We provide a full range of spectroscopy testing services, leveraging advanced instruments and expert analysis to deliver clear, reliable data on sample composition and structure. Trusted by clients across materials science, chemical R&D, and industrial applications, our services help streamline research, support informed decisions, and ensure high-quality analytical insights.
Spectroscopy Testing refers to a group of analytical techniques based on the interaction between matter and electromagnetic radiation. By measuring a sample's absorption, emission, or scattering of light across different wavelengths, these methods reveal key information about molecular structures, chemical composition, and elemental content. Widely applied in chemistry, biology, materials science, and industrial fields, spectroscopy provides fast, precise, and highly sensitive results, making it an essential tool for research and quality control.
We can offer a variety of spectral testing service segments to facilitate comprehensive and precise analysis requirements.
Nuclear Magnetic Resonance (NMR) detects nuclear spin transitions in a magnetic field, revealing molecular structures and chemical environments. Commonly used for impurity detection and structure confirmation, this technique at BOC Sciences delivers detailed analytical insights.
Ultraviolet-Visible (UV-Vis) spectroscopy measures light absorption across UV and visible ranges, reflecting molecular structure and concentration. Widely used in stability evaluation and optical property studies, UV-Vis testing at BOC Sciences offers dependable spectral data.
Raman spectroscopy captures molecular vibrational features to reveal structural and state information. As a rapid, non-destructive method suitable for crystals, polymorphs, and carbon-based materials, Raman analysis at BOC Sciences helps clients obtain meaningful sample insights.
Fourier Transform Infrared (FTIR) identifies molecular vibrations, generating characteristic spectral fingerprints. Often applied in material comparison, impurity screening, and sample identification, FTIR analysis at BOC Sciences supports precise and consistent results.
Inductively Coupled Plasma (ICP) enables sensitive multi-element detection across complex matrices. Applied for trace element analysis and impurity monitoring, ICP testing at BOC Sciences provides precise elemental profiles for research and development needs.
Atomic Absorption Spectroscopy (AAS) quantifies trace metals through atomic light absorption. Frequently used in environmental, water, and raw material analysis, AAS testing at BOC Sciences ensures accurate and trustworthy metal content determination.
X-Ray Fluorescence (XRF) identifies elemental composition by detecting characteristic X-ray emissions. This rapid, non-destructive approach suits solids, alloys, and inorganic samples, with XRF analysis at BOC Sciences offering efficient qualitative and semi-quantitative results.
Mass Spectrometry (MS) determines molecular mass and structural information by measuring ionized analytes' mass-to-charge ratios. This sensitive, high-throughput technique is applicable to a wide range of organic and inorganic compounds, with MS analysis at BOC Sciences providing rapid qualitative and semi-quantitative data.
High-Resolution Mass Spectrometry (HRMS) delivers precise mass measurements with superior accuracy, enabling detailed molecular characterization and identification of unknown compounds. HRMS analysis at BOC Sciences offers reliable, high-confidence qualitative and semi-quantitative results for complex samples.
Contact us today! Our diverse spectroscopy testing services help clients optimize experiments and make informed decisions.
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Spectroscopy is widely applied for molecular structure confirmation, impurity identification, and stability or quality assessments. Pharmaceutical and biotech firms often face challenges such as limited in-house instrumentation, complex sample matrices, and high-precision requirements. Our spectroscopy testing services provide reliable structural and quantitative insights, helping support research and development, process optimization, and consistent quality control across diverse projects.
Chemical and materials companies frequently need raw material characterization, polymer and composite analysis, and impurity monitoring during production. Common challenges include diverse sample types, high analysis complexity, and limited laboratory equipment. Spectroscopy Testing delivers detailed molecular and material composition information, assisting clients in optimizing product development, ensuring quality assurance, and improving workflow efficiency.
Academic researchers rely on spectroscopy to identify molecular structures, characterize new compounds, and perform multi-technology analyses. Limited instrument access, small sample volumes, and high-quality data requirements often create bottlenecks. Our services provide access to high-resolution spectra, enabling precise experimental design, comprehensive sample evaluation, and reliable research outcomes across various scientific disciplines.
Environmental and industrial teams use spectroscopy for trace element detection, pollutant analysis, and product composition evaluation. They often encounter complex sample matrices, high sensitivity demands, and fluctuating analysis needs. Spectroscopy Testing provides precise molecular and elemental information, supporting environmental monitoring, industrial quality control, and efficient data-driven decision-making.
Whether for research, production, or quality management, BOC Sciences' spectroscopy services provide accurate and reliable analysis for your samples. Connect with our experts to develop a customized testing plan that supports your R&D decisions and project advancement.
Clients provide sample information and testing needs. We offer preliminary guidance, including suitable spectroscopy techniques, detection scope, and feasibility assessment.
Based on sample type and client objectives, a detailed testing plan is developed, specifying sample preparation methods, instrument selection, analysis parameters, and quality control measures.
Upon receiving samples, they are logged and labeled. Necessary pre-treatment is performed according to the testing plan, such as dissolution, dilution, film formation, or pellet preparation.
Testing is conducted following the plan, using NMR, FTIR, UV-Vis, Raman, ICP, AAS, or XRF techniques to obtain high-quality spectral data.
Acquired data are processed and analyzed, including spectrum interpretation, qualitative and quantitative evaluation, and generation of clear, understandable analytical results.
