βOH-2C-B Pellets – 60mg

Overview of βOH-2C-B Pellets

βOH-2C-B Pellets are the pelletized form of a beta-hydroxylated phenethylamine structurally related to the 2C-series. Compounds in this family are widely examined in analytical chemistry, forensic science, and academic research because subtle structural modifications—such as beta-hydroxylation—can significantly influence analytical behavior. On chemsmixlab.com, βOH-2C-B Pellets are provided strictly as a laboratory reference material for controlled scientific study.

In professional research contexts, the term βOH-2C-B Pellets research chemical refers to a non-pharmaceutical compound used for analytical comparison, method development, and educational training. The pellet format enables standardized handling and reduces variability during sample preparation, which is beneficial for laboratories that require consistency and reproducibility.

Chemical Classification and Structural Characteristics

βOH-2C-B is classified within the substituted phenethylamine group, featuring a phenethylamine backbone with ring substitutions characteristic of the 2C series and a hydroxyl group at the beta position of the side chain. This beta-hydroxy substitution alters polarity, hydrogen-bonding potential, and chromatographic behavior compared to non-hydroxylated analogs.

General chemical characteristics include:

• Chemical class: Beta-hydroxylated substituted phenethylamine

• Core structure: Aromatic ring with ethylamine side chain

• Functional group: Beta-hydroxyl (–OH)

• Physical form: Solid pellets

• Appearance: Off-white to light tan pellets

• Solubility: Soluble in appropriate laboratory-grade solvents

• Stability: Stable under recommended laboratory storage conditions

The pelletized form supports precise handling and consistent analytical preparation.

Laboratory and Analytical Applications

βOH-2C-B Pellets are used exclusively in laboratory, forensic, and academic research environments. Reference compounds like this are essential for laboratories studying structural variations within phenethylamine families.

Common laboratory applications include:

• Development and validation of analytical methods

• Generation of chromatographic and mass spectral reference data

• Comparative studies between beta-hydroxylated and non-hydroxylated phenethylamines

• Training of laboratory personnel and students

• Expansion of forensic and analytical reference libraries

Using a βOH-2C-B Pellets research chemical helps laboratories maintain precision, reproducibility, and scientific rigor in analytical investigations.

Analytical Identification Techniques

Accurate identification and characterization of βOH-2C-B Pellets rely on established analytical techniques. Most laboratories employ multiple complementary methods to ensure confident identification.

Liquid Chromatography–Mass Spectrometry (LC-MS)

LC-MS is well suited for beta-hydroxylated phenethylamines, offering high sensitivity and accurate molecular mass determination. It also provides characteristic fragmentation patterns useful for compound differentiation.

Gas Chromatography–Mass Spectrometry (GC-MS)

GC-MS generates reproducible retention times and detailed fragmentation spectra. Beta-hydroxy substitutions can influence fragmentation pathways, making GC-MS valuable for comparative analysis.

Fourier-Transform Infrared Spectroscopy (FTIR)

FTIR analysis helps identify functional groups, including the hydroxyl group, and confirms the aromatic and aliphatic components of the molecule.

Nuclear Magnetic Resonance (NMR) Spectroscopy

NMR provides detailed structural confirmation and is commonly used in academic and advanced forensic laboratories to verify substitution patterns and side-chain modifications.

Together, these techniques establish a comprehensive analytical profile for βOH-2C-B Pellets.

Importance in Forensic and Academic Research

Beta-hydroxylated phenethylamines such as βOH-2C-B are important in forensic and academic research because they represent structural variants that can significantly affect analytical outcomes. Access to reliable reference materials allows researchers to:

• Accurately identify unknown samples

• Improve analytical databases and spectral libraries

• Train laboratory staff using realistic reference compounds

• Prepare for emerging analytical challenges

A properly documented βOH-2C-B Pellets research chemical supports credible, repeatable, and defensible laboratory conclusions.

Handling and Laboratory Safety

Strict laboratory safety protocols must be followed when working with βOH-2C-B Pellets.

Recommended safety measures include:

• Wearing gloves, lab coat, and eye protection

• Handling the compound only in controlled laboratory settings or fume hoods

• Avoiding inhalation, ingestion, or direct skin contact

• Using calibrated tools for weighing and sample preparation

Clear labeling, proper documentation, and restricted access are essential for maintaining laboratory safety and compliance.

Storage and Stability Guidelines

Proper storage conditions help preserve compound integrity and analytical reliability over time.

Best practices for storage include:

• Airtight, chemically compatible containers

• Cool, dry, and dark storage environments

• Protection from moisture, heat, and direct light

• Access limited to trained research personnel

Following these guidelines ensures long-term stability of βOH-2C-B Pellets for research use.

Legal and Regulatory Considerations

The legal status of βOH-2C-B may vary by jurisdiction. Laboratories are responsible for ensuring compliance with all applicable local, national, and institutional regulations before acquiring, storing, or analyzing this compound.

ChemsMixLab provides research-focused educational information only and does not support misuse or non-research activities.

Selecting Reliable Research Compounds

When sourcing substituted phenethylamine reference materials, laboratories should evaluate:

• Verified purity and analytical documentation

• Batch-to-batch consistency

• Compatibility with laboratory instrumentation

• Compliance with regulatory and institutional requirements

A dependable βOH-2C-B Pellets research chemical supports accurate data generation and meaningful scientific outcomes.

Conclusion

βOH-2C-B Pellets are a specialized beta-hydroxylated phenethylamine intended solely for laboratory, analytical, and educational research. Their primary value lies in supporting compound identification, analytical method development, and professional training within controlled research environments.

When handled responsibly and analyzed using established techniques, βOH-2C-B Pellets contribute valuable reference data to forensic science and analytical chemistry. ChemsMixLab remains committed to providing clear, ethical, and research-focused content to support legitimate scientific work.