3-CL-PCP

buy 3‑CL-PCP research chemical online– Analytical and Research Profile

3‑CL‑PCP, chemically known as 3-Chlorophenylcyclohexylamine, is a dissociative arylcyclohexylamine that has gained attention in analytical and forensic research. As a structural analogue of PCP (phencyclidine), it is part of a growing class of novel psychoactive substances (NPS), often studied in forensic labs, toxicology research, and analytical method development.

1. Chemical Identity & Classification of 3‑CL‑PCP analytical standard

3‑CL‑PCP is a member of the arylcyclohexylamine dissociative family, which includes PCP, ketamine, and various NPS analogues.

Chemical Overview

• IUPAC Name: 1-(3-chlorophenyl)-2-methylaminocyclohexane

• Molecular Family: Dissociative research chemical

• Class: Arylcyclohexylamine / PCP analogue

• Research Applications: Analytical studies, SAR comparison, forensic profiling, reference standard calibration

The 3-chloro substitution on the phenyl ring provides distinct chemical and spectral properties, making 3‑CL‑PCP valuable for instrument validation and analytical research.

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2. Analytical Relevance of high purity 3-chlorophenylcyclohexylamine

3‑CL‑PCP is increasingly utilized in analytical chemistry and forensic toxicology due to its:

• Forensic importance: Enables differentiation of PCP analogues in seized samples.

• Instrument calibration utility: Provides a stable reference for GC-MS, LC-MS/MS, and NMR analysis.

• Structure–Activity Relationship (SAR) insights: Supports research on dissociative potency, receptor binding, and chemical modifications.

• Metabolic profiling potential: Useful for identifying degradation pathways in experimental setups.

Its predictable and well-documented analytical behavior makes it a benchmark compound for laboratories studying dissociative NPS.

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3. Analytical Characteristics of high purity 3‑CL‑PCP for sale

Modern laboratories rely on 3‑CL‑PCP for precise identification and characterization, thanks to its clear spectroscopic and chromatographic profiles.

3.1 Mass Spectrometry (MS)

• Produces distinct fragmentation patterns under EI, ESI, and tandem MS.

• High-resolution MS (HRMS) enables accurate molecular formula determination, assisting in identification of novel analogues.

3.2 Chromatography

• GC-MS: Efficient for volatile, thermally stable samples; produces reproducible retention times.

• LC-MS/MS: Suitable for polar or labile compounds, providing sensitive detection for trace analysis.

• HPLC: Supports quantitative analysis and method validation.

3.3 Spectroscopy

• NMR: Confirms structural integrity, identifies positional isomers, and supports forensic verification.

• FTIR: Rapid functional group confirmation, often used for preliminary screening.

4. Laboratory Applications of 3‑CL‑PCP analytical standard

4.1 Forensic Identification

3‑CL‑PCP is used to:

• Confirm PCP analogue presence in forensic samples.

• Update early-warning substance libraries.

• Provide validated mass spectra for comparison in toxicology studies.

4.2 Analytical Method Development

Laboratories incorporate 3‑CL‑PCP in:

• Retention-time validation

• Fragmentation pattern benchmarking

• Chromatographic method optimization

4.3 SAR and Metabolic Studies

Researchers examine 3‑CL‑PCP to:

• Study chloro-substitutions on receptor binding affinity

• Explore comparative dissociative potency with other PCP analogues

• Investigate potential metabolic by-products for toxicology

5. Subtle 3‑CL‑PCP effects Overview 

While 3‑CL‑PCP is strictly for research use only, it is relevant in laboratory studies for its structurally informed effects:

• Dissociative profile: Serves as a reference for studying NMDA receptor binding in comparative assays.

• Potency comparison: Provides data for analogues like PCP, ketamine, and other substituted arylcyclohexylamines.

• Pharmacological relevance: Enables modeling of receptor interactions and dissociative pathways in controlled research environments.

Note: Any discussion of effects is strictly for analytical and academic study and not intended as human consumption guidance.

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6. Purity, Stability, and Handling Considerations

Maintaining high purity 3‑CL‑PCP for sale is essential for:

• Accurate chromatographic analysis

• Reproducible mass spectral data

• Reliable retention-time calibration

Stability Guidelines

• Protect from light, heat, and moisture

• Use airtight, light-resistant containers

• Store at controlled, cool temperatures for long-term integrity

These measures ensure consistent analytical performance in laboratory research.

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7. Safety and Storage Guidelines to buy 3‑CL-PCP research chemical online

3‑CL‑PCP must be handled using professional laboratory protocols:

• Wear gloves, lab coat, and protective eyewear

• Avoid inhalation and direct contact

• Store in a secure, dry, and cool environment

• Follow local and institutional safety regulations

This compound is for research and forensic use only. It is not intended for human or veterinary consumption.

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8. Subtle Advantages of Using Verified 3‑CL‑PCP Standards

Using high-quality 3‑CL‑PCP for laboratory work provides:

• Reliable Analytical Data: Ensures accurate GC-MS, LC-MS/MS, and NMR outputs

• Time Efficiency: Reduces repeated analyses due to inconsistent samples

• Regulatory Compliance: Supports proper documentation for institutional and legal standards

• Benchmarking Capabilities: Enables inter-laboratory consistency for forensic research

Reputable suppliers provide fully verified analytical standards, ensuring trusted performance and scientific integrity.

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9. Emerging Research Trends of 3‑CL‑PCP analytical standard

• AI-Assisted Spectral Analysis: Predicts fragmentation for new PCP analogues.

• Portable Analytical Devices: Rapid field detection via GC-MS or FTIR.

• Global Early-Warning Networks: Shared data accelerates identification of novel dissociatives.

• Metabolomic Studies: Enables detailed toxicology mapping of arylcyclohexylamines.

These developments further enhance 3‑CL‑PCP’s relevance as a research-focused reference standard.

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10. Conclusion

3‑CL‑PCP is a highly valuable dissociative research chemical for laboratories studying NPS, PCP analogues, and analytical toxicology. Its:

• Distinct chromatographic and mass spectral properties

• Reliable structural features for NMR and FTIR

• Utility in SAR studies, instrument calibration, and forensic research

make it an indispensable reference standard for academic and forensic work.

For researchers looking to enhance analytical accuracy, validate methods, and maintain rigorous scientific standards, 3‑CL‑PCP offers a reliable, high-quality solution, subtly presented with laboratory-use benefits.