A comprehensive test report is provided, including spectra, data tables, analysis explanation, and conclusions. Technical support is offered as needed to help clients interpret results and guide subsequent R&D or decision-making.
Our spectroscopy testing services typically provide clients with the following reports:
With extensive experience in spectroscopy, we handle a wide variety of sample types, delivering highly precise and reliable data to meet the diverse needs of R&D and industrial applications.
Our team of senior analytical experts provides customized solutions, in-depth data interpretation, and professional guidance to support research and production decisions.
We have established long-term collaborations with over 20 leading global companies and research institutions, combining extensive practical experience and technical expertise to deliver high-value, reliable analytical solutions.
From method development and sample testing to reporting, we cover 100% of the project workflow, ensuring smooth communication, traceable results, and enabling clients to make fast and effective critical decisions.
Client: A pharmaceutical R&D company in North America
Challenge: The client needed high-resolution molecular structure confirmation for a series of newly synthesized drug candidates, with complex mixtures containing potential impurities.
Solution: BOC Sciences employed high-field NMR instruments and optimized pulse sequences to resolve overlapping signals. Our team conducted both 1D and 2D NMR experiments, providing detailed structural elucidation and impurity identification. Comprehensive reports included spectra, peak assignments, and quantitative analysis.
Outcome: The client obtained clear structural confirmation within a short timeframe, enabling rapid progression from lead identification to optimization, reducing experimental iteration cycles.
Client: A polymer manufacturing company in Asia
Challenge: The client required detailed chemical composition and crystallinity analysis for new polymer blends, with minimal sample preparation and non-destructive testing.
Solution: BOC Sciences applied both FTIR and Raman spectroscopy to characterize functional groups, molecular interactions, and polymorphic forms. Our team optimized measurement conditions for each sample type and delivered high-quality spectra with annotated peaks and comparative analysis.
Outcome: The client gained precise insights into polymer composition and crystalline phases, improving product quality control and accelerating formulation development.
Client: An environmental testing laboratory in Europe
Challenge: The client needed ultra-trace detection of heavy metals in water and soil samples with highly variable matrices, ensuring compliance with research-grade accuracy.
Solution: BOC Sciences deployed ICP-OES and AAS instruments with matrix-matched calibration and internal standards. Our team optimized sample digestion and preparation protocols to minimize interference and maximize sensitivity, providing both qualitative and quantitative elemental analysis.
Outcome: The client achieved reliable detection of trace metals across diverse sample types, significantly improving data accuracy and workflow efficiency, supporting research and product development decisions.
Spectroscopy testing is a high-precision technique that analyzes the chemical composition and structure of substances by measuring their interaction with electromagnetic radiation. It is widely applied in chemistry, materials science, food and beverage, environmental monitoring, as well as pharmaceutical and biochemical industries. The method enables qualitative and quantitative assessment of sample components, purity, impurities, and structural features, providing reliable data to support R&D and quality control.
Method selection mainly depends on sample type, analytical objectives, and required sensitivity. Common techniques include UV-Visible spectroscopy (UV-Vis), infrared spectroscopy (IR), Raman spectroscopy, and mass spectrometry-coupled spectroscopy (MS-based spectroscopy). For example, complex mixtures or low-concentration samples often require the high sensitivity of MS-based analysis, while material structural characterization is better served by IR or Raman spectroscopy. Clarifying these requirements helps optimize efficiency and data reliability.
Spectroscopy testing can deliver molecular structural information, functional group identification, elemental composition, and content distribution. For advanced applications, it can provide isotope information, impurity profiles, and quantitative analysis of multi-component mixtures. These results directly support material performance optimization, formulation verification, and product quality monitoring, offering actionable insights for R&D and production decision-making.
Our company is equipped with state-of-the-art spectroscopy instruments and an experienced analytical team, providing full-service solutions from sample preparation and method development to data interpretation. Whether standard testing or complex sample analysis, we ensure high sensitivity, repeatability, and traceability of results. Detailed analytical reports are provided to help clients quickly obtain reliable data and streamline product development processes.
Clients should clarify their analytical objectives, sample type, and required detection sensitivity before submission, and provide complete sample information, including purity, solvents, and potential interfering substances. Proper sample preparation and clear requirements improve efficiency and ensure accuracy and comparability of data. Early communication of special needs or custom method development allows us to deliver optimized solutions tailored to client requirements.
The spectroscopy testing service provided by BOC Sciences offered highly reliable analytical insights into our complex formulations. Their detailed data interpretation and thorough reporting allowed our R&D team to make confident decisions during the early-stage development process.
— Dr. M., Senior Scientist, Specialty Chemicals Company
BOC Sciences' spectroscopy analysis delivered comprehensive data that went beyond simple measurements. Their team provided in-depth spectral interpretation, which was invaluable for understanding material characteristics and guiding formulation adjustments.
— Ms. T., R&D Manager, Advanced Materials Company
The team at BOC Sciences demonstrated exceptional technical expertise in spectroscopy testing. Their ability to customize analytical approaches and provide clear, actionable insights significantly enhanced our material evaluation workflow.
— Dr. R., Head of Product Development, Industrial Coatings Company
BOC Sciences' spectroscopy services gave our team confidence in decision-making. The precision and clarity of the generated spectral data supported critical material selection and design choices, helping us streamline internal review processes.
— Mr. K., Analytical Chemistry Lead, Electronics Materials Manufacturer
