Double enzyme mimetic activities of multifunctional Ag nanoparticle-decorated Co_(3)V_(2)O_(8)hollow hexagonal prismatic pencils for application in colorimetric sensors and disinfection

Since the catalytic activity of most nanozymes is still far lower than the corresponding natural enzymes,there is urgent need to discover novel highly efficient enzyme-like materials.In this work,Co_(3)V_(2)O_(8)with hollow hexagonal prismatic pencil structures were prepared as novel artificial enzyme mimics.They were then decorated by photo-depositing Ag nanoparticles(Ag NPs)on the surface to further improve its catalytic activities.The Ag NPs decorated Co_(3)V_(2)O_(8)(ACVPs)showed both excellent oxidase-and peroxidase-like catalytic activities.They can oxidize the colorless 3,3’,5,5’-tetramethylbenzidine rapidly to induce a blue change.The enhanced enzyme mimetic activities can be attributed to the surface plasma resonance(SPR)effect of Ag NPs as well as the synergistic catalytic effect between Ag NPs and Co_(3)V_(2)O_(8),accelerating electron transfer and promoting the catalytic process.ACVPs were applied in constructing a colorimetric sensor,validating the occurrence of the Fenton reaction,and disinfection,presenting favorable catalytic performance.The enzyme-like catalytic mechanism was studied,indicating the chief role of⋅O_(2)-radicals in the catalytic process.This work not only discovers a novel functional material with double enzyme mimetic activity but also provides a new insight into exploiting artificial enzyme mimics with highly efficient catalytic ability.

黄光发射纯Zn_(3)V_(2)O_(8)荧光粉的制备及光学性能研究

以1%BaF_(2)为助溶剂通过简单的高温固相法成功合成了黄光发射纯Zn_(3)V_(2)O_(8)荧光粉。采用X射线衍射(XRD)测定了Zn_(3)V_(2)O_(8)的纯度,通过激发/发射(PLE/PL)光谱、热猝灭光谱和荧光寿命曲线分析了其光学性质。结果表明:在360 nm激发下,Zn_(3)V_(2)O_(8)荧光粉在400~800 nm表现出较强的宽带发射,该发射归因于^(3)T_(2)→^(1)A_(1)和^(3)T_(1)→^(1)A_(1)的电子跃迁,其最佳发射波长在550 nm,发出明亮的黄光。在550 nm的监测下,Zn_(3)V_(2)O_(8)荧光粉在200~450 nm呈现宽吸收带。Zn_(3)V_(2)O_(8)荧光粉的发射衰减时间为1.67 ms,室温内量子效率高达47.09%。当温度升高到140℃时,该荧光粉的高温发射强度相比于室温发射强度的保持率为25.1%,高于其他石榴石结构的钒酸盐材料。Zn_(3)V_(2)O_(8)荧光粉作为新型白光发光二极管器件的黄光光源在低成本、可大批量生产方面具有潜在的优势。

氢气焙烧还原制备全钒液流电池用V_(2)O_(3)

针对氢气焙烧还原偏钒酸铵(AMV)制备全钒液流电池V_(2)O_(3)的试验条件、晶相和微观结构的影响展开研究。结果表明,优选试验条件为:氢气还原温度575℃、氢气还原时间1 h、氢气气流速率100 mL/min、还原后随炉冷却。通过上述试验方案获得的样品基本全部为V_(2)O_(3),主晶相为V_(2)O_(3),微观结构上晶粒饱满且以片状物或块状物的形式紧密堆积在一起。最终可生产电池级V_(2)O_(3),并制备出合格的全钒液流电池电解液。

煅烧气氛对高V_(2)O_(5)含量V_(2)O_(5)-MoO_(3)/TiO_(2)脱硝催化剂性能的影响

采用浸渍—煅烧法制备了高V_(2)O_(5)含量的V_(2)O_(5)-MoO_(3)/TiO_(2)脱硝催化剂,考察了煅烧气氛对催化剂性能的影响。结果表明:煅烧气氛对催化剂的化学组成影响不大;向煅烧气氛中引入O_(2)和H_(2)O可增大催化剂的比表面积和孔体积;N_(2)气氛下煅烧制备的催化剂,活性组分易团聚,导致还原性差,同时酸性和化学吸附氧含量最低,故其脱硝性能最差;催化剂的还原性、酸性、化学吸附氧含量随煅烧气氛中O_(2)含量增加而提高,脱硝性能也随之提高;于5%(φ)H_(2)O-空气气氛下煅烧制得的催化剂,在还原性、酸性和化学吸附氧含量的综合作用下,200~400℃的脱硝效率最高,N_(2)O生成量最少,同时SO_(2)转化为SO_(3)的转化率也最低。

