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Electrochemically-stimulated nanoscale mechanochemical wear of silicon

摩擦:英文版 2023年第11期11卷 2142-2152页

作者： Chen XIAO stefan van vliet Roland BLIEM Bart WEBER Steve FRANKLIN Advanced Research Center for Nanolithography(ARCNL) Amsterdam 1098XGthe Netherlands van der Waals–Zeeman Institute Institute of PhysicsUniversity of Amsterdam(UvA)Amsterdam 1098XGthe Netherlands Department of Materials Science and Engineering The University of SheffieldSheffield S13JDUK

Mechanochemical reactions at the sliding interface between a single-crystalline silicon(Si)wafer and a silica(SiO2)microsphere were studied in three environmental conditions:humid air,potassium chloride(KCl)solution,and KCl solution with an applied voltage.Compared to that from humid air,mechanochemical material removal from the silicon surface increased substantially in the KCl-immersed condition,and further increased when electrochemistry was introduced into the tribological system.By measuring the load dependence of the material removal rate and analyzing the results using a mechanically assisted Arrhenius-type kinetic model,the activation energy(E_(a))and the mechanical energy(E_(m)),by which this energy is reduced by mechanical activation,were compared qualitatively under different environmental conditions.In the KCl-immersed condition,mechanochemistry may decrease the required effective energy of reactions(E_(eff)=E_(a)−E_(m))and promote material removal mainly through improved catalysis of the mechanochemical reactions facilitated by greater availability of water molecules compared to the humid air condition.Thus,the effectiveness of the mechanochemistry is improved.In the electrochemical condition,electrochemically-accelerated oxidation of the silicon surface was confirmed by the X-ray photoelectron spectroscopy(XPS)characterization.The results strongly suggest that electrochemistry further stimulates mechanochemical reactions primarily by increasing the initial energy state of the surface via the facilitated formation of interfacial bonding bridges,i.e.,a surface oxidation/hydroxylation process.

关键词： spherical contact adhesive wear normal loading power law

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A solution scan of societal options to reduce transmission and spread of respiratory viruses:SARS-CoV-2 as a case study

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Journal of Biosafety and Biosecurity 2021年第2期3卷 84-90页

作者： William J.Sutherland Nigel G.Taylor David C.Aldridge Philip Martin Catherine Rhodes Gorm Shackelford Simon Beard Haydn Belfield Andrew J.Bladon Cameron Brick Alec P.Christie Andrew P.Dobson Harriet Downey Amelia S.C.Hood Fangyuan Hua Alice C.Hughes Rebecca M.Jarvis Douglas MacFarlane William H.Morgan Anne-ChristineMupepele stefan J.Marciniak Cassidy Nelson SeánÓhÉigeartaigh Clarissa Rios Rojas Katherine A.Sainsbury Rebecca K.Smith Lalitha S.Sundaram Ann Thornton John Watkins Thomas B.White Kate Willott Silviu O.Petrovan BioRISC(Biosecurity Research Initiative at St Catharine’s) St Catharine’s CollegeCambridge CB21RLUK Department of Zoology University of CambridgeThe David Attenborough BuildingPembroke StreetCambridge CB23QZUK Tour du Valat Research Institute for the Conservation of Mediterranean Wetlands13200 ArlesFrance Centre for the Study of Existential Risk University of CambridgeCB21SBUK Department of Social Psychology University of AmsterdamNieuwe Achtergracht 129 B1018 WT AmsterdamNetherlands Department of Ecology and Evolutionary Biology 117 Eno HallPrinceton UniversityNJ 08544USA Institute of Ecology College of Urban and Environmental SciencesPeking UniversityBeijing 100871PR China Centre for Integrative Conservation Xishuangbanna Tropical Botanical GardenChinese Academy of SciencesXishuangbannaYunnan 666303PR China Te Kura Putaiao-School of Science Auckland University of TechnologyAucklandNew Zealand School of Psychological Sciences University of Western AustraliaPerth35 Stirling HwyCrawley WA 6009Australia Nature Conservation and Landscape Ecology Biometry and Environmental System AnalysisUniversity of FreiburgGermany Cambridge Institute for Medical Research University of CambridgeCambridge Biomedical CampusThe Keith Peters BuildingHills RoadCambridge CB20XYUK Future of Humanity Institute University of OxfordOxford OX11PTUK Faculty of Kinesiology Sportand RecreationUniversity of Alberta2-130V Van Vliet 21 Complex(University Hall)EdmontonAlberta T6G 2H9Canada Division of Population Medicine School of MedicineCardiff UniversityCardiff CF144YSUK

Societal biosecurity–measures built into everyday society to minimize risks from pests and diseases–is an important aspect of managing epidemics and pandemics.We aimed to identify societal options for reducing the transmission and spread of respiratory viruses.We used SARS-CoV-2(severe acute respiratory syndrome coronavirus 2)as a case study to meet the immediate need to manage the COVID-19 pandemic and eventually transition to more normal societal conditions,and to catalog options for managing similar pandemics in the future.We used a‘solution scanning’approach.We read the literature;consulted psychology,public health,medical,and solution scanning experts;crowd-sourced options using social media;and collated comments on a preprint.Here,we present a list of 519 possible measures to reduce SARS-CoV-2 transmission and spread.We provide a long list of options for policymakers and businesses to consider when designing biosecurity plans to combat SARS-CoV-2 and similar pathogens in the future.We also developed an online application to help with this process.We encourage testing of actions,documentation of outcomes,revisions to the current list,and the addition of further options.

关键词： Biosecurity Coronavirus COVID-19 Disease control New normal Public health

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