Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment proc...Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment processes used in wastewater treatment plants have a limited efficiencies of antibiotics resistant bacteria(ARB)disinfection and ARGs degradation and even promote the proliferation of ARGs.Problematically,ARB and ARGs in effluent pose potential risks if they are not further treated.Photocatalytic oxidation is considered a promising disinfection technology,where the photocatalytic process generates many free radicals that enhance the interaction between light and deoxyribonucleic acid(DNA)for ARB elimination and subsequent degradation of ARGs.This reviewaims to illustrate the progress of photocatalytic oxidation technology for removing antibiotics resistant(AR)from wastewater in recent years.We discuss the sources and transfer of ARGs in wastewater.The overall removal efficiencies of ultraviolet radiation(UV)/chlorination,UV/ozone,UV/H_(2)O_(2),and UV/sulfate-radical based system for ARB and ARGs,as well as the experimental parameters and removal mechanisms,are systematically discussed.The contribution of photocatalytic materials based on TiO_(2) and g-C_(3)N_(4) to the inactivation of ARB and degradation of ARGs is highlighted,producingmany free radicals to attack ARB and ARGs while effectively limiting the horizontal gene transfer(HGT)in wastewater.Finally,based on the reviewed studies,future research directions are proposed to realize specific photocatalytic oxidation technology applications and overcome current challenges.展开更多
BACKGROUND Liver transplant(LT)recipients are susceptible to carbapenem-resistant Klebsiella pneumoniae(CRKP)infections.Comprehensive research addressing the incidence,timing,infection sites,resistance patterns,treatm...BACKGROUND Liver transplant(LT)recipients are susceptible to carbapenem-resistant Klebsiella pneumoniae(CRKP)infections.Comprehensive research addressing the incidence,timing,infection sites,resistance patterns,treatment options,and associated risk factors among LT recipients with CRKP is now lacking.AIM To assess the incidence,resistance,therapy,and risk factors of CRKP infections post-LT,and to evaluate the impact of them on prognosis.METHODS A retrospective study was conducted,including 430 consecutive patients who underwent LT between January 2015 and June 2023.This study aimed to investigate the risk factors for CRKP infections and their influence on outcomes using logistic regression analysis.RESULTS Among the 430 patients who underwent LT,20(4.7%)experienced at least one documented CRKP infection within 3 months post-transplantation.The median time from LT to the onset of CRKP infections was 6.5 days.The lungs and bloodstream were the most common sites of CRKP infections.CRKP isolates were relatively susceptible to ceftazidime/avibactam(93.7%),polymyxin B(90.6%),and tigecycline(75.0%)treatment.However,all isolates were resistant to piperacillin/tazobactam,ceftazidime,cefepime,aztreonam,meropenem,and levofloxacin treatment.Recipients with CRKP infections had a mortality rate of 35%,the rate was 12.5%for those receiving ceftazidime/avibactam therapy.Multivariate analysis identified female sex[odds ratio(OR)=3.306;95%confidence interval(CI):1.239-8.822;P=0.017],intraoperative bleeding≥3000 mL(OR=3.269;95%CI:1.018-10.490;P=0.047),alanine aminotransferase on day 1 post-LT≥1500 U/L(OR=4.370;95%CI:1.686-11.326;P=0.002),and post-LT mechanical ventilation(OR=2.772;95%CI:1.077-7.135;P=0.035)as significant variables associated with CRKP.CRKP infections were related to an intensive care unit length(ICU)of stay≥7 days and 6-month all-cause mortality post-LT.CONCLUSION CRKP infections were frequent complications following LT,with poor associated outcomes.Risk factors for post-LT CRKP infections included female sex,significant intraoperative bleeding,elevated alanine aminotransferase levels,and the need for mechanical ventilation.CRKP infections negatively impacted survival and led to prolonged ICU stays.展开更多
Leptocybe invasa is an invasive pest,native to Australia,which causes serious damage to Eucalyptus all over the world.Here,we monitored gall development in resistant and susceptible Eucalyptus clones to determine whet...Leptocybe invasa is an invasive pest,native to Australia,which causes serious damage to Eucalyptus all over the world.Here,we monitored gall development in resistant and susceptible Eucalyptus clones to determine whether plant genotype affects the durations of the different gall stages.Gall development varied among six Eucalyptus clones that differed in susceptibility to L.invasa viz.,PE-5,316,3011,PE-11,3020 and P-13 in Punjab in a nethouse.In susceptible clones PE-5 and 316,L.invasa emerged from both green and pink galls.Five stages of gall formation were found:Stage 1(tissue disruption),Stage 2(gall develop-ment),Stage 3(glossy pink),Stage 4(dull pink)and Stage 5(exit hole)in susceptible clones when adults emerged from pink galls.However,in resistant clones,adults emerged only from green galls,and galls formed in three stages.In the susceptible clones,when adults emerged from pink galls,the life cycle was 105–115 d;however,when adults emerged from green galls,the duration was significantly shorter(81–87 d).In the most-resistant clone,P-13,corky tissue formed after oviposition,and galls did not develop further.In the resistant clones(3020,PE-11 and 3011),adults emerged from green galls,and the life cycle lasted 90–96 d.When adults emerged from green galls in susceptible and resist-ant clones,Stage 1 lasted longer in resistant clones than in the susceptible;however,in susceptible clones,Stage 5 was longer.When adults emerged from pink galls in susceptible clones and from green galls in resistant clones,the life cycle was longer in susceptible clones.In susceptible clones,the number of emergence holes was significantly higher than resistant clones.Gall width and gall length also differed significantly between susceptible and resistant clones.The results showed that the Eucalyptus genotype had a signifi-cant effect on gall development induced by gall wasps.展开更多
Resistant starch(RS)has attracted much researchers'attention because of its health-beneficial effects.Gut microbiota obviously shapes human health,but the effects of RS supplementation on the changes of human gut ...Resistant starch(RS)has attracted much researchers'attention because of its health-beneficial effects.Gut microbiota obviously shapes human health,but the effects of RS supplementation on the changes of human gut microbiota remain unclear.This observational meta-analysis aimed to reveal the effects of RS intake onα-diversity and composition of gut microbiota through meta-analysis.Two independent authors systematically searched articles from inception until February 2023 on four electronic databases.Twenty-four highly relevant trials were included conforming to Preferred Reporting Items for Systematic reviews and MetaAnalysis protocol,and a total of 816 individuals were included.Significant heterogeneity analyses revealed that RS intake notably decreased Shannon index(weighted mean difference(WMD):-0.11;95%confidence interval(CI):-0.21,-0.01),and stimulated the composition of health promoting bacteria genera,including Bifidobacterium(relative abundance:WMD:1.75;95%CI:0.39,3.11;bacterial populations:WMD:0.36;95%CI:0.04,0.69),Faecalibacterium(relative abundance:WMD:0.70;95%CI:0.20,1.20;fold change:effect size:0.91;95%CI:0.60,1.23),and Prevotella(relative abundance:WMD:0.35;95%CI:0.01,0.69).Taken together,the present study revealed that changes in the gut microbiota diversity and genera were correlated with RS supplementation,which may contribute to benefits in human health.展开更多
Yongtao Yu,Yuelin Yu et al.Solvent-Resistant Wearable Triboelectric Nanogenerator for Energy-Harvesting and Self-Powered Sensors.Energy Environ.Mater.2024,7,e12700.On page 4 of this article,the first paragraph of 2.4,...Yongtao Yu,Yuelin Yu et al.Solvent-Resistant Wearable Triboelectric Nanogenerator for Energy-Harvesting and Self-Powered Sensors.Energy Environ.Mater.2024,7,e12700.On page 4 of this article,the first paragraph of 2.4,line 14(PDF version,same below),there is a spelling mistake of“sui,”.It should be changed to“suitable”.The denominator“dt”in the Equation(3)should be changed to“dt”.展开更多
