Recently,a disruptive idea was reported about the discovery of a new type of battery named Liquid Displacement Battery(LDB)comprising liquid metal electrodes and molten salt electrolyte.This cell featured a novel conc...Recently,a disruptive idea was reported about the discovery of a new type of battery named Liquid Displacement Battery(LDB)comprising liquid metal electrodes and molten salt electrolyte.This cell featured a novel concept of a porous electronically conductive faradaic membrane instead of the traditional ion-selective ceramic membrane.LDBs are attractive for stationary storage applications but need mitigation against self-discharge.In the instant battery chemistry,Li|LiCl-PbCl_(2)|Pb,reducing the diffusion coefficient of lead ions can be a way forward and a solution can be the addition of Pb O to the electrolyte.The latter acts as a supplementary barrier and complements the function of the faradaic membrane.The remedial actions improved the cell’s coulombic efficiency from 92%to 97%without affecting the voltage efficiency.In addition,the limiting current density of a 500 m Ah cell increased from 575 to 831 m A cm;and the limiting power from 2.53 to 3.66 W.Finally,the effect of Pb O on the impedance and polarization of the cell was also studied.展开更多
The unprecedented problem of antibiotic resistance has become a major challenge for public health,which has contributed to an increase in infections caused by such bacteria.These microbial infections,typically biofilm...The unprecedented problem of antibiotic resistance has become a major challenge for public health,which has contributed to an increase in infections caused by such bacteria.These microbial infections,typically biofilm-related,are alsocoupled to an increase in human mortality and morbidity.However,the demand for new antimicrobial agents hasincreased along with the evolution of microbial resistance mechanisms.Natural products produced by bacteria,such as phenazines,have been recognized as an important source for the development of new antimicrobial agents,through the exploitation of their capacity to increase oxidative stress in other organisms.Phenazines are a large groupof nitrogen-containing heterocyclic compounds and are essential for several cellular processes including iron acquisition,signaling events,enzymatic processes,and biofilm formation.Phenazine-inspired antibiotics(i.e.,2-bromo-1-hydroxyphenazine,2,4-dibromo-1-hydroxyphenazine,bromophenazine-21,phenazine-13,and phenazine-14)are veryactive against a wide range of gram-positive and gram-negative bacteria,including those associated with severe infections.In this study,mechanisms of phenazine-inspired antibiotics in the cellular processes of planktonic and sessilebacteria are reviewed.Moreover,the application of phenazine-inspired antibiotics for the eradication of multidrugresistant planktonic and biofilm bacterial infections is also reviewed.展开更多
For sustainable plant drinks production,the biorefinery concept of obtained press cakes(PC)using ultrasonication,mechanical separation,and ultra-filtration was designed in Fraunhofer UMSICHT(Germany).In this study obt...For sustainable plant drinks production,the biorefinery concept of obtained press cakes(PC)using ultrasonication,mechanical separation,and ultra-filtration was designed in Fraunhofer UMSICHT(Germany).In this study obtained permeates,as wastes after ultrafiltration of PC(soyabeans,almonds,coconut,oats,and rice)were analyzed and their bio-stimulatory effect on the growth of wheatgrass in vivo was investigated.Permeates with higher soluble protein content(soy,almonds,and coconut)resulted in a significant increase in germination parameters(germination percentage(GP),length of stem and root as well as biomass of stem and root increased on averge by 8.3%,15.8%,9.2%,2.22 times and 1.8 times,respectively)compared to the control treatment.Additionally,the fermentation using antimicrobial lactic acid bacteria(LAB)strains(Lactobacillus brevis LUHS173,Pediococcus acidilactici LUHS236 and Lactobacillus farraginis LUHS206)was applied for bio-treatment of permeates.The efficiency of fermentation process was evaluated on the changes of pH,TTA,LAB growth kinetics and lactic acid and its isomers production.Furthermore,the antifungal activity of selected fermented products against fungi(Fusarium graminearum F,F.graminearum,and F.culmorum)was determined.It was found that the highest antifungal activity(18.0 mm and 16.5 mm,respectively)was obtained by 48 h fermentation of permeates from grain press cake(oats and rice),containing the most reducing saccharides,and they significantly improved the germination of contaminated grains.Innovations in the sustainable production of plant-origin drinks enable to implementation of new,environmentally friendly technologies in food sector.展开更多
基金financially supported by the research unit of Group Sadoway Laboratory,Department of Materials Science and Engineering,Massachusetts Institute of Technology,77 Massachusetts Avenue,Cambridge,MA,02139-4307,United Statesthe Portuguese Foundation for Science and Technology(FCT)for his Ph.D.scholarship(PD/BD/128041/2016)+2 种基金financially supported by the Base Funding(UIDB/00511/2020)of the Laboratory for Process Engineering,Environment,Biotechnology and Energy–LEPABEfunded by national funds through the FCT/MCTES(PIDDAC)continuous support from MIT Portugal Program。
文摘Recently,a disruptive idea was reported about the discovery of a new type of battery named Liquid Displacement Battery(LDB)comprising liquid metal electrodes and molten salt electrolyte.This cell featured a novel concept of a porous electronically conductive faradaic membrane instead of the traditional ion-selective ceramic membrane.LDBs are attractive for stationary storage applications but need mitigation against self-discharge.In the instant battery chemistry,Li|LiCl-PbCl_(2)|Pb,reducing the diffusion coefficient of lead ions can be a way forward and a solution can be the addition of Pb O to the electrolyte.The latter acts as a supplementary barrier and complements the function of the faradaic membrane.The remedial actions improved the cell’s coulombic efficiency from 92%to 97%without affecting the voltage efficiency.In addition,the limiting current density of a 500 m Ah cell increased from 575 to 831 m A cm;and the limiting power from 2.53 to 3.66 W.Finally,the effect of Pb O on the impedance and polarization of the cell was also studied.
