SECTION 10: Stability and reactivity Reactivity Sensitive to air and light. (NTP, 1992). Oxidizes across carbon double bonds Chemical stability Easily oxidized by air. Possibility of hazardous reactions CombustibleLINOLEIC ACID reacts to neutralize bases. May react vigorously with oxidizing agents. May...
Stability and Reactivity of Aminotriacetic acid (CAS NO.139-13-9). Chemical Stability: Stable under normal temperatures and pressures. Conditions to Avoid: Incompatible materials. Incompatibilities with Other Materials Metals, strong oxidizing agents, strong bases. Hazardous Decomposition Products Nit...
The GC content of the clean reads was 44.00%–44.78%, and 91.91%–94.83% Q30 bases (Table S2). The clean reads were made freely available in the NCBI database (accession number: PRJNA79843). Between 90.12% and 92.76% of clean reads were mapped to the reference A. trifoliata genome (...
Chemically, DIPH belongs to antihistamines from the ethanolamine class, AZE is a phthalazine or methylazepane derivative, while for BEPO a metoxypiperidine moiety is essential (Figure 1). As far as their acid–base properties are concerned, DIPH and AZE are both the weak bases with pKa of ...