Dear Editor,Enterovirus 71(EV71)is the main pathogen of hand,foot,and mouth disease(HFMD),which is a serious public health threat,especially in the Asia-Pacific region(Wu et al.,2013).Due to the lack of effective anti...Dear Editor,Enterovirus 71(EV71)is the main pathogen of hand,foot,and mouth disease(HFMD),which is a serious public health threat,especially in the Asia-Pacific region(Wu et al.,2013).Due to the lack of effective antivirals for treatment,supportive therapy remains to be the primary measure for severe infections of EV71.EV71 belongs to the genus Enterovirus in the family of Picornavirridae.EV71 encodes a polyprotein that is proteolytically cleaved into four structural proteins and seven nonstructural proteins,i.e.,VP1 to VP4,2A to 2C,and 3A to 3D.Moreover,an alternative encoding strategy of harboring a novel open reading frame encoding a short peptide has been recently reported in gut epithelial cells infected with some enteroviruses(Lulla et al.,2019).Structural proteins play a key role in the packaging and maturation of virus particles,while non-structural proteins are mainly involved in the replication process of virus.Among them,the 3D polymerase(3Dpol)protein functions as an RNA-dependent RNA polymerase(RdRP)that is essential for viral RNA synthesis(Wu et al.,2010).展开更多
1Introduction To date,in model-based gait-planning methods,the dynamics of the center of mass(COM)of bipedal robots have been analyzed by establishing their linear inverted pendulum model(LIPM)or extended forms(Owaki ...1Introduction To date,in model-based gait-planning methods,the dynamics of the center of mass(COM)of bipedal robots have been analyzed by establishing their linear inverted pendulum model(LIPM)or extended forms(Owaki et al.,2010;Englsberger et al.,2015;Xie et al.,2020).With regard to model-based gait-generation methods for uphill and downhill terrain,Kuo(2007)simulated human gait using an inverted pendulum,which provided a circular trajectory for the COM rather than a horizontal trajectory.He found that a horizontal COM trajectory consumed more muscle energy.Massah et al.(2012)utilized a 3D LIPM and the concept of zero moment point(ZMP).They developed a trajectory planner using the semi-elliptical motion equations of an NAO humanoid robot and simulated walking on various sloped terrains using the Webots platform.展开更多
Background:Achromobacter xylosoxidans(A.xylosoxidans)subspecies strains are known to be opportunistic environmental inhabitants.Among the two species,A.xylosoxidans ssp.xylosoxidans is more commonly reported cause of ...Background:Achromobacter xylosoxidans(A.xylosoxidans)subspecies strains are known to be opportunistic environmental inhabitants.Among the two species,A.xylosoxidans ssp.xylosoxidans is more commonly reported cause of nosocomial infections colonizing the hospital environment and medical devices,while A.xylosoxidans ssp.denitrificans(AD)strains are widely distributed in the abiotic environment.The present retrospective observational study was aimed at understanding the occurrence of AD infections in the Bareilly region,and to look into the effective herbal and conventional antimicrobial resistance profile of the strains identified at the laboratory.Methods:The present retrospective study analysed Clinical Microbiology laboratory data of Indian veterinary research Institute.The data for the last 14 years(2011-2024)was retrieved,tabulated and analysed using MS Excel program to determine significance of occurrence,and variation in antimicrobial resistance of the strains isolated from different sources usingχ2 and odds ratio analysis.Results:The study revealed that AD was detectable as a potential pathogen not only from environmental samples but also from 51 clinical cases(either as pure culture or mixed infection),and also from healthy humans and animals.The pathogen was most commonly associated with deaths in animals and birds due to septicaemia and was isolated is single pathogen from blood samples.It was also detected as single pathogen from cases of abortions,metritis,and urinary tract infections.However,from cases of haemorrhagic enteritis,diarrhoea,mastitis,wound infections,pyoderma and abscesses,and middle ear infections AD was isolated in association of one or more potentially pathogenic bacteria.Of the 80 isolates in the study,68 had multiple drug resistance,and 21 produced metallo-β-lactamases responsible for resistance against most of theβ-lactam antibiotics,including cephalosporins and carbapenems.The most effective antibiotic was gentamicin,inhibiting 90.67%of the isolates,followed by tigecycline(85.00%),ciprofloxacin(80.77%),piperacillin tazobactam(80.65%);other antibiotics were effective against less than 80%of the isolates.Among the herbal antimicrobials,cinnamaldehyde,cinnamon oil,carvacrol,and ajowan oil inhibited 98.41%,85.07%,85.00%,and 83.75%of the isolates,respectively.Conclusion:The study concluded that in the Bareilly region in India,multiple-drug-resistance AD may be an emerging pathogen prevalent in environment and apparently healthy animals.More studies are warranted to understand the AD strains at molecular level to understand their zoonotic potential and circulation in the environment.展开更多
Proton exchange membrane water electrolysis(PEMWE)is one of the most promising strategies to pro-duce green hydrogen energy,and it is crucial to exploit highly conductive and good corrosion-resistant coatings on bipol...Proton exchange membrane water electrolysis(PEMWE)is one of the most promising strategies to pro-duce green hydrogen energy,and it is crucial to exploit highly conductive and good corrosion-resistant coatings on bipolar plates(BPs),one of the core components in PEMWE cells.In this work,NbN coatings are deposited on Ti BPs by magnetron sputtering to improve the corrosion resistance and conductivity,for which the critical process parameters,such as the working pressure,partial nitrogen pressure and de-position temperature are well optimized.It is found that the compact microstructure,highly conductive δ-NbN and uniform nanoparticles play a dominant role in the synergistic improvement of the corrosion resistance and electrical conductivity of NbN coatings.The optimized NbN coatings exhibit excellent cor-rosion resistance with the low corrosion current density of 1.1×10^(-8) A cm^(-2),a high potential value of-0.005 V vs.SCE and a low ICR value of 15.8 mΩcm2@1.5 MPa.Accordingly,NbN coatings can be a promising candidate for the development of the low-cost and high-anti-corrosion Ti BPs of PEMWE.展开更多
Layered double hydroxides(LDHs)as coatings attract much attention in corrosion and protection of light metals due to their interesting properties such as in-situ synthesis,unique layer-stacking structure,tunable compo...Layered double hydroxides(LDHs)as coatings attract much attention in corrosion and protection of light metals due to their interesting properties such as in-situ synthesis,unique layer-stacking structure,tunable composition,and good biocompatibility as well.Currently,single LDH coating faces challenges such as time-consumed synthesis,thin coating thickness and inadequate density.This paper provides a systematic review of the cutting-edge advancements in modulation of composition,synthesis and applications of LDHs on Mg and Al alloys in corrosion protection and biomedicalfields.The focus is concentrated on the intercalation of corrosion inhibitors into LDH coatings.Particularly the anti-corrosion mechanisms of both inorganic anions(nitrate,vanadate,and molybdate)and organic anion intercalation(carboxylic acid anions and hydroxyquinolines)were discussed within the context of corrosion inhibitor intercalation LDH.The modification of LDHs is introduced with low surface energy substances such as silanes and fatty acids.The formation mechanism of LDHfilms and the active anti-corrosion mechanisms were proposed.A comparison of LDH coatings between Mg alloy and Al alloy was carried out from different perspectives,and further researches on LDH corrosion protection were prospected.展开更多
