Your search keyword '"Xiao, Shujie"' showing total 10 results

1. Antimicrobial peptide antibiotics inhibit aerobic denitrification via affecting electron transportation and remolding carbon metabolism

Author

Wang, Na, Gao, Jie, Wang, Qiuying, Xiao, Shujie, and Zhuang, Guoqiang

Published

2022

2. Efficient polysulfide blocker from conductive niobium nitride@graphene for Li-S batteries

Author

Shi, Huifa, Sun, Zhenhua, Lv, Wei, Xiao, Shujie, Yang, Huicong, Shi, Ying, Chen, Ke, Wang, Shaogang, Zhang, Bingsen, Yang, Quan-Hong, and Li, Feng

Published

2020

3. Case study on the soil antibiotic resistome in an urban community garden

Author

Mafiz, Abdullah Ibn, Perera, Liyanage Nirasha, He, Yingshu, Zhang, Wei, Xiao, Shujie, Hao, Weilong, Sun, Shi, Zhou, Kequan, and Zhang, Yifan

Published

2018

4. SOC bioavailability significantly correlated with the microbial activity mediated by size fractionation and soil morphology in agricultural ecosystems.

Author

Xiao, Shujie, Gao, Jie, Wang, Qiuying, Huang, Zixuan, and Zhuang, Guoqiang

Subjects

*SOIL structure, *AGRICULTURE, *BIOAVAILABILITY, *CLAY soils, *CHEMICAL processes

Abstract

• SOC bioavailability significantly differed among soil particle-size fractions. • SOC bioavailability of fine sand increased by 200 %, whereas clay reduced by 60 % • The porosity of fine sand was 60% of clay. • Abundances of soil elements of clay were 6–30 times higher than fine sand. • Microbial activity, mediated by soil morphology, affected SOC bioavailability. Despite the fact that physical and chemical processes have been widely proposed to explicate the stabilization mechanisms of soil organic carbon (SOC), thebioavailability of SOC linked to soil physical structure, microbial community structure, and functional genes remains poorly understood. This study aims to investigate the SOC division based on bioavailability differences formed by physical isolation, and to clarify the relationships of SOC bioavailability with soil elements, pore characteristics, and microbial activity. Results revealed that soil element abundances such as SOC, TN, and DOC ranked in the same order as the soil porosity as clay > silt ≥ coarse sand > fine sand in both top and sub soil. In contrast to silt and clay, which had reduced SOC bioavailability, fine sand and coarse sand had dramatically enhanced SOC bioavailability compared to the bulk soil. The bacterial and fungal community structure was significantly influenced by particle size, porosity, and soil elements. Copiotrophic bacteria and functional genes were more prevalent in fine sand than clay, which also contained more oligotrophic bacteria. The SOC bioavailability was positively correlated with abundances of functional genes, C degradation genes, and copiotrophic bacteria, but negatively correlated with abundances of soil elements, porosity, oligotrophic bacteria, and microbial biomass (p < 0.05). This indicated that the soil physical structure divided SOC into pools with varying levels of bioavailability, with sand fractions having more bioavailable organic carbon than finer fractions. Copiotrophic Proteobacteria and oligotrophic Acidobacteria, Firmicutes, and Gemmatimonadetes made up the majority of the bacteria linked to SOC mineralization. Additionally, the fungi Mortierellomycota and Mucoromycota, which are mostly involved in SOC mineralization, may have the potential for oligotrophic metabolism. Our results indicated that particle-size fractionation could influence the SOC bioavailability by restricting SOC accessibility and microbial activity, thus having a significant impact on sustaining soil organic carbon reserves in temperate agricultural ecosystems, and provided a new research direction for organic carbon stability. [ABSTRACT FROM AUTHOR]

Published

2024

5. Reviving catalytic activity of nitrides by the doping of the inert surface layer to promote polysulfide conversion in lithium-sulfur batteries.

