Micro sampling method for 2mL transparent full recovery sample bottle
I. Introduction
In the
realms of microanalysis, pharmaceutical research, environmental monitoring, and
life sciences, where precision and sustainability are paramount, achieving
accurate sample collection and complete recovery is crucial for ensuring
experimental outcomes and environmental responsibility. The 2mL transparent,
fully recyclable sample vials with injection ports, renowned for their high
transparency facilitating observation, precise graduation design, and
eco-friendly recyclability, have emerged as the tool of choice for
microsampling. This article delves into the microsampling methods utilizing these
vials, examining their technical advantages, and outlining operational steps
and considerations in practical applications.
II. Technical Advantages
1.High
Transparency: Manufactured from high-transparency materials, allowing for easy
observation of sample status and ensuring error-free sampling.
2.Precise
Graduation: Clear and accurate graduations on the bottle body facilitate
precise control of sample volumes, minimizing errors.
3.Full
Recovery Rate: Designed with complete recovery in mind, reducing waste and
aligning with environmental principles.
4.Durability
& Sealability: Premium materials ensure durability and excellent sealing
performance, preventing sample contamination or evaporation.
5.Broad
Compatibility: Suitable for microsampling a wide range of liquids and solids,
catering to diverse experimental requirements.
III. Microsampling Procedures
1.Preparation:
Ensure the sample vial is clean and free from contamination, and check that the
graduations are clear and readable. Select appropriate sampling tools such as a
micropipette based on experimental needs.
2.Sampling
Operation:
1)Use a
micropipette to accurately aspirate the desired amount of sample, taking care
to avoid bubble formation.
2)Slowly
dispense the sample into the vial, observing the graduations to ensure accurate
sample volumes.
3)Quickly
seal the vial to prevent sample evaporation or contamination.
3.Recording
& Labeling: Record information such as sampling time, sample name, and
volume, and affix appropriate labels to the vial for easy tracking in
subsequent experiments.
4.Storage
& Transportation: Choose suitable storage conditions based on sample
properties to ensure sample integrity during transportation.
IV. Precautions
1.Prior
to sampling, ensure compatibility between vial material and sample to prevent
chemical reactions.
2.Wear
protective gear, such as gloves and lab coats, during operations to safeguard
personal safety.
3.Promptly
clean sampling tools after use to prevent cross-contamination.
4.Store
vials in a dry, cool place, avoiding direct sunlight and high temperatures.
Post time: 2024-07-13