Recent studies have shown a noticeable increase in global Helicobacter pylori(H.pylori)resistance,with clarithromycin resistance surpassing 15%in various areas.However,inadequate epidemiological monitoring,especially ...Recent studies have shown a noticeable increase in global Helicobacter pylori(H.pylori)resistance,with clarithromycin resistance surpassing 15%in various areas.However,inadequate epidemiological monitoring,especially in developing countries,and the absence of uniform testing methods lead to discrepancies between regions and a possible underestimation of resistance levels.The complexity of treating H.pylori is driven by its highly dynamic genome,which is prone to frequent mutations contributing to phenotypical resistance.The usual course of action in empirical treatment involves using a combination of various drugs simultaneously,leading to significant resistance selection pressure and potential side effects.The emergence of H.pylori strains resistant to multiple drugs is closely tied to failures in first-line treatment,highlighting the need to prevent further resistance by using optimal initial empirical therapy or regimens guided by antibiotic susceptibility testing,requiring a collection of mixed samples and multiple isolates for accurate assessment.The emergence of new treatments like potassium-competitive acid blockers offers a hopeful approach to decrease antimicrobial usage while still ensuring effectiveness in comparison to traditional therapies with proton pump inhibitors.Additionally,the use of probiotics is under investigation to identify specific strains and formulations that may mitigate therapy-associated adverse effects.展开更多
The in vitro and in vivo degradation behavior of an experimental Mg alloy with high corrosion resistance has been investigated and compared with that of a commercial AZ31 Mg alloy with a similar chemical composition.I...The in vitro and in vivo degradation behavior of an experimental Mg alloy with high corrosion resistance has been investigated and compared with that of a commercial AZ31 Mg alloy with a similar chemical composition.In vitro tests indicated that the experimental alloy is>2.5 times more resistant to degradation than AZ31 during immersion in HBSS at 37℃ for 72 h.In vivo tests in the femoral vein of a mouse confirmed that the former degrades much more slowly and uniformly in the biological environment than the latter.Compared with WE43 and JDBM alloys,which are currently considered promising candidates for Mg-based biodegradable materials,the experimental alloy in this study showed better degradation resistance with a similar level of biocompatibility.Microstructural and electrochemical factors affecting the degradation behavior of the alloys in this study are also discussed.展开更多
Background:C hina is a high-burden country for multidrug-r esistant tuberculosis/rifampin-resistant tuberculosis(MDR/RR-T B).Fluoroquinolones(FQs)are key drugs for the treatment of patients with MDR/RR-T B.However,res...Background:C hina is a high-burden country for multidrug-r esistant tuberculosis/rifampin-resistant tuberculosis(MDR/RR-T B).Fluoroquinolones(FQs)are key drugs for the treatment of patients with MDR/RR-T B.However,research on the resistance of FQs in Beijing is limited.Methods:W e collected clinical isolates from all patients with pulmonary TB in Beijing from January 2016 to December 2021,conducted drug-s ensitivity tests and sequencing for levofloxacin(LFX)and moxifloxacin(MFX),and collected the treatment plans and outcomes of the patients.Results:A total of 8512 clinical isolates were collected from patients with pulmonary TB,and 261 RR-T B strains were screened.The proportions of drug-s ensitive and drugresistant strains significantly differed by age group and treatment history.The rates of LFX and MFX resistance were 27.6%(72/261)and 36.4%(95/261),respectively.The detection rates of MDR-T B and pre-e xtensively drug-resistant TB(pre-X DR-T B)were 73.2%(191/261)and 36.4%(95/261),respectively,and the trends were significant(χ^(2)trend=9.995,p=0.002;χ^(2)trend=12.744,p=0.026).Among the 261 RR-T B strains,14.9%(24/261)were sensitive to LFX but resistant to MFX.Among the four patients with LFX-r esistant TB who received LFX treatment failed in three patients(Fisher's exact test,p=0.009).The common mutation sites were 94 and 90 in gyrA.A novel mutation Ala90Ser was discovered.Conclusions:F Qs resistance trends in RR-T B patients in Beijing are striking.Strains showed incomplete cross-resistance to LFX and MFX.Testing for FQs resistance and developing a reasonable treatment plan are recommended.Attention should be given to the changing trends in MDR-T B and pre-X DR-TB.展开更多
With the continuous advancement of communication and unmanned aerial vehicle(UAV)technologies,the collaborative operations of diverse platforms,including UAVs and ground vehicles,have been significantly promoted.Howev...With the continuous advancement of communication and unmanned aerial vehicle(UAV)technologies,the collaborative operations of diverse platforms,including UAVs and ground vehicles,have been significantly promoted.However,battlefield uncertainties,such as equipment failures and enemy attacks,can impact these collaborative operations'stability and communication efficiency.To this end,we design a highly destruction-resistant air-ground cooperative resilient networking platform that aims to enhance the robustness of network communications by integrating ground vehicle information for UAV network deployment.It then incorporates the concept of virtual guiding force,enabling the UAV swarm to adaptively configure its network layout based on ground vehicle information,thereby improving network destruction resistance.Simulation results demonstrate that the UAV swarm involved in the proposed platform exhibits balanced flight energy consumption and excellent performance in network destruction resistance.展开更多
A high humidity-resistant,dual mechanical responsive,and reversible mechanochromic wrinkling system based on a VHB 4910-polydimethylsiloxane(PDMS)substrate with a thin film consisting of 90 wt%poly(vinyl butyral)(PVB)...A high humidity-resistant,dual mechanical responsive,and reversible mechanochromic wrinkling system based on a VHB 4910-polydimethylsiloxane(PDMS)substrate with a thin film consisting of 90 wt%poly(vinyl butyral)(PVB)and 10 wt%hydroxypropyl cellulose(HPC)has been reported.The wrinkling system exhibited significant optical tuning from transparent to opaque states with 50%changes in transmittance,which was achieved through the dual mechanical modes of pre-stretching and releasing processes or bending.Upon exposure to ethanol vapor or a re-flattening process,wrinkles can be erased,yielding a transparent state.Consequently,the wrinkling system could be reversibly switched between transparency and opacity for 1000 cycles with marginal changes in the optical performance.Owing to the insolubility of PVB in water,the wrinkling patterns exhibited excellent durability in high-humidity environments(relative humidity(RH)=99%).Furthermore,the smart encryption device is also demonstrated via mechano-controlled surface topography by patterning the wrinkling system,suggesting potential applications of the designed structure in smart windows,anti-counterfeiting,dynamic display,optical information encryption,and rewritable surfaces.展开更多
