The 03 in vitro I (biomaterial) department offers a full spectrum of services covering advanced fabrication of natural/synthetic/composite materials, and comprehensive physicochemical characterization. Our expertise provides the essential data required to optimize formulations, predict in vivo performance, and ensure regulatory readiness for materials used in drug delivery and tissue engineering. We utilize a wide range of analytical tools, from fundamental mechanical testing to cutting-edge spectroscopic and chromatographic analyses.
<tdMechanical Performance TestingComprehensive analysis of physical properties including Rheology, Elasticity, Fatigue, Corrosion resistance, and detailed Compression ∣ Elongation studies.
| Service ID | Service Title | Description |
| 03.01 | Biomaterial Synthesis & Formulation | End-to-end synthesis, formulation, and development of novel materials, including general polymeric scaffolds and hydrogels. |
| 03.02 | Targeted Fabrication Strategies | Specialized fabrication services for application-specific structures, such as Drug Delivery Substrates, Tissue Engineering Scaffolds, and tailored Cell Culture Media/Substrates. |
| 03.03 | Mechanical Performance Testing | Comprehensive analysis of physical properties including Rheology, Elasticity, Fatigue, Corrosion resistance, and detailed Compression ∣ Elongation studies. |
| 03.04 | Surface & Chemical Characterization | Evaluation of material-environment interfaces through tests like Swelling behavior and Contact Angle measurement, crucial for biological interaction. |
| 03.05 | Degradation and Erosion Kinetics | Assessment of material stability and breakdown profiles in biological media, covering Degradation ∣ Biodegradation and Erosion ∣ Bioerosion analysis. |
| 03.06 | Drug Loading and Release Profile | Detailed quantification of therapeutic agent incorporation (Drug Loading) and evaluation of controlled release behavior (Release) over time. |
| 03.07 | Biomedical Safety Assessment | Essential in vitro tests to assess immediate safety and interaction with biological fluids, specifically including Hemolysis analysis. |
| 03.08 | High-Resolution Microscopy | Detailed morphological and structural investigation using techniques such as SEM, FESEM, TEM, and AFM to visualize surface topography and ultrastructure. |
| 03.09 | Core Spectroscopic Analysis | Fundamental characterization using FTIR, UV-VIS, and TGA to confirm chemical structure, functional groups, composition, and thermal stability. |
| 03.10 | Advanced Structural Analysis | In-depth determination of material crystallinity, elemental composition, and molecular structure using XRD ∣ XRF ∣ EDX, and NMR spectroscopy. |
| 03.11 | Nanoparticle Sizing and Potential | Measurement of particle size distribution and colloidal stability for nano-systems using DLS (Dynamic Light Scattering) and Zeta Potential analysis. |
| 03.12 | Purity and Composition Chromatography | Separation, identification, and quantification of components using high-precision techniques like HPLC, GPC, and Ion Chromatography. |
| 03.13 | Specialized Volatile Analysis | Analytical services for complex volatile and semi-volatile component mixtures using GC-MS ∣ GC-FID ∣ GC-HID chromatography techniques. |
