🌏🌐
To celebrate, we’re spotlighting just two of the many researchers who are pushing the boundaries of what's possible in science. 👇🧵
#SciOpen #STEMEducation @tsinghuauniversity.bsky.social 🧪🌏🌐
It’s easier than ever to connect with us online! 🦋
We’ve added Bluesky to our homepage, joining LinkedIn, X, and more, to make it easier than ever to stay connected with our community.
Join us there 👇
bsky.app/profile/scio...
#OpenAccess #OpenScience #Sxiopen #TUP @tsinghuauniversity.bsky.social🧪🌏🌐
We’ve added Bluesky to our homepage, joining LinkedIn, X, and more, to make it easier than ever to stay connected with our community.
Join us there 👇
bsky.app/profile/scio...
#OpenAccess #OpenScience #Sxiopen #TUP @tsinghuauniversity.bsky.social🧪🌏🌐
November 7, 2025 at 2:28 PM
It’s easier than ever to connect with us online! 🦋
We’ve added Bluesky to our homepage, joining LinkedIn, X, and more, to make it easier than ever to stay connected with our community.
Join us there 👇
bsky.app/profile/scio...
#OpenAccess #OpenScience #Sxiopen #TUP @tsinghuauniversity.bsky.social🧪🌏🌐
We’ve added Bluesky to our homepage, joining LinkedIn, X, and more, to make it easier than ever to stay connected with our community.
Join us there 👇
bsky.app/profile/scio...
#OpenAccess #OpenScience #Sxiopen #TUP @tsinghuauniversity.bsky.social🧪🌏🌐
🎗️This #NationalCancerAwarenessDay, comprehensive research reveals critical advances in cancer care, from early screening protocols to immunotherapy & AI integration.
Prevention, timely detection & treatment access are key.
www.sciopen.com/article/10.3...
#SciOpen #TUP @tsinghuauniversity.bsky.social
Prevention, timely detection & treatment access are key.
www.sciopen.com/article/10.3...
#SciOpen #TUP @tsinghuauniversity.bsky.social
November 7, 2025 at 6:43 AM
🎗️This #NationalCancerAwarenessDay, comprehensive research reveals critical advances in cancer care, from early screening protocols to immunotherapy & AI integration.
Prevention, timely detection & treatment access are key.
www.sciopen.com/article/10.3...
#SciOpen #TUP @tsinghuauniversity.bsky.social
Prevention, timely detection & treatment access are key.
www.sciopen.com/article/10.3...
#SciOpen #TUP @tsinghuauniversity.bsky.social
Toward true sun-like lighting, researchers engineered a violet-light-excitable yellow Ba₂Sc₂B₄O₁₁:Ce³⁺ glass ceramic with 95% PLQY and CRI > 93.
Stable, efficient, and suitable for full-spectrum LEDs & LDs.
🔗 www.sciopen.com/article/10.2...
#Photonics #LEDs #MaterialsScience #SciOpen #TUP 🧪🌏🌐
Stable, efficient, and suitable for full-spectrum LEDs & LDs.
🔗 www.sciopen.com/article/10.2...
#Photonics #LEDs #MaterialsScience #SciOpen #TUP 🧪🌏🌐
November 6, 2025 at 12:21 PM
Toward true sun-like lighting, researchers engineered a violet-light-excitable yellow Ba₂Sc₂B₄O₁₁:Ce³⁺ glass ceramic with 95% PLQY and CRI > 93.
Stable, efficient, and suitable for full-spectrum LEDs & LDs.
🔗 www.sciopen.com/article/10.2...
#Photonics #LEDs #MaterialsScience #SciOpen #TUP 🧪🌏🌐
Stable, efficient, and suitable for full-spectrum LEDs & LDs.
🔗 www.sciopen.com/article/10.2...
#Photonics #LEDs #MaterialsScience #SciOpen #TUP 🧪🌏🌐