BACKGROUND The upsurge of antibiotic resistance is a significant challenge to public health,and the dry pipeline of new antibiotics has prompted the discovery of alternative treatment approaches.Enterococcus faecalis(...BACKGROUND The upsurge of antibiotic resistance is a significant challenge to public health,and the dry pipeline of new antibiotics has prompted the discovery of alternative treatment approaches.Enterococcus faecalis(E.faecalis)isolates are often multidrugresistant,posing challenges to antibiotic therapy.Bacteriophage therapy is being explored as an alternative method to treat the growing population of antibioticresistant infections.Nevertheless,many inherent limitations of phages diminish their therapeutic utility,notably the restricted host range and quick development of mutants.The specific types and quantities of bacteriophages and antibiotics may be crucial in generating the optimal phage-antibiotic synergy.AIM To optimize the doses,order,and timing to optimize the synergy of phages and vancomycin on different bacteria states.METHODS A volume of 180μL of E.faecalis bacteria in the logarithmic growth phase,with a concentration of approximately 1×10^(8)colony forming units(CFUs)/mL,was introduced onto a microtitre plate.Subsequently,20μL of phage suspension(1×10^(6)PFUs/mL),vancomycin(16μg/mL),or a combination of both was introduced into the designated wells in the specified sequence and incubated at 37°C for 48 hours.The number of live bacteria was counted at different time points using standardized CFU counting protocols.RESULTS The biofilm model demonstrated that combining phages with vancomycin can eradicate the biofilm.Sequential therapy,involving phage application 8 hours before the antibiotic at a concentration of 108 PFUs/mL,proved the most efficient in eliminating the biofilms and killing the planktonic form of E.faecalis.CONCLUSION The combination of phageɸEFP01 at a higher concentration with a subinhibitory concentration of vancomycin yields a synergistic antibacterial outcome on E.faecalis strain resistant to vancomycin.展开更多
Transparent materials utilized as underwater optical windows are highly vulnerable to various forms of pollution or abrasion due to their intrinsic hydrophilic properties.This susceptibility is particularly pronounced...Transparent materials utilized as underwater optical windows are highly vulnerable to various forms of pollution or abrasion due to their intrinsic hydrophilic properties.This susceptibility is particularly pronounced in underwater environments where pollutants can impede the operation of these optical devices,significantly degrading or even compromising their optical properties.The glass catfish,known for its remarkable transparency in water,maintains surface cleanliness and clarity despite exposure to contaminants,impurities abrasion,and hydraulic pressure.Inspired by the glass catfish’s natural attributes,this study introduces a new solution named subaquatic abrasion-resistant and anti-fouling window(SAAW).Utilizing femtosecond laser ablation and electrodeposition,the SAAW is engineered by embedding fine metal bone structures into a transparent substrate and anti-fouling sliding layer,akin to the sturdy bones among catfish’s body.This approach significantly bolsters the window’s abrasion resistance and anti-fouling performance while maintaining high light transmittance.The sliding layer on the SAAW’s surface remarkably reduces the friction of various liquids,which is the reason that SAAW owns the great anti-fouling property.The SAAW demonstrates outstanding optical clarity even after enduring hundreds of sandpaper abrasions,attributing to the fine metal bone structures bearing all external forces and protecting the sliding layer of SAAW.Furthermore,it exhibits exceptional resistance to biological adhesion and underwater pressure.In a green algae environment,the window remains clean with minimal change in transmittance over one month.Moreover,it retains its wettability and anti-fouling properties when subjected to a depth of 30 m of underwater pressure for 30 d.Hence,the SAAW prepared by femtosecond laser ablation and electrodeposition presents a promising strategy for developing stable optical windows in liquid environments.展开更多
Polyimide(PI)is widely used in high-tech fields such as microelectronics,aerospace,and national defense because of its excellent optical properties,high-and low-temperature resistance,and good dimensional stability.To...Polyimide(PI)is widely used in high-tech fields such as microelectronics,aerospace,and national defense because of its excellent optical properties,high-and low-temperature resistance,and good dimensional stability.To achieve the desired properties of PI,the monomers 2,6-diaminopyrimidin-4-ol(DAPD)and 6-(2,3,5,6-tetrafluoro-4-vinylphenoxy)pyrimidin-2,4-diamine(DAFPD),which contains crosslinkable functional groups,were designed and synthesized successfully and copolymerized with 4,4'-oxydianiline(ODA)and 4,4-hexafluoroisopropylphthalic anhydride(6FDA).The prepared PI film(PI-3),with rigid backbones and loose packing had excellent heat resistance(Td5%=489℃)and optical properties(T450=82%).Furthermore,a crosslinked PI film(c-PI-3)with more heat-resistant(Td5%=524℃)and better mechanical properties(σ=125.46MPa),can be obtained through thermal crosslinking of tetrafluorostyrene.In addition,the changes in the properties caused by the proportion of DAFPD added during copolymerization are discussed comprehensively.This study provides a promising candidate for heat-resistant PI materials.展开更多
Hydrogels derived from biopolymers have numerous applications in bioengineering,drug delivery,wound healing,and wearable devices.Yet,their strong swelling and uncontrollable degradation stimulate the development of hy...Hydrogels derived from biopolymers have numerous applications in bioengineering,drug delivery,wound healing,and wearable devices.Yet,their strong swelling and uncontrollable degradation stimulate the development of hydrogels that overcome these limitations.Here,we report nanocolloidal hydrogels formed from nanoparticles of methacryloyl-modified biopolymers that exhibit resistance to swelling and enzymatic degradation both in vitro and in vivo,along with exhibiting a broad-range of mechanical and lubrication properties,wear resistance and biocompatibility.The nonswelling behavior of nanocolloidal hydrogels takes origin in the resistance to swelling of their hydrophobic regions which are resulted from the nanophase of hydrophobic methacryloyl groups in the interior of the constituent nanoparticles.The developed approach to the preparation of nanocolloidal hydrogel with greatly enhanced properties will have applications in long-term drug delivery and cell culture,soft tissue augmentation,and implantable bioelectronics.展开更多
Prominent cadmium(Cd)pollution and widespread phoxim(p H)use hinder the growth and medicinal value of Ligusticum chuanxiong Hort.(Chuanxiong).While bioremediation by rhizobacteria helps plants counter pollutants,the s...Prominent cadmium(Cd)pollution and widespread phoxim(p H)use hinder the growth and medicinal value of Ligusticum chuanxiong Hort.(Chuanxiong).While bioremediation by rhizobacteria helps plants counter pollutants,the specific roles of indigenous resistant consortia collected from polluted soils in immobilizing heavy metals,degrading pesticides,and enhancing plant stress tolerance remain insufficiently explored.Here,an indigenous pollutant-resistant consortium(RM)was developed from a highly Cd-polluted area(14.85 mg/kg Cd)as a bioremediation strategy to alleviate stress on Chuanxiong.The RM was specifically enriched with a Cd-p H co-resistant strain,Halomonas spp.TS2.Through16S r RNA sequencing,active microorganisms within RM was identified,including Bacillus,Acinetobacter,Enterococcus,Paraclostridium,and Staphylococcus.Pot experiments demonstrated that RM increased Chuanxiong biomass by 93.38%under Cd-contaminated and by 32.89%under Cd-p H co-contaminated.Furthermore,RM enhanced p H degradation,stabilized soil compounds,and reduced Cd bioavailability,thereby mitigating oxidative damage and altering the diversity and composition of Cd-p H-resistant organisms.These results indicate that utilizing indigenous microbial consortia as a bioremediation strategy can effectively improve soil health and enhance the sustainable cultivation of medicinal herbs in environments heavily contaminated.展开更多
基金supported by the National Natural Science Foundation of China (Nos.52100182 and 52300204)the the Science and Technology Innovation Program of Hunan Province (No.2023RC3122).
