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Nitromide – Reference Materials for Residue Analysis
Nitromide Precision Reference Materials for Confident Residue Analysis
Elevate your pesticide residue workflows with HPC Standards Nitromide reference materials. Produced under stringent international quality requirements, our solutions enable precise identification, quantification, and confirmation in food and environmental matricesideal for method development, routine monitoring, and regulatory compliance. Choose from neat materials, ready-to-use single-analyte solutions, and custom mixes with matrix-appropriate solvents and tight concentration uncertainties. Benefit from full documentation CoA, SDS, global temperature-controlled shipping, and expert technical supportincluding calibration guidance, isotopically aided quantification options, and stability best practices. Configure Nitromide standards tailored to your target lists and reporting limits for audit-ready, reproducible results.
Product | Catalog No./ CAS No. | Quantity | Price | |
|---|---|---|---|---|
ISO 17034 Reference Material |  | 693331 | 1X5MG | |
ISO 17034 Certified Reference Material 13C6-Nitromide solution |  | 693332 | 1X1ML | |
ISO 17034 Reference Material |  | 693288 | 1X250MG | |
ISO 17034 Certified Reference Material Nitromide solution |  | 693289 | 1X1ML |
HPC Standards supplies reliable reference materials for Nitromide to support precise identification, quantification, and confirmation in food and environmental residue analysis. Our materials are produced under stringent quality requirements and are suitable for method development, routine monitoring, and regulatory compliance.
Overview
Nitromide is referenced in the context of pesticide residue control as a nitro-substituted organic compound historically associated with crop protection uses. In contemporary residue analytics, laboratories may encounter Nitromide in legacy contamination screenings, targeted monitoring programs, or retrospective data reviews.
Due to evolving regulations and phase-outs of older actives across regions, Nitromide is typically addressed in confirmatory workflows and non-target review lists, requiring trace-level detection capabilities and matrix-robust quantification.
Uses
Historically associated with pesticidal applications, Nitromide may appear in monitoring programs covering obsolete, legacy, or regionally restricted substances. Current industrial use cases are primarily analytical: reference method verification, proficiency testing, surveillance of imported goods, and environmental screening.
Analytical interest focuses on: presence/absence screening, compliance checks against regional residue definitions, and forensic investigations of off-label or historical applications.
Regulatory Status
Approval status for Nitromide varies by jurisdiction and may be restricted or obsolete in several markets. Laboratories should verify current status via regional databases (e.g., EU pesticide regulation databases, EPA resources, national MRL listings) before reporting and compliance decisions.
Where no MRL exists, default levels or action limits may apply. Ensure reporting aligns with local guidance on reporting limits, uncertainty budgets, and confirmatory criteria.
Monitoring
Typical monitoring contexts include: targeted pesticide multi-residue screens, legacy pesticide panels, environmental quality assessments (surface water, sediment, soil), and import control of plant-derived commodities.
Recommended approaches include matrix-validated methods, isotopically aided quantification when available, and adherence to confirmatory identification criteria (ion ratios, retention time tolerances, and orthogonal detection if required).
Analytical Methods
Instrumental techniques: LC–MS/MS is generally preferred for polar to mid-polar nitro-organics; GC–MS/MS may be applicable depending on thermal stability and derivatization feasibility. High-resolution MS supports retrospective analysis and spectral library confirmation.
Key method parameters: optimized ionization (ESI± as appropriate), selective MRM transitions or exact-mass fragments, matrix-matched calibration, and regular system suitability checks. Consider potential in-source transformations typical of nitro-functional compounds and validate for carryover and ion suppression.
Sample Preparation
Food matrices: QuEChERS-based workflows (citrate or acetate buffering) with tailored clean-up (PSA/C18/GCB as matrix dependent). Validate recoveries across commodities (high-water, high-acid, high-fat).
Environmental matrices: SPE or LLE for water; pressurized liquid extraction or ultrasonic extraction for soils/sediments, followed by appropriate clean-up (SPE normal/reverse phase). Evaluate method detection limits to meet regulatory or project thresholds.
Quality Control and Calibration
Implement full QC suites: calibration verification, continuing calibration checks, method blanks, fortified blanks, matrix spikes/duplicates, and recovery controls. Include internal standards or isotopically labelled analogues where available to correct for matrix effects and instrument variability.
Apply measurement uncertainty evaluation consistent with accreditation requirements and report LOQ/LCL per project specifications.
Health Impact – Human Toxicity
As a nitro-substituted organic compound potentially associated with pesticidal activity, Nitromide-related toxicological concerns can include general nitroaromatic risks such as irritation, possible methemoglobin formation pathways, and organ-specific effects depending on exposure level and duration. Actual risk is exposure-dependent.
Laboratory handling requires minimizing inhalation and dermal exposure, implementing engineering controls, and following SDS guidance. Do not extrapolate toxicology beyond validated sources; consult current toxicological assessments where available.
Environmental Impact – Effects on Wildlife
Environmental risks are governed by persistence, mobility, and toxicity profiles, which may vary with matrix conditions. Potential concerns include aquatic toxicity and impacts on non-target organisms if released. Environmental monitoring should account for degradation products where relevant.
Adopt best practices to prevent releases, including contained handling, compliant waste collection, and documented disposal pathways.
Safety Measures and Handling
Use in a chemical fume hood with suitable PPE (lab coat, gloves compatible with solvents, safety glasses). Avoid aerosol formation and ignition sources when handling organic solvents.
Follow the Safety Data Sheet for first-aid measures, spill response, and fire-fighting instructions. Train personnel on handling reference materials at trace levels to prevent cross-contamination.
Storage and Stability
Store Nitromide reference materials tightly closed in the original container, protected from light, at the temperature specified on the Certificate of Analysis (often refrigerated or frozen for long-term stability). Allow to reach room temperature before opening to prevent condensation.
Track open-vial stability and expiry. Prepare working solutions freshly or within validated stability windows; document all dilutions with traceable records.
Reference Materials from HPC Standards
HPC Standards provides Nitromide reference materials designed for quantitative residue analysis in food and environmental matrices. Offerings include neat materials (where applicable), ready-to-use single-analyte solutions, and custom mixtures at customer-specified concentrations.
Benefits: traceable purity assessment, tight concentration uncertainties, matrix-appropriate solvents, and option for isotopically labelled analogues where available. Each product is accompanied by a detailed Certificate of Analysis and SDS.
Accreditation and Documentation
Production and testing follow international quality requirements. Documentation includes Certificate of Analysis (concentration, purity, uncertainty, stability, traceability), Safety Data Sheet, and, where applicable, statements supporting ISO-conform method validation and proficiency testing.
Batch-specific data support audit readiness, method validation, and regulatory submissions.
Method Development Support
We provide guidance on solvent selection, concentration ranges for calibration, and compatibility with typical multi-residue workflows. Upon request, we assist with custom mixtures aligned to your target screening lists and reporting limits.
Technical support includes advice on storage, stability, and handling to preserve analyte integrity across its lifecycle in the laboratory.
Compliance and Reporting
Use matrix-matched calibration and appropriate internal standards to meet regulatory identification and quantification criteria. Ensure conformity with region-specific MRLs or action limits and maintain complete traceability for audits.
Adopt confirmatory identification thresholds (ion ratios, retention time windows, and secondary transitions) per recognized guidance documents.
Logistics and Availability
Global shipping with temperature-controlled options and tamper-evident packaging. Lead times for custom solutions are minimized through streamlined production. All shipments include complete documentation for rapid intake and use.
Contact our team for quotations, technical dossiers, or to configure matrix- and method-specific Nitromide reference materials tailored to your workflow.