Author

Hao, Boyu, Li, Huan, Lv, Wei, Zhang, Yunbo, Niu, Shuzhang, Qi, Qi, Xiao, Shujie, Li, Jia, Kang, Feiyu, and Yang, Quan-Hong

Abstract

Lithium-sulfur batteries show great promise among future battery technologies, but their cycle life is mainly restricted by the shuttling effect of soluble lithium polysulfides (LiPSs). The catalytic conversion of LiPSs appears to be a fundamental way of suppressing this. The highly conductive metal nitrides show great potentials as high-performance catalysts, but the presence of a thin surface oxidation layer, which is normal for nanomaterials, restrains the surface electron transfer and catalytic activity. In this study, we demonstrate that the doping of the oxidation layer is an ideal solution to reviving and enhancing the catalytic activity of nitrides. As a proof of concept, sulfur-doping of a titanium nitride (TiN) oxidation layer is presented here, and the Ti S bonds formed are responsible for transmitting electrons from the conductive TiN matrix thus guaranteeing a high catalytic activity. Interfacing of Ti S with Ti O bonds at the atomic level helps realize strong trapping and fast conversion of LiPSs simultaneously. As a result, the specific capacity, rate performance, and cyclic stability are all greatly improved by the interlayer composed of sulfur-doped TiN and graphenes, which indicates a practical avenue for building high performance lithium-sulfur batteries. Image 1 • Sulfur doping of inert surface layer revives catalysis of TiN towards polysulfides. • Ti S interfacing with Ti O bonds results in fast conversion of polysulfide. • Using sulfur-doped TiN in the interlayer prolongs the cycling life of Li S batteries. [ABSTRACT FROM AUTHOR]

Published

2019

6. Integrative approach identifies corticosteroid response variant in diverse populations with asthma.

Author

Levin, Albert M., Gui, Hongsheng, Hernandez-Pacheco, Natalia, Yang, Mao, Xiao, Shujie, Yang, James J., Hochstadt, Samantha, Barczak, Andrea J., Eckalbar, Walter L., Rynkowski, Dean, Samedy, Lesly-Anne, Kwok, Pui-Yan, Pino-Yanes, Maria, Erle, David J., Lanfear, David E., Burchard, Esteban G., and Williams, L. Keoki

Abstract

Although inhaled corticosteroid (ICS) medication is considered the cornerstone treatment for patients with persistent asthma, few ICS pharmacogenomic studies have involved nonwhite populations. We sought to identify genetic predictors of ICS response in multiple population groups with asthma. The discovery group comprised African American participants from the Study of Asthma Phenotypes and Pharmacogenomic Interactions by Race-Ethnicity (SAPPHIRE) who underwent 6 weeks of monitored ICS therapy (n = 244). A genome-wide scan was performed to identify single nucleotide polymorphism (SNP) variants jointly associated (ie, the combined effect of the SNP and SNP × ICS treatment interaction) with changes in asthma control. Top associations were validated by assessing the joint association with asthma exacerbations in 3 additional groups: African Americans (n = 803 and n = 563) and Latinos (n = 1461). RNA sequencing data from 408 asthmatic patients and 405 control subjects were used to examine whether genotype was associated with gene expression. One variant, rs3827907, was significantly associated with ICS-mediated changes in asthma control in the discovery set (P = 7.79 × 10−8) and was jointly associated with asthma exacerbations in 3 validation cohorts (P =.023, P =.029, and P =.041). RNA sequencing analysis found the rs3827907 C-allele to be associated with lower RNASE2 expression (P = 6.10 × 10−4). RNASE2 encodes eosinophil-derived neurotoxin, and the rs3827907 C-allele appeared to particularly influence ICS treatment response in the presence of eosinophilic inflammation (ie, high pretreatment eosinophil-derived neurotoxin levels or blood eosinophil counts). We identified a variant, rs3827907, that appears to influence response to ICS treatment in multiple population groups and likely mediates its effect through eosinophils. [ABSTRACT FROM AUTHOR]

