CaHA
Hydroxyapatite (CaHA)
A core foundational material for bone repair, aesthetic medicine, scientific research and development, and other high-end application scenarios.
View DetailsNanjing Junzhuo Biotechnology Co., Ltd.Advancing Biomaterials with Precision
Nanjing Junzhuo Biotechnology Co., Ltd. specializes in the R&D, manufacturing, and application support of advanced hydroxyapatite and bioceramic materials. We are committed to delivering highly stable and specialized material solutions for orthopedic reconstruction, medical aesthetic injectables, surface coatings, and translational research.
HydroxyapatiteCaHA Microspheresβ-TCPCalcium SilicateRegenerative Biomaterials
Products
β-TCP
Beta Tricalcium Phosphate (β-TCP)
Beta tricalcium phosphate (β-TCP) is a high-performance bioceramic material with biomimetic mineral characteristics.
View DetailsNEW
New Materials (BCP, CS, CSH)
Centered on material directions such as biphasic calcium phosphate, calcium silicate, and calcium sulfate hemihydrate, we continue to advance the in-depth development of new bioceramic materials.
View DetailsOEM
Custom Development
Across key dimensions such as particle size distribution, morphology, packaging format, and application documentation, we support custom development from requirement communication and sample validation to project onboarding.
View DetailsAbout Junzhuo
Nanjing Junzhuo Biotechnology Co., Ltd. focuses on the research, production, and custom development of high-end biomaterials, providing professional material solutions for customers worldwide.
About Junzhuo
News Center
The latest updates on company developments, technical articles, and industry content.
The Next Phase of Regenerative Aesthetics: A Renewed Focus on CaHA Powder Quality
As downstream teams seek more reproducible tissue-response research, injectability evaluation, and product verification, CaHA powder quality is becoming a core variable.
Osteoimmune Modulation: HAp-Related Microspheres in Osteoporotic Bone Defect Repair
HAp-related microspheres are being studied as material platforms for osteoporotic bone defect repair, where osteoimmune modulation and microenvironment remodeling are increasingly important.
Solid Hydroxyapatite Microspheres in Aesthetic Regenerative Materials
Solid hydroxyapatite microspheres are relevant to aesthetic regenerative materials because dense spherical particles can support stable formulation design and long-term structural function.