简介:Twooxo-vanadium(IV)complexes,[VO(C2O4)(2,2′-bipy)(H2O)]·C2H5OH(1)andVO(C2O4)(phen)(H2O)(2),where2,2′-bipy=2,2′-bipyridyl,phen=1,10-phenanthroline,weresynthesizedaspotentialfunctionalmodelsofvanadiumhaloperoxidases(VHPOs)inmixedsolventofethanolandwateratroomtemperature.Thecomplexeswerecharacterizedbyelementalanalysis,infrared(IR),UV-VisandX-raycrystallography.Structuralanalysesshowedthatvanadiumatomwascoordinatedbyaterminaloxygen,oneoxygenatomfromcoordinatedwater,twooxygenatomsfromthecarboxylategroupofoxalicacid,andtwonitrogenatoms(N1andN2)from2,2′-bipy/phen.Centralvanadiumatomsincomplexes1and2werebothinadistorted-octahedralenvironment,andsomeintermolecularhydrogenbondinglinkageswerealsoobservedineachcomplex.BrominationreactionactivityofthetwocomplexeswasevaluatedwithphenolredasorganicsubstrateinthepresenceofH2O2,Br-andphosphatebuffer,indicatingthattheycanbeconsideredasapotentialfunctionalmodelofVHPO.Inaddition,thermalanalysiswasalsoperformedanddiscussedindetail.
简介:合成了一个新的配合物,经元素分析及X-射线衍射对其结构进行了表征.化合物晶体属单斜晶系,P2(1)/c空间群,晶胞参数:a=6.4824(13),b=6.1325(12),c=19.980(4),α=90°,β=91.925(2)°,γ=90°,V=793.8(3)A3,M=245.05,Z=4,Dc=2.050Mg.m-3,F(000)=492,吸收系数μ=1.671mm-1,最终偏离因子R1=0.0263,wR2=0.0692.化合物的分子结构存在一维链状的结构,由于复杂氢键的存在,它的堆积结构呈二维网状排列,而且在[010]方向看到了纳米空洞.
简介:Thedifferencesofreductionbehaviorsbetweenironorelumpandpelletswerestudiedbyconductinglowtemperaturereductiondegradation,staticloadreductionanddroplettests.Thesetestssimulatedtheconditionsofreductiontemperatureandhydrogen-containinggasinCOREX.Duetoitsdensestructureandlowporositycomparedwithpellets,lumporepossessespoorreductiondegradationindex(RDI)andslowerreductionrateinearlyandmediumreactionstages,showingsignsoflowerstrength,lowersofteningandmeltingtemperatures,aswellasawidermeltingzoneandhigherΔP.Thatprovidessomebasistoexplainthephenomenaofdifferentialpressurerise,metallizationdeclineandmorestickingaftertheusageoflumporeinCOREXplant.
简介:Usingorganicaquaregia,arecentlydiscoveredpowerfulorganicleachingagent,aneffectiveprocessofrecoveringPtdirectlyfromPt-Aubimetallicnanoparticleswasdemonstrated.ThepuritiesofthePtrecoveredfromamixtureofAuandPtnanoparticlesandfromPt-Aucore-shellnanoparticlecatalystareashighas(99.49±0.22)%,and(95.02±0.08)%,respectively.Thenovelrecoveryprocesspromisesapplicationsincatalysisindustry.
简介:摘要在学习H2S与Na2S溶液性质时,不少学习者对于H2S和Na2S溶液与其它物质所进行的化学反应,往往只看到其共同点即S2-离子的强还原性,而忽略了H2S与Na2S溶液本身的酸碱性对反应的影响,从而很容易得出H2S与Na2S溶液分别与同一氧化性物质反应呈现同样实验现象的错误结论。本文以SO2和FeCl3溶液与两者的反应为例对这一问题进行了一些初浅的讨论。
简介:Aseriesofnovel1H-benzimidazol-1-ylacetatesand1H-benzimidazol-1-ylpropionatescontaining1H-1,2,4-triazolemoietyweresynthesizedundermicrowaveirradiationbymulti-stepreactions,inyieldsof87-94%.TheirinvitroantifungalactivitiesagainstBotrytiscinereaandSclerotiniasclerotiorumwereevaluatedbymycelialgrowthratemethod.AllthetargetcompoundsexhibithighactivitiesagainstB.cinereawiththeEC50valuesof7.96-21.74μg/mL,higherthanthatofcarbendazim.
简介:hydroxyapatite(哈)涂层在对待H2O2的碳/碳(C/C)上被完成通过热水地对待和在超声的水下面在一个氨答案加热扔的CaHPO4涂层的正式就职合成洗澡。然后,这哈涂层被放在一个NH4F答案并且热水地再对待制作氟化的hydroxyapatite(联邦住房管理局)为在353,373,393和413K的24h的涂层分别地。结构,形态学和HA和联邦住房管理局涂层的化学作文被SEM,XRD,版本和FTIR描绘,并且粘着性和这些联邦住房管理局涂层的化学稳定性被擦伤测试和沉浸测试分别地检验。结果证明同样准备的联邦住房管理局涂层包含了像针或像条纹的晶体,与那些不同HA涂层。作为加氟作用温度玫瑰,FHA涂层的粘着性首先在在353和393K之间的温度从34.8~40.9N增加了,然后在413K减少了到24.2N,当FHA涂层的溶解率稳定地减少了时。为FHA涂层的性质变化的原因被分析涂层的形态学,作文和结构建议。