In Situ Constructing a Catalytic Shell for Sulfur Cathode via Electrochemical Oxidative Polymerization.

Sluggish multiphase reaction kinetics and severe shuttle effect of lithium polysulfides (LiPSs) are two major challenges facing lithium-sulfur (Li-S) batteries, which largely prevent them from becoming a reality. Herein, a shell with catalytic function for sulfur cathode is in situ constructed through an ingenious electrochemical oxidative polymerization strategy by introducing hexafluorocyclotriphosphazene (HFPN) as additives, which suppresses the shuttle effect and promotes efficient sulfur conversion. The shell with abundant heteroatoms effectively confines polysulfides to the cathode matrix by chemically interacting with them to eliminate capacity degradation. Moreover, the shell exhibits high catalytic activities, which turns Li2S(2) into an activated state and facilitates its dissociation. The functionalized shell substantially advances the performance of Li-S batteries, thanks to efficient lithium-ion transportation and abundant adsorption-catalytic sites. As a result, Li-S batteries demonstrate superb resistance to self-discharge, ultrastable cycle performance, and greatly enhanced rate capability. Impressively, the batteries show an ultralow capacity decay rate of 0.034% throughout 700 cycles at 2C. They deliver a capacity of 517 mAh g-1 even at a 4C rate, exhibiting relieved electrochemical polarization and excellent sulfur utilization. This work provides an ingenious strategy to construct adsorption-catalytic nets for next-generation Li-S batteries with enhanced lifespan and electrochemical performance.

[Effect of mastoparan-1 on lipopolysaccharide-induced acute hepatic injury in mice].

OBJECTIVE: To observe the effect of mastoparan-1 (MP-1) on lipopolysaccharide (LPS)-induced acute hepatic injury in mice and probe into its possible mechanism. METHODS: One hundred and four BALB/c mice were randomly divided into healthy control group (n = 8, without treatment, HC), LPS group (n = 48, with injection of LPS 5 mg/kg via tail vein), and MP-1 group (n = 48, with injection of LPS 5 mg/kg and MP-1 3 mg/kg via tail vein). Mice in LPS group and MP-1 group were sacrificed at 2nd, 6th, 12th, 24th, 48th and 72nd post injection hour (PIH), 8 mice at each time point in each group. Blood samples were collected for determination of plasma levels of LPS by kinetic turbidimetric limulus test, TNF-alpha and IL-6 by ELISA, serum levels of ALT and AST by automatic biochemistry analyzer respectively. Hepatic tissue samples were collected for determination of TLR4, TNF-alpha and IL-6 mRNA by real-time fluorescent quantitation reverse transcription polymerase chain reaction, along with the observation of pathological changes in hepatic tissue at each time point. Above-mentioned examinations were also performed in HC group. RESULTS: Compared with those of HC group, plasma levels of LPS and TNF-alpha in LPS group significantly increased at 2nd PIH (18,320.50 +/- 2782.50 EU/mL and 988 +/- 130 ng/L, respectively), then decreased gradually to 1.80 +/- 0.80 EU/mL and 150 +/- 44 ng/L at 72nd PIH, which was close to those of HC group. The values of IL-6, ALT and AST peaked at 12th PIH, which declined to the levels close to those of HC group at 72nd PIH. Meanwhile, the expressions of TLR4, TNF-alpha and IL-6 mRNA in liver were remarkably up-regulated after injection, and the pathological changes in hepatic tissue pronounced significantly at 12th, 24th and 48th PIH. Compared with those of LPS group, the levels of LPS, cytokines, ALT and AST decreased in MP-1 group in different degrees after injection (P < 0.05 or P < 0.01), genes expression (P < 0.05 or P < 0.01) and pathological changes was respectively suppressed and alleviated in hepatic tissue. CONCLUSIONS: MP-1 can alleviate LPS-induced acute hepatic injury in mice, which may be associated with its neutralization of LPS and attenuation of synthesis and release of inflammatory mediators.

[Improving myocardial mechanics parameters of severe burn rabbits with oral fluid resuscitation].

