简介:摘要:本文以各个专利数据库中的检索结果为样本,从专利角度对锂离子电池正极材料LiNi0.8Co0.1Mn0.1O2这一领域进行了相关分析,总结了锂离子电池正极材料LiNi0.8Co0.1Mn0.1O2的专利申请状况,探讨了锂离子电池正极材料LiNi0.8Co0.1Mn0.1O2当前存在的问题并对其研究发展方向做了展望。
简介:A0.18lmCMOSlownoiseamplifier(LNA)byutilizingnoise-cancelingtechniquewasdesignedandimplementedinthispaper.Current-reuseandself-biastechniqueswereusedinthefirststagetoachieveinputmatchingandreducepowerconsumption.ThecoresizeoftheproposedCMOSLNAcircuitwithoutinductorwasonly128lm9226lm.ThemeasuredpowergainandnoisefigureoftheproposedLNAwere20.6and1.9dB,respectively.The3-dBbandwidthcoversfrequencyfrom0.1to1.2GHz.Whenthechipwasoperatedatasupplyvoltageof1.8V,itconsumed25.69mW.ThehighperformanceoftheproposedLNAmakesitsuitableformultistandardlow-costreceiverfront-endswithintheabovefrequencyrange.
简介:EffectofMnsubstitutionforFeincubicLavesZr0.1Tb0.9(Fe1-xMnx)2andY0.1Tb0.9(Fe1-xMnx)2com-poundsispresented.Similarresultsinbothsystemsareobtained:ThestructureandthemagnetismofTbFe2arebothinfluencedslightlybyasmallamountofYorZrsubstitutionforTb;Withincreasingxvalue,thelatticeconstantincreasesmonotonously;theCurietemperaturedecreaseslinearly;whilesaturationmagnetizationincreaseslinearly.ForthesmallamountofMnsubstitutionforFeinbothsystems,magnetostrictionissignificantlylargerthanthatinthepureironalloys.Thelargestmagnetostrictionof|γ‖-|γ|=2200×10-6atmagneticfieldof2×107/4πA/misobtainedforY0.1Tb0.9(Fe0.95Mn0.052.
简介:摘要目的探讨0.1%罗哌卡因复合芬太尼自控硬膜外分娩镇痛(PCEA)的效果及对产程、母婴的影响。方法选择60例ASAI~Ⅱ级单胎初产妇,随机分为对照组和镇痛组。对照组为自然分娩,镇痛组于宫口开至3.5cm时,常规L2~3硬膜外穿刺,向头侧置管3.5cm,0.1%罗哌卡因+芬太尼1μg/mL持续硬膜外注入。观察并记录两组疼痛评分、产程时间、注药前后宫缩间隔时间、宫缩持续时间、胎儿心率、计算产后出血量及新生儿Apgar评分,持续监测产妇血压、心率、脉搏血氧饱和度。结果镇痛组镇痛效果良好,疼痛计分明显低于对照组(P<0.05),其余观察指标两组间差异无显著意义(P>0.05)。结论0.1%罗哌卡因+芬太尼1μg/mL用于硬膜外分娩镇痛效果良好,对产妇及新生儿无不良影响。
简介:MgTixNi(x=0,0.1,and0.2)alloysweresuccessfullypreparedbymechanicalalloying(MA),andtheinfluenceofmillingtimeontheelectrochemicalcharacteristicsoftheelectrodeswasdiscussed.MgTixNialloysafter90hmillingdisplayedthebestelectrochemicalperformance.TheX-raydiffractionpatternsshowedthatthealloyball-milledfor90hwasamorphouswithawideneddiffractionpeak.Thecharge-dischargetestsindicatedthatthesealloyshadgoodelectrochemicalactivationproperties,andtheMgTi0.2Nialloyelectrodeexhibitedthebestcycleperformance.TheinitialdischargecapacityoftheMgTi0.2Nialloyreachedupto401.1mAh·g-1,andtheretentionrateofcapacitywas31.0%after30cycles,muchhigherthanthatofMgNi(17.3%).TheTafelpolarizationcurvesrevealedthatTiadditioncouldenhancetheanticorrosionperformanceofthesealloysinalkalisolution,whichwasresponsiblefortheamelioratedcyclicstabilityofthesealloyelectrodes.
简介:在这份报纸,有石墨(C)或碳nanotubes(CNT)的增加的SmCo6.9Hf0.1当演员组合金和带子被融化的弧和融化旋转分别地准备。补充说结构和磁性SmCo6.9Hf0.1上的碳借助于X光检查衍射(XRD)被调查的效果,扫描电子显微镜学(SEM),传播电子显微镜学(TEM),磁性的力量显微镜学(MFM)和颤动的样品磁强计(VSM)。尽管他们的水晶结构作为一样的Sm被描绘,微观结构和SmCo6.9Hf0.1带子的磁性的结构由于C或CNT的介绍显然被改变,这被发现尽管他们的水晶结构作为一样的Sm被描绘(公司,Hf)7单个阶段,不管碳被增加。作为结果,包含碳的带子的磁性在某个度被提高。这被认为与精制equiaxed谷物,小领域尺寸和C或CNTs富有的区域的卡住的效果有关。SmCo6.9Hf0.1(CNT)的磁性0.05条带子到达了Hc=12.5kOe,Mr=57.0emu/g和Mr/M2T=0.788。