At BOC Sciences, we offer comprehensive elemental & material analysis services, covering elemental composition testing, crystal structure analysis, thermal property evaluation, and microscopic morphology characterization. Leveraging advanced instrumentation and a team of experienced specialists, we provide high-precision, reliable data to help businesses and research institutions gain deep insights into material properties. Our services are widely applied across new materials development, energy, electronics, industrial applications, as well as pharmaceutical research and development, earning the trust and praise of clients worldwide. Whether for fundamental research or innovative development, BOC Sciences delivers customized, scientifically rigorous analysis solutions.
Our X-ray Diffraction (XRD) testing service delivers precise insights into crystalline structure, phase identification, and material purity. By analyzing diffraction patterns, we help clients evaluate polymorphism, detect structural defects, and confirm material integrity. XRD is a vital tool for advancing research in pharmaceuticals, advanced materials, and nanotechnology.
Through Thermogravimetric Analysis (TGA), we provide accurate measurements of weight changes under controlled temperature conditions. This method reveals information about thermal stability, decomposition patterns, and compositional characteristics. TGA testing supports industries in assessing material durability, optimizing formulations, and ensuring robust product performance.
Our Differential Scanning Calorimetry (DSC) testing investigates heat flow associated with thermal transitions such as melting, crystallization, and glass transition. By quantifying energy changes, DSC enables the determination of critical thermal properties that impact processing, stability, and end-use applications of diverse materials.
BOC Sciences' testing solutions provide clear, actionable data for confident decisions.
Elemental and material analysis is widely applied for composition verification, crystal form identification, and quality assessments. Pharmaceutical developers often face challenges such as complex matrices, stringent quality requirements, and limited in-house instrumentation. Our testing services provide precise structural and quantitative insights, supporting research, process optimization, and successful project completion.
Structural, thermal, and surface analyses are commonly used for new material design, performance evaluation, and property characterization. Research teams often face challenges such as novel material complexity, limited data reliability, and high analytical precision. Our services deliver accurate insights, helping advance material design, validate performance, and achieve project goals.
Composition and impurity analyses are widely applied for product consistency, process optimization, and stability verification. Fine chemical producers often encounter challenges like batch variability, complex synthesis processes, and strict quality standards. Our testing solutions provide reliable compositional and impurity data, ensuring consistent quality and supporting project completion.
Thermal, structural, and microscopic analyses are essential for energy material performance evaluation and optimization. Energy and battery companies often face challenges such as complex material formulations, demanding performance metrics, and innovation pressures. Our services offer precise analytical insights, aiding material performance improvement and successful project delivery.
BOC Sciences delivers accurate analysis for research, production, and performance optimization. Work with our specialists to create a tailored testing plan that drives informed decisions and project success.
Clients submit their analysis needs via website, email, or phone. Our experts clarify sample type and objectives, and provide tailored technical guidance.
Based on requirements, we develop a detailed analysis plan, including appropriate methods, instruments, and sample preparation recommendations for precise results.
Samples are received, logged, and securely stored with unique identifiers, ensuring traceability and integrity throughout the entire analysis process.
Laboratory technicians prepare and analyze samples using advanced elemental and material analysis technologies, ensuring accurate, reproducible, and reliable results.
Results undergo systematic processing and rigorous quality checks. Comprehensive data evaluation ensures accuracy, consistency, and clear presentation for clients.
Validated results are compiled into a complete report, highlighting composition and analysis insights. Clients receive secure access and ongoing technical support.
Here is an overview of the reports we provide for material analysis projects.
We utilize high-end spectroscopy, mass spectrometry, and surface characterization instruments, including ICP-MS, XRF, and SEM-EDS, for comprehensive trace element and material structure analysis.
Our team of materials science, analytical chemistry, and nanotechnology experts averages over 10 years of experience, delivering extensive project expertise across diverse material types worldwide.
Through strategic partnerships with leading global instrument suppliers and research institutions, we provide access to cutting-edge technologies and methodologies, ensuring analytical accuracy and scalability.
We offer tailored analysis strategies and in-depth data interpretation, addressing specific material properties and project goals to support multi-dimensional insights and optimized material development.
Client: A global polymer and plastics manufacturer
Challenge: The client required a detailed characterization of polymer formulations, including elemental additives, crystalline phases, and thermal behavior, to support product development and quality assurance. Polymer matrix complexity limited conventional elemental testing.
Solution: BOC Sciences combined ICP-OES for additive quantification, SEM-EDS for micro-scale elemental mapping, XRD testing for phase identification, and TGA/DSC for thermal property analysis. Customized sample prep and analytical protocols ensured accurate detection of multiple elements and phase/thermal characterization in complex matrices.
Outcome: The client achieved optimized polymer formulations, consistent additive distribution, and reliable thermal performance. Comprehensive reports supported R&D innovation, quality control, and production consistency across batches.
Client: A leading aerospace materials manufacturer in North America
Challenge: The client required precise quantification of trace metals and detailed phase characterization in high-strength alloys to ensure structural performance consistency. Conventional elemental testing alone could not reveal microstructural variations that impact mechanical properties.
Solution: BOC Sciences applied ICP-OES and ICP-MS for multi-element quantification, complemented by XRD testing for phase identification and TGA/DSC for thermal stability and phase transition analysis. Our team optimized sample preparation and data interpretation, delivering combined elemental, crystallographic, and thermal profiles with high resolution.
Outcome: The client gained comprehensive insight into both elemental composition and microstructure, enabling improved alloy design, consistent mechanical performance, and fewer production iterations. Analytical reports supported internal material qualification and process optimization.
Client: A global pharmaceutical company developing an oral tablet formulation
Challenge: The client needed to understand the solid-state properties of an active pharmaceutical ingredient and excipients to ensure stability, consistent dissolution, and optimal bioavailability. Traditional testing methods provided limited insight into polymorphic forms, thermal behavior, and potential degradation pathways.
Solution: BOC Sciences implemented XRD testing to identify and quantify polymorphic forms, TGA to evaluate thermal stability and moisture content, and DSC to assess melting points, crystallinity, and potential interactions between API and excipients. Integrated workflows enabled simultaneous analysis of multiple batches, providing detailed structural and thermal profiles.
Outcome: The client accurately identified polymorphic forms, optimized formulation to prevent unwanted phase transitions, and ensured thermal stability during manufacturing and storage. This comprehensive analysis reduced development risks, supported regulatory submissions, and accelerated formulation R&D.
The elemental and material analysis provided by BOC Sciences offered deep insights into the composition and structural characteristics of our samples. Their detailed reports and interpretive commentary allowed our team to make informed decisions regarding material selection and optimization.
— Dr. M., Senior Research Scientist, Advanced Materials Company
BOC Sciences consistently delivers reliable and accurate elemental data across multiple sample types. Their precise measurements and methodical approach have become a key component in our R&D workflows, supporting confident material evaluation and benchmarking.
— Dr. K., Head of Research & Development, Specialty Chemicals Manufacturer
The material analysis services enabled our lab to obtain high-resolution profiles of complex formulations. BOC Sciences' meticulous analytical techniques ensured clarity in elemental distribution and phase identification, directly enhancing our product development strategies.
— Dr. J., Materials Engineer, Nanotechnology Start-up
BOC Sciences' elemental and material analysis reports are exceptionally detailed and actionable. Their expertise in interpreting complex datasets has significantly streamlined our decision-making processes in materials engineering projects.
— Dr. S., Principal Scientist, Industrial Materials Firm
