biomaterials

Professor Luo Binghong’s Team from Jinan University Publishes in ACS Nano: A Multifunctional 3D Printed Scaffold with Spatiotemporal Release of Multiple Drugs for Bone Regeneration

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Professor Luo Binghong's Team from Jinan University Publishes in ACS Nano: A Multifunctional 3D Printed Scaffold with Spatiotemporal Release of Multiple Drugs for Bone Regeneration

Bone defects are a common and challenging issue in the medical field. The development of biomaterials with excellent bone repair capabilities and economic practicality is of significant practical importance for the clinical treatment of bone defects. In recent years, tissue-engineered scaffolds have become increasingly popular in the treatment of bone defects. Notably, the process of … Read more

Professor Luo Binghong’s Team from Jinan University Publishes in ACS Nano: Multifunctional 3D Printed Scaffolds with Spatiotemporal Drug Release Functions for Bone Regeneration

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Professor Luo Binghong's Team from Jinan University Publishes in ACS Nano: Multifunctional 3D Printed Scaffolds with Spatiotemporal Drug Release Functions for Bone Regeneration

Bone defects are a common and challenging issue in the medical field. The development of biomaterials with excellent bone repair capabilities and cost-effectiveness is of significant practical importance for the clinical treatment of bone defects. In recent years, tissue-engineered scaffolds have become increasingly popular for the treatment of bone defects. Notably, the process of bone … Read more

Understanding the Global Sensor Market at a Glance

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Understanding the Global Sensor Market at a Glance

Related Articles: ▶ Understanding Biomaterials for Biosensors ▶ Graphene’s Role in Medicine and Biosensors ▶ [At a Glance] Sensors Perceiving the World ▶ Understanding the Sensor Market and Applications Author: Xiao Hui Editor of New Materials Online: chungoo This article is sourced from the New Materials Online service account. For reprints, please add the editor’s … Read more

Multi-Gradient Bone-Like Nanocomposites Induced by Strain Distribution

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Multi-Gradient Bone-Like Nanocomposites Induced by Strain Distribution

iNature The heterogeneity of bone is crucial for adapting to local strain environments, which is essential for maintaining mechanical function. This adaptation enables a strong correlation between strain distribution and multiple gradients, laying the foundation for creating complex gradient structures. However, the synthesis of such functionally graded materials has not been fully explored. On October … Read more

Recycling Human Teeth for Piezoelectric Energy Harvesting

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Recycling Human Teeth for Piezoelectric Energy Harvesting

Recycling of human teeth for piezoelectric energy harvesting Yuanyuan Yin, Shuaijie Liu, Yuehui Wang, Sihan Yang, Min Ding, Xiaohui Xu, Wei Ji, Jinlin Song Giant 2024, 20, 100333 https://doi.org/10.1016/j.giant.2024.100333 Abstract In the human body, biomolecules or tissues with non-centrosymmetric structures can exhibit piezoelectricity; however, there is limited research on utilizing natural tissues to manufacture piezoelectric … Read more