https://www.selleckchem.com/products/suzetrigine.html A higher Al uptake in CSH was observed at higher Ca/Si ratios, which indicates a stabilizing effect of calcium in the interlayer on Al uptake. The biogenic mackinawite (FeS) is a promising remover for hexavalent chromium. However, FeS is susceptible to aggregation, affecting the removal efficiency of Cr(VI). To address the aggregation of FeS, kaolinite was selected as the stabilizer to disperse biogenic FeS. Results showed that kaolinite could be used as a supporting material for biogenic FeS during the formation process, which efficiently decreased the aggregation of FeS. FeS-kaolinite enabled to increase the rate and capability of Cr(VI) removal, and the maximum removal capability of FeS-kaolinite reached 399 mg/g at pH 7, which was 2.4 times higher than that of FeS only. The optimal concentration of kaolinite was 3 g/L where the percentage of FeS on FeS-kaolinite was 5% (wt). The removal kinetic was well fitted with the pseudo-second-order model and Cr(VI) could be removed quickly and efficiently in the pH range of 3-8. The efficiency of Cr(VI) removal was not dependent on ionic strength (Cl-, 0.1-1000 mM), HA (5-20 mg/L) and co-existing cations (Ca2+, Zn2+,Cu2+, and Cd2+, 30 mM). Cr(VI) could be rapidly reduced to Cr(III) by FeS-kaolinite on the surface and Cr(III) was coprecipitated into Cr(OH)3 and CrxFe1-x(OH)3. This study suggests biogenic FeS-kaolinite is a good candidate for remediation of Cr(VI) contaminated environment. Social anxiety disorder (SAD) runs in families, but the neurobiological pathways underlying the genetic susceptibility towards SAD are largely unknown. Here, we employed an endophenotype approach, and tested the hypothesis that amygdala hyperreactivity to faces conditioned with a social-evaluative meaning is a candidate SAD endophenotype. We used data from the multiplex, multigenerational Leiden Family Lab study on Social Anxiety Disorder (eight families, n = 105) and investigated amyg