基金supported by Base Funding-LA/P/0045/2020(ALiCE),UIDB/00511/2020,and UIDP/00511/2020(LEPABE)funded by national funds through FCT/MCTES(PIDDAC)Project Germirrad-POCI-01-0247-FEDER-072237 funded by FEDER funds through COMPETE2020-ProgramaOperacional Competitividade e Internacionalização(POCI)andby national funds(PIDDAC)through FCT/MCTES.
文摘The unprecedented problem of antibiotic resistance has become a major challenge for public health,which has contributed to an increase in infections caused by such bacteria.These microbial infections,typically biofilm-related,are alsocoupled to an increase in human mortality and morbidity.However,the demand for new antimicrobial agents hasincreased along with the evolution of microbial resistance mechanisms.Natural products produced by bacteria,such as phenazines,have been recognized as an important source for the development of new antimicrobial agents,through the exploitation of their capacity to increase oxidative stress in other organisms.Phenazines are a large groupof nitrogen-containing heterocyclic compounds and are essential for several cellular processes including iron acquisition,signaling events,enzymatic processes,and biofilm formation.Phenazine-inspired antibiotics(i.e.,2-bromo-1-hydroxyphenazine,2,4-dibromo-1-hydroxyphenazine,bromophenazine-21,phenazine-13,and phenazine-14)are veryactive against a wide range of gram-positive and gram-negative bacteria,including those associated with severe infections.In this study,mechanisms of phenazine-inspired antibiotics in the cellular processes of planktonic and sessilebacteria are reviewed.Moreover,the application of phenazine-inspired antibiotics for the eradication of multidrugresistant planktonic and biofilm bacterial infections is also reviewed.
基金This research was supported in part by the ERA-NET project DISCOVERY:“Disaggregation of conventional vegetable press cakes by novel techniques to receive new products and to increase the yield”.Project code SUSFOOD2-ID:101.This work is also based upon the work from COST Action 18101 SOURDOMICS-Sourdough biotechnology network towards novel,healthier and sustainable food and bioprocesses(http s://sourdomics.com/https://www.cost.eu/actions/CA18101/),where the author J.M.F.R.is the Chair and Grant Holder Scientific Representative,the author E.B.is vice-chair and leader of the working group 6“Project design and development innovative prototypes of products and small-scale processing technologies”,the author G.J.is leader of the working group 3“Design and development sourdough starter cultures for breadmaking and other agri-food products”and the author F.¨O.is the leader of the working group 8“Food safety,health promoting,sensorial perception and consumers’behaviour”,and is supported by COST(European Cooperation in Science and Technology)(https://www.cost.eu/).COST is a funding agency for research and innovation networks.Regarding the author J.M.F.R.,this work was also financially supported by:(i)Base Funding-UIDB/00511/2020 of the Laboratory for Process Engineering,Environment,Biotechnology and Energy-LEPABE-funded by national funds through the FCT/MCTES(PIDDAC)(ii)Project PTDC/EQU-EQU/28101/2017-SAFEGOAL-Safer Synthetic Turf Pitches with Infill of Rubber Crumb from Recycled Tires,funded by FEDER funds through COMPETE2020-Programa Operacional Competitividade e Internacionalizaç˜ao(POCI)and by national funds(PIDDAC)through FCT/MCTES.
文摘For sustainable plant drinks production,the biorefinery concept of obtained press cakes(PC)using ultrasonication,mechanical separation,and ultra-filtration was designed in Fraunhofer UMSICHT(Germany).In this study obtained permeates,as wastes after ultrafiltration of PC(soyabeans,almonds,coconut,oats,and rice)were analyzed and their bio-stimulatory effect on the growth of wheatgrass in vivo was investigated.Permeates with higher soluble protein content(soy,almonds,and coconut)resulted in a significant increase in germination parameters(germination percentage(GP),length of stem and root as well as biomass of stem and root increased on averge by 8.3%,15.8%,9.2%,2.22 times and 1.8 times,respectively)compared to the control treatment.Additionally,the fermentation using antimicrobial lactic acid bacteria(LAB)strains(Lactobacillus brevis LUHS173,Pediococcus acidilactici LUHS236 and Lactobacillus farraginis LUHS206)was applied for bio-treatment of permeates.The efficiency of fermentation process was evaluated on the changes of pH,TTA,LAB growth kinetics and lactic acid and its isomers production.Furthermore,the antifungal activity of selected fermented products against fungi(Fusarium graminearum F,F.graminearum,and F.culmorum)was determined.It was found that the highest antifungal activity(18.0 mm and 16.5 mm,respectively)was obtained by 48 h fermentation of permeates from grain press cake(oats and rice),containing the most reducing saccharides,and they significantly improved the germination of contaminated grains.Innovations in the sustainable production of plant-origin drinks enable to implementation of new,environmentally friendly technologies in food sector.