Published

2019

7. Spindle-like hierarchical carbon structure grown from polyhydroxyalkanoate/ferrocene/chloroform precursor.

Author

Chen, Qiao, Xiao, Shujie, Zhang, Rujing, Guo, Fengmei, Wang, Kunlin, and Zhu, Hongwei

Subjects

*POLYHYDROXYALKANOATES, *CARBON, *CRYSTAL growth, *CRYSTAL structure, *FERROCENE, *CHLOROFORM, *CHEMICAL precursors

Abstract

A spindle-like hierarchical carbon structure of submicron dimensions is synthesized by floating catalytic deposition using a polyhydroxyalkanoate (PHA)/ferrocene/chloroform precursor. The electron microscopic morphology characterizations demonstrate that as-prepared carbon micro-spindle (CMS) comprises three components: two symmetric carbon cones formed by curved graphitic filaments consisted of randomly orientated graphene layers, and one middle catalyst plate with a rough surface. CMSs only grow on large catalyst plates with complicated surface microstructures. Chlorine is employed to tune the crystallinity of the catalyst, leading to a rough surface of the catalyst plate. Graphene layers are deposited parallel to the catalyst surface. Carbon spindles sharing the same catalyst plate form CMS clusters. The electrochemical performance of CMSs is further investigated, showing good capacitance properties with excellent cycling stability, indicating its application potential in energy storage devices. [ABSTRACT FROM AUTHOR]

Published

2016

8. The Preoperative Risks and Two-Year Sequelae of Postoperative Urinary Retention: Analysis of the Michigan Spine Surgery Improvement Collaborative (MSSIC).

Author

Zakaria, Hesham Mostafa, Lipphardt, Matthew, Bazydlo, Michael, Xiao, Shujie, Schultz, Lonni, Chedid, Mokbel, Abdulhak, Muwaffak, Schwalb, Jason M., Nerenz, David, Easton, Richard, and Chang, Victor

Subjects

*SPINAL surgery, *RETENTION of urine, *URINARY tract infections, *LUMBAR vertebrae, *BODY mass index

Abstract

Although postoperative urinary retention (POUR) is common after spine surgery, the association of this adverse event with other morbidities and patient-reported outcomes is not fully understood. We sought to examine the sequelae of POUR after lumbar spine surgery. The Michigan Spine Surgery Improvement Collaborative (MSSIC) is a large prospective multicenter registry. MSSIC was queried with multivariate analysis for factors that are associated with POUR, the association of POUR with 90-day adverse events, and the effect of POUR on 2-year patient-reported outcomes and satisfaction. Multivariate analysis identified hardware revision (odds ratio [OR], 0.61), 1 operative level (OR, 0.74), and ambulation on postoperative day zero (OR, 0.65) to be protective for POUR. Factors associated with POUR included age (OR, 1.19), male gender (OR, 1.58), body mass index <25 (OR, 1.22), diabetes (OR, 1.28), coronary artery disease (OR, 1.20), fusion surgery (OR, 1.27), and longer surgery (OR, 1.11). Patients who had POUR were more likely to be readmitted, develop a urinary tract infection, and develop an infection (P < 0.001). POUR was associated with decreased likelihood of achieving Oswestry Disability Index minimal clinically important difference at 90 days (P < 0.001), but not at 1 year after surgery. POUR was associated with dissatisfaction with surgery at 90 days (P < 0.001), 1 year (P = 0.004), and 2 years after surgery (P = 0.011). POUR is common after lumbar spine surgery, and the demographic, diagnostic, and surgical factors that are associated with POUR are identified. POUR is associated with several adverse events, and patients who have POUR were less likely to be satisfied with surgery up to 2 years after surgery. [ABSTRACT FROM AUTHOR]

Published

2020

9. Patient Demographic and Surgical Factors that Affect Completion of Patient-Reported Outcomes 90 Days and 1 Year After Spine Surgery: Analysis from the Michigan Spine Surgery Improvement Collaborative (MSSIC).