文摘Because of the recent widespread usage of antibiotics,the acquisition and dissemination of antibiotic-resistance genes(ARGs)were prevalent in the majority of habitats.Generally,the biological wastewater treatment processes used in wastewater treatment plants have a limited efficiencies of antibiotics resistant bacteria(ARB)disinfection and ARGs degradation and even promote the proliferation of ARGs.Problematically,ARB and ARGs in effluent pose potential risks if they are not further treated.Photocatalytic oxidation is considered a promising disinfection technology,where the photocatalytic process generates many free radicals that enhance the interaction between light and deoxyribonucleic acid(DNA)for ARB elimination and subsequent degradation of ARGs.This reviewaims to illustrate the progress of photocatalytic oxidation technology for removing antibiotics resistant(AR)from wastewater in recent years.We discuss the sources and transfer of ARGs in wastewater.The overall removal efficiencies of ultraviolet radiation(UV)/chlorination,UV/ozone,UV/H_(2)O_(2),and UV/sulfate-radical based system for ARB and ARGs,as well as the experimental parameters and removal mechanisms,are systematically discussed.The contribution of photocatalytic materials based on TiO_(2) and g-C_(3)N_(4) to the inactivation of ARB and degradation of ARGs is highlighted,producingmany free radicals to attack ARB and ARGs while effectively limiting the horizontal gene transfer(HGT)in wastewater.Finally,based on the reviewed studies,future research directions are proposed to realize specific photocatalytic oxidation technology applications and overcome current challenges.
文摘BACKGROUND Liver transplant(LT)recipients are susceptible to carbapenem-resistant Klebsiella pneumoniae(CRKP)infections.Comprehensive research addressing the incidence,timing,infection sites,resistance patterns,treatment options,and associated risk factors among LT recipients with CRKP is now lacking.AIM To assess the incidence,resistance,therapy,and risk factors of CRKP infections post-LT,and to evaluate the impact of them on prognosis.METHODS A retrospective study was conducted,including 430 consecutive patients who underwent LT between January 2015 and June 2023.This study aimed to investigate the risk factors for CRKP infections and their influence on outcomes using logistic regression analysis.RESULTS Among the 430 patients who underwent LT,20(4.7%)experienced at least one documented CRKP infection within 3 months post-transplantation.The median time from LT to the onset of CRKP infections was 6.5 days.The lungs and bloodstream were the most common sites of CRKP infections.CRKP isolates were relatively susceptible to ceftazidime/avibactam(93.7%),polymyxin B(90.6%),and tigecycline(75.0%)treatment.However,all isolates were resistant to piperacillin/tazobactam,ceftazidime,cefepime,aztreonam,meropenem,and levofloxacin treatment.Recipients with CRKP infections had a mortality rate of 35%,the rate was 12.5%for those receiving ceftazidime/avibactam therapy.Multivariate analysis identified female sex[odds ratio(OR)=3.306;95%confidence interval(CI):1.239-8.822;P=0.017],intraoperative bleeding≥3000 mL(OR=3.269;95%CI:1.018-10.490;P=0.047),alanine aminotransferase on day 1 post-LT≥1500 U/L(OR=4.370;95%CI:1.686-11.326;P=0.002),and post-LT mechanical ventilation(OR=2.772;95%CI:1.077-7.135;P=0.035)as significant variables associated with CRKP.CRKP infections were related to an intensive care unit length(ICU)of stay≥7 days and 6-month all-cause mortality post-LT.CONCLUSION CRKP infections were frequent complications following LT,with poor associated outcomes.Risk factors for post-LT CRKP infections included female sex,significant intraoperative bleeding,elevated alanine aminotransferase levels,and the need for mechanical ventilation.CRKP infections negatively impacted survival and led to prolonged ICU stays.
文摘Leptocybe invasa is an invasive pest,native to Australia,which causes serious damage to Eucalyptus all over the world.Here,we monitored gall development in resistant and susceptible Eucalyptus clones to determine whether plant genotype affects the durations of the different gall stages.Gall development varied among six Eucalyptus clones that differed in susceptibility to L.invasa viz.,PE-5,316,3011,PE-11,3020 and P-13 in Punjab in a nethouse.In susceptible clones PE-5 and 316,L.invasa emerged from both green and pink galls.Five stages of gall formation were found:Stage 1(tissue disruption),Stage 2(gall develop-ment),Stage 3(glossy pink),Stage 4(dull pink)and Stage 5(exit hole)in susceptible clones when adults emerged from pink galls.However,in resistant clones,adults emerged only from green galls,and galls formed in three stages.In the susceptible clones,when adults emerged from pink galls,the life cycle was 105–115 d;however,when adults emerged from green galls,the duration was significantly shorter(81–87 d).In the most-resistant clone,P-13,corky tissue formed after oviposition,and galls did not develop further.In the resistant clones(3020,PE-11 and 3011),adults emerged from green galls,and the life cycle lasted 90–96 d.When adults emerged from green galls in susceptible and resist-ant clones,Stage 1 lasted longer in resistant clones than in the susceptible;however,in susceptible clones,Stage 5 was longer.When adults emerged from pink galls in susceptible clones and from green galls in resistant clones,the life cycle was longer in susceptible clones.In susceptible clones,the number of emergence holes was significantly higher than resistant clones.Gall width and gall length also differed significantly between susceptible and resistant clones.The results showed that the Eucalyptus genotype had a signifi-cant effect on gall development induced by gall wasps.
基金financially supported by the National Key R&D Program of China(2022YFF1100600,2022YFF1100605)the Science and Technology Support Program(Modern Agriculture)of Jiangsu Province(BE2022323)the National Natural Science Foundation of China(32302011)。
文摘Resistant starch(RS)has attracted much researchers'attention because of its health-beneficial effects.Gut microbiota obviously shapes human health,but the effects of RS supplementation on the changes of human gut microbiota remain unclear.This observational meta-analysis aimed to reveal the effects of RS intake onα-diversity and composition of gut microbiota through meta-analysis.Two independent authors systematically searched articles from inception until February 2023 on four electronic databases.Twenty-four highly relevant trials were included conforming to Preferred Reporting Items for Systematic reviews and MetaAnalysis protocol,and a total of 816 individuals were included.Significant heterogeneity analyses revealed that RS intake notably decreased Shannon index(weighted mean difference(WMD):-0.11;95%confidence interval(CI):-0.21,-0.01),and stimulated the composition of health promoting bacteria genera,including Bifidobacterium(relative abundance:WMD:1.75;95%CI:0.39,3.11;bacterial populations:WMD:0.36;95%CI:0.04,0.69),Faecalibacterium(relative abundance:WMD:0.70;95%CI:0.20,1.20;fold change:effect size:0.91;95%CI:0.60,1.23),and Prevotella(relative abundance:WMD:0.35;95%CI:0.01,0.69).Taken together,the present study revealed that changes in the gut microbiota diversity and genera were correlated with RS supplementation,which may contribute to benefits in human health.
文摘Yongtao Yu,Yuelin Yu et al.Solvent-Resistant Wearable Triboelectric Nanogenerator for Energy-Harvesting and Self-Powered Sensors.Energy Environ.Mater.2024,7,e12700.On page 4 of this article,the first paragraph of 2.4,line 14(PDF version,same below),there is a spelling mistake of“sui,”.It should be changed to“suitable”.The denominator“dt”in the Equation(3)should be changed to“dt”.
