Single-atom site catalysts for environmental remediation: Recent advances.

Single-atom site catalysts (SACs) can maximize the utilization of active metal species and provide an attractive way to regulate the activity and selectivity of catalytic reactions. The adjustable coordination configuration and atomic structure of SACs enable them to be an ideal candidate for revealing reaction mechanisms in various catalytic processes. The minimum use of metals and relatively tight anchoring of the metal atoms significantly reduce leaching and environmental risks. Additionally, the unique physicochemical properties of single atom sites endow SACs with superior activity in various catalytic processes for environmental remediation (ER). Generally, SACs are burgeoning and promising materials in the application of ER. However, a systematic and critical review on the mechanism and broad application of SACs-based ER is lacking. Herein, we review emerging studies applying SACs for different ERs, such as eliminating organic pollutants in water, removing volatile organic compounds, purifying automobile exhaust, and others (hydrodefluorination and disinfection). We have summarized the synthesis, characterization, reaction mechanism and structural-function relationship of SACs in ER. In addition, the perspectives and challenges of SACs for ER are also analyzed. We expect that this review can provide constructive inspiration for discoveries and applications of SACs in environmental catalysis in the future.

[Correlation of B-type Natriuretic Peptide Level with Hemodynamic Parameters and Inflammatory Cytokines in Patients with Gram-negative Sepsis].

Objective To study the correlation of B-type natriuretic peptide(BNP)level with hemodynamic parameters and inflammatory cytokines in patients with Gram-negative sepsis,and further determine the main factors for the significant increase of BNP level. Methods The prospective study method was applied,and septic patients infected with Gram-negative bacteria from May 2017 to October 2019 were enrolled.The patients were divided into the BNP<2400 ng/L group and the BNP≥2400 ng/L group by taking the average value of BNP as the dividing point.The independent predictors of BNP≥2400 ng/L were analyzed by Logistic regression.Pearson correlation analysis was used to analyze the correlation between BNP and various indicators. Results A total of 106 patients with Gram-negative sepsis were included,among which 60 cases present with higher serum BNP levels than the average of(2398.45 ± 421.45)ng/L.Thus BNP≥2400 ng/L was considered as a significantly increased BNP level.Multiple logistic regression analysis showed that cardiac index(CI)[odds ratio (OR)=0.428,95% confidence interval (95%CI)=0.743-0.965,P=0.011],left ventricular ejection fraction(LVEF) (OR=0.394,95%CI=0.182-0.549,P=0.013),lactic acid (OR=1.983,95%CI=1.264-3.420,P=0.023),endotoxin (OR=6.146,95%CI=4.091-8.226,P=0.001),procalcitonin(PCT) (OR=6.513,95%CI=4.365-8.210,P=0.005) and cardiac troponin I(cTnI) (OR=1.144,95%CI=1.001-2.150,P=0.047) were independent predictors of BNP≥2400 ng/L in patients with Gram-negative sepsis.Pearson correlation analysis showed that BNP was negatively correlated with CI(R=-0.514,P<0.001)and LVEF (R=-0.552,P<0.001),whereas positively correlated with lactic acid (R=0.265,P=0.032),cTnI (R=0.204, P=0.036),PCT(R=0.801,P<0.001),and endotoxin(R=0.765,P<0.001). Conclusions In septic patients with Gram-negative bacterial infection,LVEF,CI,lactic acid,cTnI,endotoxin and PCT are all independent risk factors for the significant increase of BNP,and endotoxin and PCT were more significantly correlated with BNP increase.Endotoxin and inflammatory reaction may be the more important stimulators of BNP increase in septic patients with Gram-negative bacterial infection.