OBJECTIVE: To investigate the protective effect of oral fluid resuscitation on cardiac function in severe burn rabbits. METHODS: One hundred and fifty rabbits were randomly divided into normal control group (NC group, n = 6, without treatment), burn group (B group, n = 42, without fluid therapy), immediate oral fluid resuscitation group (C group, n = 42), delayed oral fluid resuscitation group (D group, n = 30) and delayed and rapid oral fluid resuscitation group (E group, n = 30). The rabbits in B, C, D, E groups were subjected to 40% TBSA full-thickness burn, then were treated with fluid therapy immediately after burn (C group), at 6 hour after burn (D, E groups). The myocardial mechanics parameters including mean arterial pressure (MAP), left ventricular systolic pressure (LVSP), left ventricular end diastolic pressure (LVEDP), LV +/- dp/dt max were observed at 2, 6, 8, 12, 24, 36 and 48 post burn hour (PBH). Urine output was also examined. RESULTS: The level of LVSP, LV +/- dp/dt max in B roup were significantly lower than those in NC group. The level of LVSP, LV +/- dp/dt max in the C and E group were singnificantly increased during 24 hour after burn. The level of LV + dp/dt max and LV-dp/dt max in C group peaked at 8 PBH (892 +/- 116 kPa/s) and at 6PBH (724 +/- 149 kPa/s) respectively. The levels of LV +/- dp/dt max, LVSP in D group at each time point were similar to B group (P > 0.05). Both the levels of LV +/- dp/dt max in E group peaked at 8 PBH. The level of LVEDP was no obvious difference between B and other groups at each time point (P > 0.05). The changes of MAP and urine output on 24 PBH in each group were similar to above indices. CONCLUSION: Effective oral fluid therapy in severe burn rabbits during 24 hours after burn can ameliorate myocardial mechanics parameters. The amount of fluid resuscitation can be estimated according to relevant formula for delayed fluid resuscitation in burn rabbits.

[The protective effect of high density lipoprotein on the lung function of rats with severe burns].

OBJECTIVE: To explore the protective effect of high density lipoprotein on the lung function of rats with severe burns. METHODS: One hundred and thirty-five Wistar rats were employed in the study and were randomly divided into control (n = 15, without injury), burn (n = 60, with 30% TBSA full-thickness burn on the back) and experimental [(n = 60, with the injection of HDL (80 mg/kg) via the caudal vein immediately after burns)] groups. The rats in the latter two groups were resuscitated with intraperitoneal isotonic saline (50 ml/kg) 30 minutes after burns. The serum content of ICAM-1 and TNF-alpha as well as the blood content of PCO2 and PO2 of the rats in burn and experimental groups were determined at 12, 24, 48 and 72 post-burn hours (PBH) and in control group. The pathological changes in the lung tissue of the rats in all groups were observed under light microscope and electronic microscope at 48 PBH. RESULTS: PCO2 and the contents of ICAM-1 and TNF-alpha in burn group were significantly higher, but the PO2 was lower than those in control group at each time-point (P < 0.05 or P < 0.01). There were no obvious differences in the above indices between the experimental and control groups (P > 0.05), but the ICAM-1 and TNF-alpha levels in experimental group were markedly decreased than those in burn group at each time-point (P < 0.05 or P < 0.01). The ICAM-1 and TNF-alpha contents in burn group at 48 PBH were (3.42 +/- 0.25) microg/L and (4. 04 +/- 0.28) ng/L, respectively, which were markedly higher than those in experimental group [(2.24 +/- 0.14) microg/L, (3.35 +/- 0.22) ng/L, P < 0.05 or P < 0.01]. Dilation of capillaries, congestion and inflammatory infiltration in the pulmonary capillaries, and loosening of conjunction between pulmonary capillary vascular endothelial cells and endothelial swelling were observed in burn group at 48 PBH. Compared with the burn group, the injury was markedly alleviated in the experiment group, and the pulmonary capillary endothelial cells showed tighter junction. CONCLUSION: HDL exhibits a protective effect on the lung function of rats with severe burns via reducing the expression of ICAM-1 and TNF-alpha.

[The protective effect of high density lipoprotein on the cardiac function of rats with severe burns].

OBJECTIVE: To investigate the protective effect of high density lipoprotein on the cardiac function of rats with severe burns. METHODS: One hundred and thirty-five Wistar rats were employed in the study and were randomly divided into control (n = 15, without treatment), burn (n = 60, with 30% TBSA full-thickness burn on the back) and experimental (n = 60, with the injection of HDL (80 mg/kg) via the caudal vein immediately after burns) groups. The rats in the groups with burn injury were resuscitated with intraperitoneal isotonic saline (50 ml/kg) 30 minutes after burn (PBM). The serum contents of CK, ICAM-1 and TNF-alpha of the rats of all the three groups were determined with corresponding methods. The histological changes in the cardiac muscle tissue of the rats in all groups were observed under light microscope and electronic microscope. RESULTS: The serum contents of CK, ICAM-1 and TNF-alpha in the control group were obviously lower than those in burn group (P < 0.01), while those in experimental group were also markedly lower than those in control group (P < 0.05 or 0.01). The average reduction rate was 36.5%, 32.0% and 12.6%, respectively. The size and the structure of the cardiac muscular fiber in the control group were even and normal. Compared with the burn group, degeneration, inflammatory infiltration and mitochondrial swelling were found to be less marked in the experimental group at 48 PBH, and no focal lysis and necrosis were found, which were observed in the burn group. CONCLUSION: High density lipoprotein can be beneficial to the protection of cardiac tissue in protecting from secondary injury in rats with severe burns.