简介：ThemagnetizationreversalmechanismsforNinanowireswithdifferentdiameterswereinvestigatedbymi-cromagneticsimulations.Theresultsshowthatthereversalmechanismsaresignificantlydependentonthediameterofwire.Forverythinwires,thereversaloccursbypseudo-coherentrotation.Withincreasingdiam-eter,magnetizationreversaltakesplaceviadifferentnucleation(thetransversedomainwallandthevortexdomainwall)andsubsequentpropagation.Thereasonoftransitionfromthetransversedomainwalltothevortexdomainwallisgivenbyanalyticalstudies.Withfurtherincreaseofthediameter,thereversalnucleardomainwallbecomestundish-shapedform.Asthediameterincreases,thewidthofwallbecomeslarger.

简介：传导性的Au-biopolymercomposites在象神经织物那样的织物工程有有希望的应用新生。在这研究，丝绸丝心蛋白nanofibers被调整丝绸在水的答案形成自己组装进程然后为Aunanowire用作模板制造。我们由重复播种周期执行了Au种子的合成因为若干次Au的密度在nanofibers上播种以便增加。在无电的plating以后，浓密地装饰了种子种了进跟随丝绸nanofiber充满在粒子之间的差距并且最后形成一致连续nanowires的不规则地塑造的粒子的Au。Au丝绸丝心蛋白nanowires的传导性的性质被学习与当前电压(IV)测量。典型欧姆的行为被观察，它在神经织物新生加亮他们的潜在的应用。

简介：Nanowireshavebeenprovedtobeexcellentcandidatesforfuturenanodevicesfortheiradvantagesofbeingthesmallestchargecarrier,enablingabundantchoiceofmaterials,andrelatedsize,surfaceandquantumeffects.Nanowiresthusplayimportantroletounderstandthephysicalphenomenabetweenmacro-scaleNewtonworldandthemicro-scalequantummechanicalworld.Ourgroupisamongthefewpioneersinearly1998'sindevelopingmethodsforsynthesisofsiliconnanowires,andextendingthenanowiresynt...

简介：FenanowirearraywithstrongshapeanisotropywasemployedasthesoftphaseinNd-Fe-Bbasednanocomposites.TheeffectsoftheFenanowiredistributiononmagneticpropertiesofthenanocompositeswereinvestigatedbymicromagneticsimulation.TheresultsindicatethattheshapeanisotropyofFewiresaddedinthesamedirectionastheuniaxialmagnetocrystallineanisotropyofthehardphasecannotincreasethecoercivityofthenanocomposite.Whenthenanowiresaredistributedperpendiculartotheeasyaxisofthehardphase,theshapeanisotropyofsoftphasecanretardthemomentsfromrotatingtothefullreverseddirection,leadingtoenhancedcoercivity.Inaddition,withincreasingthenanowirediameter,thecoercivityofthenanocompositedecreases,butthedipolarinteractionshowsdifferentrolesinmagneticreversalofnanocompositefordifferentdistributionsofnanowires.ThecurrentresultssuggestthatthecoercivityoftheNd2Fe14B/α-Fenanocompositecanbeenhancedbyintroducingthesoftmagneticnanowirearraywiththediameterlessthantheexchangelengthandwiththelongaxisalongthedirectionotherthantheeasyaxisofhardphase.