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The Micro-Spectrophotometer boasts a robust construction, utilizing stainless steel and quartz fiber materials to ensure durability. It employs a Xenon flash lamp as a light source, characterized by its extended lifespan and consistent performance. This full-wavelength instrument excels in precision, reproducibility, and speed when measuring sample volumes within the range of 0.3 – 2.0 µl. Data transfer options include USB and network connectivity, while measurement results are automatically archived in spreadsheet format. Functioning as a Nano-spectrometer, it covers a broad spectrum from 190 – 1100 mm. Remarkably, the instrument achieves accurate measurements of trace samples ranging from 1.0 to 2.0 ?L with exceptional repeatability. The device efficiently automates the entire detection process, accommodating undiluted high-concentration samples up to 50 times the measured concentration range. Equipped with two USB ports and integrated Bluetooth capabilities, it offers versatile connectivity to a variety of devices.
Frequently Asked Questions
1 What is a Micro-Spectrophotometer?
A Micro-Spectrophotometer is an apparatus designed to combine microscopy and spectrophotometry to measure the spectral properties of microscopic samples.
2 How does a Micro-Spectrophotometer work?
It works by focusing light onto a tiny area of a sample and analyzing the spectrum of light absorbed, transmitted, or reflected from that area.
3 What types of samples can be analyzed using Micro-Spectrophotometer?
It can analyze a wide range of samples including biological tissues, inks, fibers, thin films, and microelectronic components.
4 How is Micro-Spectrophotometer used in forensic science?
It is used in forensic science to analyze trace evidence such as textile fibers, inks, and paint chips by measuring their spectral properties without destroying the sample.
5 What role does Micro-Spectrophotometer play in pharmaceutical research?
It plays a critical role in pharmaceutical research by enabling the analysis of drug compounds and uniformity of active ingredients in micro-scale tablet samples.
6 Is Micro-Spectrophotometer useful in environmental science?
It is useful in environmental science for analyzing micro-contaminants on surfaces and identifying the spectral signatures of particulate matter.
7 How is Micro-Spectrophotometer applied in the textile industry?
In textile industry, it is used to assess color consistency and dye uniformity in fabrics at the microscopic level.
8 Can Micro-Spectrophotometer be used in biomedical research?
It is widely used in biomedical research to study cells, tissues, and microarrays for their optical and biochemical properties.
9 How does Micro-Spectrophotometer benefit quality control in manufacturing?
It enhances quality control in manufacturing by providing precise color and material analysis on production samples and micro-features.
10 Can Micro-Spectrophotometer be used for food safety testing?
It can be used in food safety testing to detect contaminants, colorants, or degradation products in food samples with micro-level precision.
Selection Guide for Micro-Spectrophotometer
Micro-Spectrophotometer measures light absorbance in micro-volume samples, combining spectrophotometry and microscopy without cuvettes. When selecting a suitable model, it's essential to consider the specific requirements of your research or application. These compact instruments are best suited for analyzing very small sample volumes, such as nucleic acids, proteins, or dyes, making them popular in molecular biology, biochemistry, and forensic labs. Key selection criteria include wavelength range (typically from 190 to 1100 nm), pathlength options, sample volume requirements (often as low as 0.5 to 2.0 µL), and detection limits for DNA, RNA, and protein quantification. Consider models providing multiple detection modes (absorbance, fluorescence), touchscreen interface, built-in analysis software, and data storage/export capabilities for ease of use and reporting. Certifications such as CE, ISO, or RoHS compliance add assurance of quality and safety, especially for regulated lab environments. Additionally, some advanced models provide full-spectrum scanning, temperature control, and microvolume cuvette compatibility, expanding their use for kinetic and thermal studies. Evaluate these features based on your experimental workflow, regulatory needs, and budget to make the best choice.
Understanding Micro-Spectrophotometer: Purpose, Process, and Benefits
Micro-Spectrophotometeris an optical instrument designed to measure the absorbance, transmittance, reflectance, or fluorescence of microscopic samples across a broad range of wavelengths, typically in the ultraviolet, visible, and near-infrared spectrum. It is capable of analyzing microscopic areas directly on slides or wafers, making them ideal for non-destructive analysis in high-precision environments.
Our Spectrophotometer is engineered with advanced optical, imaging, and software capabilities that enable precise measurements on small or valuable samples. Below are some of the core features that set them apart;
Microscopic Sample Targeting
Broad Wavelength Range
Dual Functionality
Non-Contact, Non-Destructive
High Spatial and Spectral Resolution
Micro-Spectrophotometer is widely used in both research and industrial environments where high precision and minimal sample consumption are crucial. In life sciences and biomedical research, they enable the analysis of single cells, DNA spots, and protein microarrays without the need for dyes or labels. The semiconductor and microelectronics industries use them to evaluate thin film thickness, uniformity, and material properties in microcircuit components. In pharmaceutical analysis, Micro-Spectrophotometer help to measure active pharmaceutical ingredients (APIs) in micro-tablets, crystals, and formulations. Forensic scientists rely on them to examine paint chips, textile fibers, or biological stains at a microscopic level. In material science, they support the study of multilayer coatings, polymers, and nanomaterials to assess optical performance. The field of cultural heritage and art restoration benefits from non-invasive pigment analysis on tiny fragments of historical artifacts, while environmental scientists use Micro-Spectrophotometer to detect trace contaminants or particles on filters and surfaces with exceptional accuracy.