Chemical profiles and identification of key compound caffeine in marine-derived traditional Chinese medicine Ostreae concha.

To compare the chemical differences between the medicinal and cultured oyster shells, their chemical profiles were investigated. Using the ultra performance liquid chromatography-electron spraying ionization-mass spectrometry (UPLC-ESI-MS), combined with principal component analysis (PCA) and orthogonal projection to latent structures discriminant analysis (OPLS-DA), the discrimination of the chemical characteristics among the medicinal and cultured oyster shells was established. Moreover, the chemometric analysis revealed some potential key compounds.

Eliminating carcinogenic pollutants in environment: reducing the tobacco specific nitrosamines level of smoke by zeolite-like calcosilicate.

Trapping carcinogens such as tobacco-specific nitrosamines (TSNA) in environmental tobacco smoke (ETS) is a challenge for the application of zeolite in environment protection because most TSNA exist in the particles whose size exceed the micropores of zeolites. In this paper, a new strategy to intercept the particles and to trap the TSNA in smoke by use of the porous calcosilicate material with fiber-like morphology plus two-dimensional eight-ring channel system is depicted and assessed. Owing to the specific fiber-like morphology and chemical composition, zeolite-like calcosilicate CAS-1 can effectively intercept the particles and thus reduces the TSNA level of mainstream smoke in the range of 30-60% once it is added into the cigarette filter, which is superior to zeolite NaA additive with the same amount.