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Total 13 articles

Category:Separation of cells and biological samplesClear

2026-04-28

Laboratory centrifuge selection guide: a complete judgment method from sample type, speed, capacity to rotor configuration

This article focuses on laboratory centrifuge selection and explains how laboratory leaders, procurement personnel and method developers can establish executable laboratory centrifuge selection and use plans from the perspectives of sample type, RCF/RPM, capacity throughput, temperature control protection, rotor consumables, safety maintenance and procurement verification.

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2026-04-28

How to choose a high-speed centrifuge: core differences in speed, centrifugal force, rotor radius and application scenarios

This article focuses on high-speed centrifuge selection and explains how to establish executable high-speed centrifuge selection and use plans in molecular biology, protein experiments, and university scientific research laboratories from the perspectives of sample type, RCF/RPM, capacity throughput, temperature control protection, rotor consumables, safety maintenance, and procurement verification.

Separation of cells and biological samples Pharmaceutical R&D Center

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2026-04-28

Refrigerated centrifuge selection guide: temperature control range, cooling speed, sample protection and maintenance points

This article focuses on refrigerated centrifuge selection and explains how scientific research, clinical and pharmaceutical laboratories that handle temperature-sensitive samples can establish an executable refrigerated centrifuge selection and usage plan from the perspectives of sample type, RCF/RPM, capacity throughput, temperature control protection, rotor consumables, safety maintenance and procurement verification.

Separation of cells and biological samples Pharmaceutical R&D Center Clinical testing and diagnosis

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2026-04-28

Which experiments are suitable for low-speed centrifuges: clinical testing, cell precipitation and routine sample processing solutions

This article focuses on the application of low-speed centrifuges and explains how clinical laboratory departments, basic laboratories and routine testing centers can establish executable low-speed centrifuge selection and usage plans from the perspectives of sample type, RCF/RPM, capacity throughput, temperature control protection, rotor consumables, safety maintenance and procurement verification.

Clinical testing and diagnosis Separation of cells and biological samples

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2026-04-28

What is the difference between RCF and RPM: Complete instructions for centrifugal force conversion, experimental replication, and method transfer

This article focuses on the differences between RCF RPM and explains from the perspectives of sample type, RCF/RPM, capacity flux, temperature control protection, rotor consumables, safety maintenance and procurement verification, how experimenters who need to reproduce experimental methods, transfer SOPs or replace equipment can establish executable RCF and RPM selection and use plans.

Separation of cells and biological samples Clinical testing and diagnosis Pharmaceutical R&D Center

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2026-04-28

How to choose a centrifuge rotor: fixed angle rotor, swing rotor, adapter and centrifuge tube compatibility

This article focuses on centrifuge rotor selection and explains how laboratories that need to replace rotors, expand consumable specifications or establish a multi-method platform can establish an executable centrifuge rotor selection and usage plan from the perspectives of sample type, RCF/RPM, capacity flux, temperature control protection, rotor consumables, safety maintenance and procurement verification.

Clinical testing and diagnosis Separation of cells and biological samples Pharmaceutical R&D Center

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2026-04-28

How to choose a centrifuge tube: key indicators of capacity, material, temperature resistance, centrifugal force resistance and sealing

This article focuses on centrifuge tube selection and explains how sample preprocessing, consumable procurement and experimental SOP developers can establish an executable centrifuge tube selection and usage plan from the perspectives of sample type, RCF/RPM, capacity flux, temperature control protection, rotor consumables, safety maintenance and procurement verification.

Clinical testing and diagnosis Separation of cells and biological samples Environmental monitoring analysis

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2026-04-28

Nucleic acid and protein experimental centrifuge configuration: high speed, freezing, micro-sample and temperature control protection

This article focuses on the configuration of nucleic acid and protein experimental centrifuges, and explains how molecular biology, proteomics and biopharmaceutical laboratories can establish executable nucleic acid centrifuge selection and use plans from the perspectives of sample type, RCF/RPM, capacity throughput, temperature control protection, rotor consumables, safety maintenance and procurement verification.

Separation of cells and biological samples Pharmaceutical R&D Center

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