Wonderful Scientific

Why is Morphological Analysis Useful? 🔬🐀 Morphological analysis (studying shapes and structures) is key in paleontology. With tools like the NeoScan N80 Benchtop Micro-CT scanner, researchers can see tiny details inside fossils without breaking them open! In a recent study on Siphneus, an extinct group of burrowing rodents from the Pleistocene, scientists used Micro-CT to: ▪️ Spot small differences in teeth and skulls that reveal different species ▪️ Identify a brand-new species (Siphneus tolaensis) ▪️ Redraw part of the evolutionary tree for these animals 📖 Read Article: https://buff.ly/R8MS5oH Why does this matter? It shows how even tiny changes in bones can tell big stories about how animals evolved and adapted — which may even offer insight into how modern species could react to today’s changing world. 📚 Learn More: https://buff.ly/96IU0u6 📧 Get In Touch: info@neoscan.com #MicroCT #NeoScanN80 #Imaging #Fossil #MorphologicalAnalysis #Pleistocene #Siphneus #paleontology

Congratulations to Neoscan Solutions on this great achievement! https://lnkd.in/ey-TwsbU

Micro-CT Reveals the Potential of Silk-Cellulose Composites 🔬 Researchers have combined silk fibers with cellulose using ionic liquids and 3D printing, creating a strong, lightweight, and biodegradable composite with promising biomedical and sustainable applications. 📖 Read the full study: https://buff.ly/d2jiKnt 🌿 Why Cellulose? Cellulose is the most abundant natural polymer on Earth. It’s sustainable, biocompatible, and widely used—but it has limitations. Its amorphous regions can develop microscopic defects, reducing its mechanical strength. 🕸️ Why Silk Fibers? Silk offers exceptional tensile strength. By embedding silk into the cellulose matrix, researchers created a networked composite that compensates for cellulose's weaknesses while preserving its benefits. 🔎 How was MicroCT used? For this study the NeoScan N80 Benchtop MicroCT was used. The team could non-destructively examine the material’s internal architecture, allowing them to: ▪️ Visualise fiber distribution ▪️ Check structural uniformity ▪️ Measure porosity (key for tissue growth) 💡 Why is this important? This new material has significant potential for biomedical applications, such as: ▪️ Tissue engineering scaffolds ▪️ Wound healing materials ▪️ Biodegradable medical implants Beyond medicine, this marks a step forward in smart, sustainable materials—from eco-friendly packaging to advanced textiles! #n80 #neoscan #tissueenginering #cellulose #silk #microct #Biomaterials #Bioengineering 📚 https://buff.ly/UFZJvBU 📧 info@neoscan.com

Perovskite Solar Cells: Pushing the Boundaries of Solar Energy?☀️ Perovskite solar cells are emerging as a promising alternative to traditional silicon-based solar panels, offering high efficiency, lower costs, and versatile applications. Here are some key developments 📖 Read the Full Article : https://buff.ly/QIJnWYo ▪️ Efficiency: Perovskite solar cells have improved from 3.8% in 2009 to 25.7% today, with tandem versions exceeding 29.8% efficiency, surpassing traditional silicon panels! ▪️ Commercial Use: Japan is investing $1.5B in ultra-thin, flexible perovskite solar cells, aiming to generate energy equal to 20 nuclear plants by 2040. 🔬 Micro-CT The NeoScan N80 Benchtop Micro-CT was used to analyse perovskite layers, revealing insights into structure, uniformity and fabrication improvements for better performance. 📧 info@neoscan.com 📚 https://buff.ly/PaLFW3l #Perovskite #SolarCells #MicroCT #RenewableEnergy #MaterialsScience #AcousticEngineering #Neoscan #N80

What Can Crustacean Shells Teach Us About Advanced Materials? 🦀🔬 A new study in Interface Focus explores the diverse structures of crustacean shells—showing how nature fine-tunes strength, flexibility, and durability. By understanding these natural designs, scientists can take inspiration for developing next-generation materials. 📖 Read more: https://buff.ly/hXw78gB Crustacean exoskeletons vary in structure, with layers arranged in different patterns, affecting their strength and adaptability. The blend of calcium phosphate, calcium carbonate, and proteins gives shells a balance of hardness and flexibility, inspiring engineered materials. 🔍 How Was This Studied? The NeoScan N80 Benchtop MicroCT provided high-resolution, non-destructive imaging, revealing the intricate architecture of crustacean exoskeletons. Crustacean exoskeletons offer a blueprint for strong, lightweight materials, influencing advances in medical implants, coatings, and composites. 📧 info@neoscan.com 📚 https://buff.ly/PaLFW3l #Biomaterials #MaterialScience #MicroCT #NeoScan #Biomimetics #N80