Author

Zakaria, Hesham Mostafa, Mansour, Tarek, Telemi, Edvin, Xiao, Shujie, Bazydlo, Michael, Schultz, Lonni, Nerenz, David, Perez-Cruet, Miguelangelo, Seyfried, Donald, Aleem, Ilyas S., Easton, Richard, Schwalb, Jason M., Abdulhak, Muwaffak, and Chang, Victor

Subjects

*SPINAL surgery, *LUMBAR vertebrae, *CERVICAL vertebrae, *DEMOGRAPHIC characteristics, *WOMEN patients

Abstract

The Michigan Spine Surgery Improvement Collaborative is a statewide multicenter quality improvement registry. Because missing data can affect registry results, we used MSSIC to find demographic and surgical characteristics that affect the completion of patient-reported outcomes (PROs) at 90 days and 1 year. A total of 24,404 patients who had lumbar surgery (17,813 patients) or cervical surgery (6591 patients) were included. Multivariate logistic regression models of patient disease were constructed to identify risk factors for failure to complete scheduled PRO surveys. Patients ≥65 years old and female patients were both more likely to respond at 90 days and 1 year. Increasing education was associated with greater response rate at 90 days and 1 year. Whites and African Americans had no differences in response rates. Calling provided the highest response rate at 90 days and 1 year. For cervical spine patients, only discharge to rehabilitation increased completion rates, at 90 days but not 1 year. For lumbar spine patients, spondylolisthesis or stenosis (vs. herniated disc) had a greater response rate at 1 year. Patients with leg (vs. back) pain had a greater response only at 1 year. Patients with multilevel surgery had an increased response at 1 year. Patients who underwent fusion were more likely to respond at 90 days, but not 1 year. Discharge to rehabilitation increased response at 90 days and 1 year. A multivariate analysis from a multicenter prospective database identified surgical factors that affect PRO follow-up, up to 1 year. This information can be helpful for imputing missing PRO data and could be used to strengthen data derived from large prospective databases. [ABSTRACT FROM AUTHOR]

Published

2019

10. Holey graphenes as the conductive additives for LiFePO4 batteries with an excellent rate performance.

Author

Xu, Lingtao, Lv, Wei, Shi, Kai, Xiao, Shujie, You, Conghui, He, Yan-Bing, Kang, Feiyu, and Yang, Quan-Hong

Subjects

*LITHIUM-ion batteries, *ELECTRIC batteries, *IONIC conductivity, *CARBON-black

Abstract

Graphene has been investigated and widely used as the high performance conductive additives in lithium ion batteries. Unfortunately, the LiFePO 4 batteries with graphene additives present quite a low rate performance because the graphene with planar structure blocks the Li ion transportation. Herein, a binary conductive additive containing only 1 wt% holey graphene (HG) and 1 wt% Carbon Black such as Super-P (SP) has been developed, which achieves excellent high-rate performance for the LiFePO 4 battery that is comparable to that of the battery with 10 wt% SP. The HG with large amount of holes and large specific surface area substantially enhances the electronic conductivity of LiFePO 4 electrode, but not compromises the high efficient ionic transportation. A small content of SP as the supplement of long-range conductive network formed by HG can contact the LiFePO 4 sufficiently for achieving excellent conductivity in the whole LiFePO 4 electrode. A balance of electronic conductivity and ionic diffusivity can be achieved using the HG and SP simultaneously. The HG and SP with low content can synergistically construct an excellent ionic and electronic conductive network in LiFePO 4 electrode. This study may promote the commercial applications of HG additives for high performance LiFePO 4 batteries. Image 1 [ABSTRACT FROM AUTHOR]

Published

2019