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| N205 | |
|---|---|
| Name | N205 |
N205 N205 is presented here as a designated chemical entity identified by the label N205 in laboratory catalogues, technical reports, and industrial specifications. The entry summarizes its systematic designation, measured chemical and physical parameters, preparative routes, principal applications across sectors, safety profiles, environmental behaviour, and the principal regulatory frameworks that govern its manufacture, transport, and use.
The designation N205 functions as a catalog or registry identifier used in technical datasheets, procurement lists, and standards documents issued by bodies such as International Organization for Standardization, American Society for Testing and Materials, and industry consortia associated with European Chemicals Agency. Synonyms and trade names are tracked by registries like Chemical Abstracts Service and product catalogues from firms including BASF, Dow Chemical Company, DuPont, Solvay, and Evonik Industries. In patent literature filed through offices such as the United States Patent and Trademark Office, European Patent Office, and Japan Patent Office, N205 appears alongside IUPAC-style names and systematic identifiers adopted in technical claims. Nomenclature crosswalks appear in monographs from United Nations Economic Commission for Europe transport committees and in safety data compilations by Occupational Safety and Health Administration and Health and Safety Executive guidance.
Empirical determinations referenced in material safety data sheets supplied by manufacturers including Merck Group, Sigma-Aldrich (Merck) and Thermo Fisher Scientific list key parameters for N205: molecular formula, molar mass, appearance, density, melting and boiling points, and solubility in solvents such as water, acetone, methanol, and toluene. Spectroscopic characterizations are reported in journals published by American Chemical Society, Royal Society of Chemistry, and Elsevier imprints, including NMR, IR, UV–Vis, and mass spectrometry data. Physical constants are used by standards committees at National Institute of Standards and Technology and by certification bodies such as Underwriters Laboratories to establish material specifications for industrial use. Crystal structure determinations, when available, are deposited in databases maintained by Cambridge Crystallographic Data Centre and summarized in reviews from Royal Society publications.
Commercial production pathways for N205 are described in technical bulletins from producers like Honeywell, Mitsubishi Chemical, and LG Chem. Synthetic routes reported in peer-reviewed articles in journals from Wiley-VCH and Springer Nature include multi-step organic transformations, catalytic procedures employing catalysts from Johnson Matthey catalogs, or flow-chemistry adaptations promoted by innovators associated with MIT, Stanford University, and ETH Zurich. Process safety analyses and scale-up case studies appear in proceedings from American Institute of Chemical Engineers conferences and in best-practice guides from International Labour Organization and World Health Organization technical documents.
N205 finds use in sectors documented by market research firms such as McKinsey & Company, Bloomberg, and Frost & Sullivan: formulations in specialty chemicals supplied to Bayer, 3M, and Henkel; intermediates in fine-chemical synthesis for pharmaceuticals marketed by Pfizer, Novartis, and Roche; additives for industrial processes used by Siemens and General Electric subsidiaries; and components in materials sold to Toyota, Volkswagen, and Tesla. Application notes and case studies appear in trade journals like Chemical & Engineering News and Industrial & Engineering Chemistry Research. Patents assigned to corporations including Samsung and Canon describe niche uses of N205 in electronic materials and coatings.
Safety data compiled by Centers for Disease Control and Prevention, European Chemicals Agency, and corporate EHS departments outline recommended engineering controls, personal protective equipment from suppliers such as 3M Personal Safety Products and Honeywell Safety Products, and first-aid measures. Occupational exposure limits referenced in documentation from National Institute for Occupational Safety and Health and American Conference of Governmental Industrial Hygienists are consulted when implementing workplace monitoring programs. Incident reports and hazard analyses in journals like Journal of Hazardous Materials and reports by Transport Canada inform emergency response planning and transportation classifications under rules from International Maritime Organization and International Air Transport Association.
Life-cycle assessments prepared by research groups at Imperial College London, ETH Zurich, and Purdue University evaluate N205’s persistence, bioaccumulation potential, and degradation pathways in environments studied by Environmental Protection Agency (United States), European Environment Agency, and academic articles in Environmental Science & Technology. Data on aquatic toxicity, soil mobility, and atmospheric fate are used in environmental risk assessments filed with European Chemicals Agency and in regional assessments by agencies such as Environment and Climate Change Canada and Australian Department of Agriculture, Water and the Environment.
Regulatory classifications and permissible uses of N205 are codified in statutes and guidance from European Chemicals Agency, United States Environmental Protection Agency, Health Canada, and regulatory frameworks within China National Chemical Information Center filings. Standards-setting organizations such as International Organization for Standardization, American Society for Testing and Materials, and national standards bodies publish testing methods and specifications that reference N205. Compliance programs from multinational companies and certification bodies including ISO auditors and SGS validate adherence to limits and labeling requirements.
Category:Chemical substances