基金supported by Hubei Provincial Natural Science Foundation of China(2025AFB822)National Key Research and Development Program of China(No.2022YFD1800100)National Natural Science Foundation of China(32100110).
文摘Dear Editor,Enterovirus 71(EV71)is the main pathogen of hand,foot,and mouth disease(HFMD),which is a serious public health threat,especially in the Asia-Pacific region(Wu et al.,2013).Due to the lack of effective antivirals for treatment,supportive therapy remains to be the primary measure for severe infections of EV71.EV71 belongs to the genus Enterovirus in the family of Picornavirridae.EV71 encodes a polyprotein that is proteolytically cleaved into four structural proteins and seven nonstructural proteins,i.e.,VP1 to VP4,2A to 2C,and 3A to 3D.Moreover,an alternative encoding strategy of harboring a novel open reading frame encoding a short peptide has been recently reported in gut epithelial cells infected with some enteroviruses(Lulla et al.,2019).Structural proteins play a key role in the packaging and maturation of virus particles,while non-structural proteins are mainly involved in the replication process of virus.Among them,the 3D polymerase(3Dpol)protein functions as an RNA-dependent RNA polymerase(RdRP)that is essential for viral RNA synthesis(Wu et al.,2010).
基金supported by the National Natural Science Foundation of China(No.12332023)the Zhejiang Provincial Natural Science Foundation of China(No.LY23E050010).
文摘1Introduction To date,in model-based gait-planning methods,the dynamics of the center of mass(COM)of bipedal robots have been analyzed by establishing their linear inverted pendulum model(LIPM)or extended forms(Owaki et al.,2010;Englsberger et al.,2015;Xie et al.,2020).With regard to model-based gait-generation methods for uphill and downhill terrain,Kuo(2007)simulated human gait using an inverted pendulum,which provided a circular trajectory for the COM rather than a horizontal trajectory.He found that a horizontal COM trajectory consumed more muscle energy.Massah et al.(2012)utilized a 3D LIPM and the concept of zero moment point(ZMP).They developed a trajectory planner using the semi-elliptical motion equations of an NAO humanoid robot and simulated walking on various sloped terrains using the Webots platform.
基金supported by grants from CAAST-ACLH(NAHEP/CAAST/2018-19)of the ICAR-World Bank-funded National Agricultural Higher Education Project(NAHEP).
文摘Background:Achromobacter xylosoxidans(A.xylosoxidans)subspecies strains are known to be opportunistic environmental inhabitants.Among the two species,A.xylosoxidans ssp.xylosoxidans is more commonly reported cause of nosocomial infections colonizing the hospital environment and medical devices,while A.xylosoxidans ssp.denitrificans(AD)strains are widely distributed in the abiotic environment.The present retrospective observational study was aimed at understanding the occurrence of AD infections in the Bareilly region,and to look into the effective herbal and conventional antimicrobial resistance profile of the strains identified at the laboratory.Methods:The present retrospective study analysed Clinical Microbiology laboratory data of Indian veterinary research Institute.The data for the last 14 years(2011-2024)was retrieved,tabulated and analysed using MS Excel program to determine significance of occurrence,and variation in antimicrobial resistance of the strains isolated from different sources usingχ2 and odds ratio analysis.Results:The study revealed that AD was detectable as a potential pathogen not only from environmental samples but also from 51 clinical cases(either as pure culture or mixed infection),and also from healthy humans and animals.The pathogen was most commonly associated with deaths in animals and birds due to septicaemia and was isolated is single pathogen from blood samples.It was also detected as single pathogen from cases of abortions,metritis,and urinary tract infections.However,from cases of haemorrhagic enteritis,diarrhoea,mastitis,wound infections,pyoderma and abscesses,and middle ear infections AD was isolated in association of one or more potentially pathogenic bacteria.Of the 80 isolates in the study,68 had multiple drug resistance,and 21 produced metallo-β-lactamases responsible for resistance against most of theβ-lactam antibiotics,including cephalosporins and carbapenems.The most effective antibiotic was gentamicin,inhibiting 90.67%of the isolates,followed by tigecycline(85.00%),ciprofloxacin(80.77%),piperacillin tazobactam(80.65%);other antibiotics were effective against less than 80%of the isolates.Among the herbal antimicrobials,cinnamaldehyde,cinnamon oil,carvacrol,and ajowan oil inhibited 98.41%,85.07%,85.00%,and 83.75%of the isolates,respectively.Conclusion:The study concluded that in the Bareilly region in India,multiple-drug-resistance AD may be an emerging pathogen prevalent in environment and apparently healthy animals.More studies are warranted to understand the AD strains at molecular level to understand their zoonotic potential and circulation in the environment.
基金supported by the National Key Re-search and Development Program of China(No.2022YFB4002100)the National Natural Science Foundation of China(No.52271136)the Natural Science Foundation of Shaanxi Province(Nos.2019TD-020 and 2021JC-06).
文摘Proton exchange membrane water electrolysis(PEMWE)is one of the most promising strategies to pro-duce green hydrogen energy,and it is crucial to exploit highly conductive and good corrosion-resistant coatings on bipolar plates(BPs),one of the core components in PEMWE cells.In this work,NbN coatings are deposited on Ti BPs by magnetron sputtering to improve the corrosion resistance and conductivity,for which the critical process parameters,such as the working pressure,partial nitrogen pressure and de-position temperature are well optimized.It is found that the compact microstructure,highly conductive δ-NbN and uniform nanoparticles play a dominant role in the synergistic improvement of the corrosion resistance and electrical conductivity of NbN coatings.The optimized NbN coatings exhibit excellent cor-rosion resistance with the low corrosion current density of 1.1×10^(-8) A cm^(-2),a high potential value of-0.005 V vs.SCE and a low ICR value of 15.8 mΩcm2@1.5 MPa.Accordingly,NbN coatings can be a promising candidate for the development of the low-cost and high-anti-corrosion Ti BPs of PEMWE.
基金supported by the National Natural Science Foundation of China(Grant Nos.52471080 and 52071191).
文摘Layered double hydroxides(LDHs)as coatings attract much attention in corrosion and protection of light metals due to their interesting properties such as in-situ synthesis,unique layer-stacking structure,tunable composition,and good biocompatibility as well.Currently,single LDH coating faces challenges such as time-consumed synthesis,thin coating thickness and inadequate density.This paper provides a systematic review of the cutting-edge advancements in modulation of composition,synthesis and applications of LDHs on Mg and Al alloys in corrosion protection and biomedicalfields.The focus is concentrated on the intercalation of corrosion inhibitors into LDH coatings.Particularly the anti-corrosion mechanisms of both inorganic anions(nitrate,vanadate,and molybdate)and organic anion intercalation(carboxylic acid anions and hydroxyquinolines)were discussed within the context of corrosion inhibitor intercalation LDH.The modification of LDHs is introduced with low surface energy substances such as silanes and fatty acids.The formation mechanism of LDHfilms and the active anti-corrosion mechanisms were proposed.A comparison of LDH coatings between Mg alloy and Al alloy was carried out from different perspectives,and further researches on LDH corrosion protection were prospected.
