生物技术仪器

医疗仪器

科学仪器

/市场/ 生命科学

Life Sciences

II-VI segments the life sciences instrumentation market into three categories based on core functional use – biotechnology, medical, and scientific. Biotechnology platform examples include sequencing for drug discovery, microbiology, virology, cellular biology research for pharmaceutical development, and whole-animal studies. Medical systems typically deliver solutions at or near the patient, with examples spanning from laser treatments, endoscopy procedures, ophthalmic surgery, and internal fluorescence imaging to some point-of-care platforms. Lastly, the scientific segment targets air, water, food, and pharmaceutical monitoring and testing and even extends to astronomical imaging applications. Overall, this type of market segmentation allows suppliers who support life sciences instrumentation manufacturers to design and deliver ideal segment-specific solutions.

II-VI双色激光发动机上的垂直集成示例

生物技术仪器

Biotechnology instrumentation, which involves analyzing living organisms or parts of organisms, is used in research and commercial applications such as genetic sequencing, PCR (polymerase chain reaction) analysis, flow cytometry, and diagnostics. A common design theme involves integration of a light source, optics for signal propagation, and final delivery to a detector. Most platforms rely heavily on materials, optics, lasers, and thermoelectrics, and the combined integration of these components and subassemblies is critical for overall platform performance.

For instance, most biotechnology instrumentation includes a light source to direct and propagate light through an optical system, which often integrates filters, lenses, windows, gratings, flow cells, and other components. The light ultimately reaches and interacts with the sample, and emission signals are directed to detectors for signal processing and data output. Despite similarities in overall system architecture, the ultimate requirements for any given platform can vary significantly in terms of design, integrated optics and lasers, thermoelectrics, and other critical system parameters. In turn, the instrumentation can bring more value when suppliers drill down further to design application-specific solutions.

PCR(聚合酶链反应))

Flow Cytometry

  • 测序
  • pcr
  • 微阵列
  • Nucleic Acid Prep
  • 细胞分离
  • 电泳
  • 体内动物成像
  • Flow Cytometry
  • Cell Counters
  • High-Content Screening
  • Diagnostics/POC
  • Immunoassays
  • Analyzers
  • Reagent & Centrifugation Cooling

医疗仪器

The medical instrumentation segment is quite diverse; however, medical laser platforms are widespread and do share architectural similarities. Laser illumination is typically targeted at, near, or inside the patient for treatment, measurement, or observational purposes. Medical laser applications enable cosmetic and ophthalmic treatments as well as dental and other surgical procedures. They are also used in imaging applications such as endoscopy and optical coherence tomography, and in therapeutics. Clinical laser applications can be invasive or noninvasive but often require clinical laser system developers to match materials and tissue absorption characteristics. Overall, for optimal laser system results, it is critical to choose an optics and laser supplier who offers a broad, high-performance portfolio designed for medical use.

科学仪器

科学仪器市场领域包括空气,水,食品,饮料和药物测试和监测,随着环境和安全性的关注变得更加普遍,这将推动可登场和坚固仪器的开发。在该领域工作的科学家在很大程度上依赖于分子光谱,这有助于他们了解有关样品特征和分子相互作用的关键信息。该技术依赖于用光照明样品并分析发射信号。平台示例包括光谱荧光计,过滤荧光计,FT-NIR和荧光寿命系统。这些仪器依赖于一条光路,该路径可提供样品的有效照明,信号收集以及发射信号的低损失传播以及敏感的低噪声检测。

Medical Device Instrument Design

Medical Laser
  • 化妆品和皮肤病学
  • 眼科/外科/牙科
医学影像
  • 内窥镜检查
  • OCT
护理点
  • 糖尿病测试
  • 可穿戴设备
热的
  • 医院床上用品/高血压减少疗法
  • 偏头痛/关节,肢体,肌肉疗法

Spectrometer Device Instrument Design

环境测试
  • Air
  • 食品与饮料
  • 药品
  • 农业
Molecular Spectroscopy
  • NMR
  • UV-Vis
  • NIR
  • 颜色测量
  • Raman

FDA Approved Assemblies & Facilities

Resources

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