New Fossilised Discoveries from Eastern Siberia 🔬🦔 A recent study explores the fossilised remains of small insectivorous mammals from the Early/Middle Miocene Tagay-1 locality on Olkhon Island, Lake Baikal. The findings shed light on the region's past biodiversity and the evolutionary history of hedgehogs (Erinaceomorpha) and shrews/moles (Soricomorpha) 📖 Read more: https://buff.ly/4igwjq1 ▪️ Fossil Insights: Researchers uncovered isolated teeth, dentary fragments, and skull remains, providing a glimpse into the mammalian life of Miocene Siberia. ▪️Taxonomic Significance: These preliminary identifications expand our knowledge of small mammal diversity and distribution in the region. ▪️ Micro-CT Applications: The NeoScan N80 was utilised for high-resolution, non-destructive 3D scanning, unveiling intricate anatomical details essential for precise species classification. This study enhances our understanding of how insectivorous mammals thrived in Siberia millions of years ago, setting the stage for future discoveries! 📚 Learn more: https://buff.ly/4cQW7qu 📧 Get in touch: info@neoscan.com #Paleontology #Fossil #Miocene #MicroCT #Siberia #n80 #Neoscan #Paleoosteology

Apples Helping Bones Regrow? Learn How Science is Turning Fruit Waste into Life-Changing Biomaterials 🦴🍏 Full Publication: https://buff.ly/3X9BCPY Scientists have developed a biodegradable 3D gelatin-hydroxyapatite-phloridzin (Gel/HA/Ph) scaffold that uses apple-derived polyphenols! *A scaffold is a tiny framework that supports bone tissue engineering 💡 The phloridzin-functionalized scaffold is: ▪️ Porous (71.3% porosity) to allow cell infiltration and nutrient exchange ▪️ Biodegradable, slowly dissolving as new bone forms ▪️ Bioactive, actively boosting healing and reducing inflammation 🔬 Micro-CT imaging showed that the phloridzin-functionalized scaffold: ▪️ Uses apple-derived polyphenols for antioxidant and anti-inflammatory benefits ▪️ Enhances bone cell activity and stimulates key bone-forming genes ▪️ Provides strong mechanical support for bone healing ▪️ Sustainably repurposes food waste into high-value biomaterials This innovation could also impact wound healing, tissue engineering, and antimicrobial applications. 📚 https://buff.ly/4cQW7qu 📧 info@neoscan.com #Boneresearch #MicroCT #Scaffolding #Biomaterials #apples #neoscan #n80 #BoneTissueEngineering

Meet Anourosorex andabata! A Newly Discovered Pleistocene Predator 🔬 Fossilised jaw fragments have revealed a newly identified species of mole shrew from the Middle Pleistocene of Vietnam, marking the first fossil record of Anourosorex in the country! See Publication: https://buff.ly/4aWBSYi This medium-sized soricid is distinguished by: 🦷 A relatively long and wide talonid on its first lower molar (M₁) 🦴 A narrow apex of the coronoid process of its mandible Excavated from Tham Hai Cave (Lang Son Province), the fossilised jaw fragments and teeth were analysed using the NeoScan N80 benchtop microCT, comparing them with both living and extinct Anourosorex species. These findings expand our understanding of the diversity and distribution of soricid mammals in Pleistocene Southeast Asia. 📚 Learn more: https://buff.ly/4cQW7qu 📧 Get in touch: info@neoscan.com #Paleontology #Fossil #MoleShrew #Soricidae #Vietnam #Pleistocene #Anourosorex #neoscan #microct #n80

Eocene Seabirds & The Power of Micro-CT 🌍🔬 A recent discovery from Western Siberia’s Eocene Tavda Formation has revealed a fossilised tibiotarsus of a large Procellariiformes seabird See Publication: https://buff.ly/42N95mP 🦴 What Does This Fossil Tell Us? ◾ This seabird, related to modern albatrosses and petrels, suggests that large marine birds thrived in Siberian waters 40–50 million years ago—expanding our understanding of their historical range. ◾ The presence of seabirds in this region indicates warmer oceans and different ecosystems than today, helping us reconstruct Eocene climate patterns. ◾ The fossil shows that Procellariiformes were already highly adapted for ocean life during the Eocene, contributing to our understanding of seabird evolution. 🔎 The NeoScan N80 Benchtop MicroCT was used to: ✔️ Examine fossils non-destructively ✔️ Reveal hidden anatomical details invisible to the naked eye ✔️ Compare fossilised bones with modern species at a microscopic level 📚 Learn more: https://buff.ly/4cQW7qu 📧 Get in touch: info@neoscan.com #Paleontology #Fossil #Eocene #Seabirds #MicroCT #Evolution #neoscan #n80

🐚 The Extraordinary Shell of Sherbornia mirabilis! This one-of-a-kind gastropod boasts a remarkable shell with an apertural shield and three unique canals, setting it apart in the mollusk world. 🔬 Micro-CT Insights High-resolution NeoScan N80 micro-CT scans revealed defensive adaptations against predation, including drill hole evidence of past attacks. https://buff.ly/4cQW7qu 🦠 Evolutionary Mystery With a 60-million-year gap between Sherbornia and its extinct relative Faxia macrostoma, its evolutionary history remains unclear. The findings confirm its place in a separate family (Sherborniidae), but much is still unknown. Future discoveries—especially living specimens—could unlock more secrets about this fascinating species! 📚 Read more: https://buff.ly/42ysbgk (Full Publication) 📧 Contact: info@neoscan.com #Paleontology #MicroCT #Gastropods #MarineBiology #Mollusks #Fossils #neoscan #n80