基金Supported by the Industrial Technological Initiation Scholarship of National Council for Scientific and Technological Development,CNPq,Brazil,No.0932204294929829 and No.7414780530977345the Scientific Initiation Scholarship Programme(PIBIC)of National Council for Scientific and Technological Development,CNPq,Brazil,No.5763023359532159,No.6472982965854452,and No.7340128440641417+2 种基金the Scientific Initiation Scholarship Programme(PIBIC)of Bahia State Research Support Foundation,FAPESB,Brazil,No.19.573.301.5418the PERMANECER Programme of Pro-Rectory of Student Assistance at Federal University of Bahia,No.R8EZ-4V4W-6LQX-5LC8the CNPq Research Productivity Fellow,No.4357511882624145.
文摘Recent studies have shown a noticeable increase in global Helicobacter pylori(H.pylori)resistance,with clarithromycin resistance surpassing 15%in various areas.However,inadequate epidemiological monitoring,especially in developing countries,and the absence of uniform testing methods lead to discrepancies between regions and a possible underestimation of resistance levels.The complexity of treating H.pylori is driven by its highly dynamic genome,which is prone to frequent mutations contributing to phenotypical resistance.The usual course of action in empirical treatment involves using a combination of various drugs simultaneously,leading to significant resistance selection pressure and potential side effects.The emergence of H.pylori strains resistant to multiple drugs is closely tied to failures in first-line treatment,highlighting the need to prevent further resistance by using optimal initial empirical therapy or regimens guided by antibiotic susceptibility testing,requiring a collection of mixed samples and multiple isolates for accurate assessment.The emergence of new treatments like potassium-competitive acid blockers offers a hopeful approach to decrease antimicrobial usage while still ensuring effectiveness in comparison to traditional therapies with proton pump inhibitors.Additionally,the use of probiotics is under investigation to identify specific strains and formulations that may mitigate therapy-associated adverse effects.
基金supported by the National Research Foundation of Korea(NRF)grant funded by the Korean government(MSIT)(No.RS-2023-00208762)the Ulsan University Hospital Research Grant(UUH-2020-01)the 2025 Research Fund(1.250008.01)of UNIST(Ulsan National Institute of Science and Technology)。
文摘The in vitro and in vivo degradation behavior of an experimental Mg alloy with high corrosion resistance has been investigated and compared with that of a commercial AZ31 Mg alloy with a similar chemical composition.In vitro tests indicated that the experimental alloy is>2.5 times more resistant to degradation than AZ31 during immersion in HBSS at 37℃ for 72 h.In vivo tests in the femoral vein of a mouse confirmed that the former degrades much more slowly and uniformly in the biological environment than the latter.Compared with WE43 and JDBM alloys,which are currently considered promising candidates for Mg-based biodegradable materials,the experimental alloy in this study showed better degradation resistance with a similar level of biocompatibility.Microstructural and electrochemical factors affecting the degradation behavior of the alloys in this study are also discussed.
基金The Research and Cultivation Spectial Project of Beijing Center for Disease Prevention and Control,Grant/Award Number:2023-KYJH-03。
文摘Background:C hina is a high-burden country for multidrug-r esistant tuberculosis/rifampin-resistant tuberculosis(MDR/RR-T B).Fluoroquinolones(FQs)are key drugs for the treatment of patients with MDR/RR-T B.However,research on the resistance of FQs in Beijing is limited.Methods:W e collected clinical isolates from all patients with pulmonary TB in Beijing from January 2016 to December 2021,conducted drug-s ensitivity tests and sequencing for levofloxacin(LFX)and moxifloxacin(MFX),and collected the treatment plans and outcomes of the patients.Results:A total of 8512 clinical isolates were collected from patients with pulmonary TB,and 261 RR-T B strains were screened.The proportions of drug-s ensitive and drugresistant strains significantly differed by age group and treatment history.The rates of LFX and MFX resistance were 27.6%(72/261)and 36.4%(95/261),respectively.The detection rates of MDR-T B and pre-e xtensively drug-resistant TB(pre-X DR-T B)were 73.2%(191/261)and 36.4%(95/261),respectively,and the trends were significant(χ^(2)trend=9.995,p=0.002;χ^(2)trend=12.744,p=0.026).Among the 261 RR-T B strains,14.9%(24/261)were sensitive to LFX but resistant to MFX.Among the four patients with LFX-r esistant TB who received LFX treatment failed in three patients(Fisher's exact test,p=0.009).The common mutation sites were 94 and 90 in gyrA.A novel mutation Ala90Ser was discovered.Conclusions:F Qs resistance trends in RR-T B patients in Beijing are striking.Strains showed incomplete cross-resistance to LFX and MFX.Testing for FQs resistance and developing a reasonable treatment plan are recommended.Attention should be given to the changing trends in MDR-T B and pre-X DR-TB.
基金supported by the Researchers Supporting Project of King Saud University,Riyadh,Saudi Arabia,under Project RSPD2025R681。
文摘With the continuous advancement of communication and unmanned aerial vehicle(UAV)technologies,the collaborative operations of diverse platforms,including UAVs and ground vehicles,have been significantly promoted.However,battlefield uncertainties,such as equipment failures and enemy attacks,can impact these collaborative operations'stability and communication efficiency.To this end,we design a highly destruction-resistant air-ground cooperative resilient networking platform that aims to enhance the robustness of network communications by integrating ground vehicle information for UAV network deployment.It then incorporates the concept of virtual guiding force,enabling the UAV swarm to adaptively configure its network layout based on ground vehicle information,thereby improving network destruction resistance.Simulation results demonstrate that the UAV swarm involved in the proposed platform exhibits balanced flight energy consumption and excellent performance in network destruction resistance.
基金supported by the Science and Technology Development Fund(FDCT),Macao SAR(No.0149/2022/A),and(No.0046/2024/AFJ)Guangdong Science and Technology Department(No.2023QN10C305)。
文摘A high humidity-resistant,dual mechanical responsive,and reversible mechanochromic wrinkling system based on a VHB 4910-polydimethylsiloxane(PDMS)substrate with a thin film consisting of 90 wt%poly(vinyl butyral)(PVB)and 10 wt%hydroxypropyl cellulose(HPC)has been reported.The wrinkling system exhibited significant optical tuning from transparent to opaque states with 50%changes in transmittance,which was achieved through the dual mechanical modes of pre-stretching and releasing processes or bending.Upon exposure to ethanol vapor or a re-flattening process,wrinkles can be erased,yielding a transparent state.Consequently,the wrinkling system could be reversibly switched between transparency and opacity for 1000 cycles with marginal changes in the optical performance.Owing to the insolubility of PVB in water,the wrinkling patterns exhibited excellent durability in high-humidity environments(relative humidity(RH)=99%).Furthermore,the smart encryption device is also demonstrated via mechano-controlled surface topography by patterning the wrinkling system,suggesting potential applications of the designed structure in smart windows,anti-counterfeiting,dynamic display,optical information encryption,and rewritable surfaces.
文摘BACKGROUND The upsurge of antibiotic resistance is a significant challenge to public health,and the dry pipeline of new antibiotics has prompted the discovery of alternative treatment approaches.Enterococcus faecalis(E.faecalis)isolates are often multidrugresistant,posing challenges to antibiotic therapy.Bacteriophage therapy is being explored as an alternative method to treat the growing population of antibioticresistant infections.Nevertheless,many inherent limitations of phages diminish their therapeutic utility,notably the restricted host range and quick development of mutants.The specific types and quantities of bacteriophages and antibiotics may be crucial in generating the optimal phage-antibiotic synergy.AIM To optimize the doses,order,and timing to optimize the synergy of phages and vancomycin on different bacteria states.METHODS A volume of 180μL of E.faecalis bacteria in the logarithmic growth phase,with a concentration of approximately 1×10^(8)colony forming units(CFUs)/mL,was introduced onto a microtitre plate.Subsequently,20μL of phage suspension(1×10^(6)PFUs/mL),vancomycin(16μg/mL),or a combination of both was introduced into the designated wells in the specified sequence and incubated at 37°C for 48 hours.The number of live bacteria was counted at different time points using standardized CFU counting protocols.RESULTS The biofilm model demonstrated that combining phages with vancomycin can eradicate the biofilm.Sequential therapy,involving phage application 8 hours before the antibiotic at a concentration of 108 PFUs/mL,proved the most efficient in eliminating the biofilms and killing the planktonic form of E.faecalis.CONCLUSION The combination of phageɸEFP01 at a higher concentration with a subinhibitory concentration of vancomycin yields a synergistic antibacterial outcome on E.faecalis strain resistant to vancomycin.
基金supported by the National Science Foundation of China under Grant Nos(Nos.12127806,62175195)the International Joint Research Laboratory for Micro/Nano Manufacturing and Measurement Technologies。
文摘Transparent materials utilized as underwater optical windows are highly vulnerable to various forms of pollution or abrasion due to their intrinsic hydrophilic properties.This susceptibility is particularly pronounced in underwater environments where pollutants can impede the operation of these optical devices,significantly degrading or even compromising their optical properties.The glass catfish,known for its remarkable transparency in water,maintains surface cleanliness and clarity despite exposure to contaminants,impurities abrasion,and hydraulic pressure.Inspired by the glass catfish’s natural attributes,this study introduces a new solution named subaquatic abrasion-resistant and anti-fouling window(SAAW).Utilizing femtosecond laser ablation and electrodeposition,the SAAW is engineered by embedding fine metal bone structures into a transparent substrate and anti-fouling sliding layer,akin to the sturdy bones among catfish’s body.This approach significantly bolsters the window’s abrasion resistance and anti-fouling performance while maintaining high light transmittance.The sliding layer on the SAAW’s surface remarkably reduces the friction of various liquids,which is the reason that SAAW owns the great anti-fouling property.The SAAW demonstrates outstanding optical clarity even after enduring hundreds of sandpaper abrasions,attributing to the fine metal bone structures bearing all external forces and protecting the sliding layer of SAAW.Furthermore,it exhibits exceptional resistance to biological adhesion and underwater pressure.In a green algae environment,the window remains clean with minimal change in transmittance over one month.Moreover,it retains its wettability and anti-fouling properties when subjected to a depth of 30 m of underwater pressure for 30 d.Hence,the SAAW prepared by femtosecond laser ablation and electrodeposition presents a promising strategy for developing stable optical windows in liquid environments.
基金supported by the National Key Research and Development Program of China(No.2022YFB3603101)。
文摘Polyimide(PI)is widely used in high-tech fields such as microelectronics,aerospace,and national defense because of its excellent optical properties,high-and low-temperature resistance,and good dimensional stability.To achieve the desired properties of PI,the monomers 2,6-diaminopyrimidin-4-ol(DAPD)and 6-(2,3,5,6-tetrafluoro-4-vinylphenoxy)pyrimidin-2,4-diamine(DAFPD),which contains crosslinkable functional groups,were designed and synthesized successfully and copolymerized with 4,4'-oxydianiline(ODA)and 4,4-hexafluoroisopropylphthalic anhydride(6FDA).The prepared PI film(PI-3),with rigid backbones and loose packing had excellent heat resistance(Td5%=489℃)and optical properties(T450=82%).Furthermore,a crosslinked PI film(c-PI-3)with more heat-resistant(Td5%=524℃)and better mechanical properties(σ=125.46MPa),can be obtained through thermal crosslinking of tetrafluorostyrene.In addition,the changes in the properties caused by the proportion of DAFPD added during copolymerization are discussed comprehensively.This study provides a promising candidate for heat-resistant PI materials.
基金supported by the National Natural Science Foundation of China(NSFC)under Grant Nos.22375074,21972054,82201028the Natural Science Foundation of Jilin Province,China(No.20220101204JC)+1 种基金the Norman Bethune Program of Jilin University(2022B38)"Medical+X"Cross Innovation Team"Unveiling the List and Taking Command"Construction Project of Bethune Medical College of Jilin University(2024JBGS06).
文摘Hydrogels derived from biopolymers have numerous applications in bioengineering,drug delivery,wound healing,and wearable devices.Yet,their strong swelling and uncontrollable degradation stimulate the development of hydrogels that overcome these limitations.Here,we report nanocolloidal hydrogels formed from nanoparticles of methacryloyl-modified biopolymers that exhibit resistance to swelling and enzymatic degradation both in vitro and in vivo,along with exhibiting a broad-range of mechanical and lubrication properties,wear resistance and biocompatibility.The nonswelling behavior of nanocolloidal hydrogels takes origin in the resistance to swelling of their hydrophobic regions which are resulted from the nanophase of hydrophobic methacryloyl groups in the interior of the constituent nanoparticles.The developed approach to the preparation of nanocolloidal hydrogel with greatly enhanced properties will have applications in long-term drug delivery and cell culture,soft tissue augmentation,and implantable bioelectronics.
基金supported by the National Natural Science Foundation of China(Nos.51978576,42207021 and 52370177)Sichuan Province Science and Technology Support Program(Nos.2023ZHCG0058,2025ZNSFSC0194 and 2024NSFSC0131)+1 种基金the Fundamental Research Funds for the Central Universities(No.2682024ZTPY012)the Science and Technology Project of Sichuan Tobacco Company of China National Tobacco Corporation(Nos.SCYC202109 and SCYC202409)。
文摘Prominent cadmium(Cd)pollution and widespread phoxim(p H)use hinder the growth and medicinal value of Ligusticum chuanxiong Hort.(Chuanxiong).While bioremediation by rhizobacteria helps plants counter pollutants,the specific roles of indigenous resistant consortia collected from polluted soils in immobilizing heavy metals,degrading pesticides,and enhancing plant stress tolerance remain insufficiently explored.Here,an indigenous pollutant-resistant consortium(RM)was developed from a highly Cd-polluted area(14.85 mg/kg Cd)as a bioremediation strategy to alleviate stress on Chuanxiong.The RM was specifically enriched with a Cd-p H co-resistant strain,Halomonas spp.TS2.Through16S r RNA sequencing,active microorganisms within RM was identified,including Bacillus,Acinetobacter,Enterococcus,Paraclostridium,and Staphylococcus.Pot experiments demonstrated that RM increased Chuanxiong biomass by 93.38%under Cd-contaminated and by 32.89%under Cd-p H co-contaminated.Furthermore,RM enhanced p H degradation,stabilized soil compounds,and reduced Cd bioavailability,thereby mitigating oxidative damage and altering the diversity and composition of Cd-p H-resistant organisms.These results indicate that utilizing indigenous microbial consortia as a bioremediation strategy can effectively improve soil health and enhance the sustainable cultivation of medicinal herbs in environments heavily contaminated.