V_(2)CF_(x)MXene衍生2D V_(2)O_(3)@介孔碳纳米片的制备及其电容脱盐特性

采用同源金属V_(2)CF_(x)MXene作为前驱体制备了三氧化二钒@多孔碳(V_(2)O_(3)@porous carbon,V_(2)O_(3)@PC)纳米片作为电容去离子(CDI)阳极,研究其脱盐特性。实验探究了在不同在碳化温度下V_(2)O_(3)@PC的结构、结晶度、润湿性、石墨化程度和电化学特性。研究表明,所制备的V_(2)O_(3)@PC呈现出典型的2D纳米片结构,高结晶度的V_(2)O_(3)纳米颗粒被高石墨化度的PC牢牢束缚。这种结构具有良好的界面润湿性和高导电性,因而可以促进电解质的渗透,加速界面电荷的转移以并促进盐离子的传输和扩散。此外,PC也能较好的抑制V_(2)O_(3)在多次循环后的体积膨胀。电化学结果表明,V的可逆电化学转化在一定程度上提高了Na^(+)的储存。当电压为1.2 V时,NaCl电导率为1000μS·cm^(−1)时,优化后的V_(2)O_(3)@PC电极具有高达2.20 mmol∙g^(−1)的脱盐容量,0.13 mmol∙g^(−1)∙min^(−1)的脱盐速率,62%的水回收率以及24.0 Wh∙m^(−3)的低能耗。

0.7BaSb_(2)O_(6)-0.3Ba_(3)V_(2)O_(8)复合陶瓷微波介电性能

采用固相反应法制备了0.7BaSb_(2)O_(6)-0.3Ba_(3)V_(2)O_(8)(BS-BV)复合陶瓷,并利用X射线衍射、闭腔谐振腔法对其烧结特性、相结构和微波介电性能进行研究。研究发现,所得陶瓷由三方晶系BaSb_(2)O_(6)和正交晶系Ba_(3)V_(2)O_(8)两相所组成。添加Ba_(3)V_(2)O_(8)有效改善了BaSb_(2)O_(6)基陶瓷的谐振频率温度系数。随着烧结温度升高,BS-BV复合陶瓷的介电常数和品质因数均先增大后减小,与密度随烧结温度变化趋势相一致;而谐振频率温度系数随烧结温度升高基本保持不变。1350℃/5 h烧结BS-BV复合陶瓷具有最佳微波介电性能,此时的介电常数为10.3,品质因数为24900 GHz,谐振频率温度系数为-2.0 ppm/℃。

Ti_(3)C_(2)/In_(4)SnS_(8)肖特基异质结用于高效光催化生成H_(2)O_(2)和Cr(Ⅵ)还原

人工光合成是一种先进的技术,主要利用太阳能作为唯一驱动能源,将水和氧气转化成双氧水(H_(2)O_(2))。然而,目前常用的光催化系统的性能受制于其光吸收能力有限,载流子分离效率低以及表面反应能力弱等问题。在本文研究中,通过采用原位水热法,成功地在少层Ti_(3)C_(2)纳米片表面生长厚度为5-10 nm的立方相In_(4)SnS_(8)纳米片(Eg=2.16 eV),形成了一种具有三明治结构的Ti_(3)C_(2)/In4SnS8纳米复合材料。深入的表征结果显示此2D/2D异质结构具有紧密的界面相互作用并且形成肖特基异质结,有助于载流子快速从In_(4)SnS_(8)转移至Ti_(3)C_(2)表面。其中,7 wt%Ti_(3)C_(2)/In_(4)SnS_(8)复合材料表现出最佳的可见光催化性能,H_(2)O_(2)生成速率为1.998µmol·L^(-1)·min·1,Cr(Ⅵ)的还原速率为19.8×10^(-3)min^(-1)。通过捕获实验、气氛实验和电子顺磁共振分析,证明了H_(2)O_(2)生成的途径包括两种:一种是两步单电子还原路径,另一种是一步两电子水氧化路径。本研究为设计高效、多功能的催化体系提供了一种新的思路。

射频等离子体改性制备S_(2)O_(2)-8/SnO_(2)-Al_(2)O_(3)固体超强酸催化剂的研究

采用低温陈化法制备S_(2)O_(2)-8/SnO_(2)-Al_(2)O_(3)固体超强酸催化剂,利用射频等离子体技术对其进行改性后催化L-酪氨酸与甲醇的酯化反应。利用Hammett指示剂法、XRD、HRTEM、BET、FT-IR、Py-IR和NH_(3)-TPD等对改性前后的催化剂进行表征。结果表明,经射频等离子体改性后的催化剂颗粒分散性更好、粒径更小(4.32 nm)、比表面积更大(104.4 m^(2)/g)、总酸量更高(142.9μmol/g)。在温度为180℃、压力为1 MPa的条件下,射频等离子体改性后的催化剂催化L-酪氨酸甲酯化反应6 h后L-酪氨酸甲酯产率可达92%。

固相法制备Bi_(4)V_(2)O_(11)固体电解质在NH_(3)传感器中的应用

通过固相反应法制备了在中低温下具有高离子导电性的固体电解质Bi_(4)V_(2)O_(11),并以CuV_(2)O_(6)为敏感电极组装成混合电位型NH_(3)传感器。通过X射线衍射仪(XRD)、扫描电子显微镜(SEM)和能谱仪(EDS)分析了固体电解质的相组成和传感器的微观形貌。结果表明,在中低温(300℃~600℃)下Bi_(4)V_(2)O_(11)的电导率高于传统氧离子导体YSZ。传感器测试结果表明,基于Bi_(4)V_(2)O_(11)作固体电解质CuV_(2)O_(6)作敏感电极的传感器能在300℃~500℃的温度范围内对10 ppm~300 ppm的NH_(3)进行检测,而以YSZ作固体电解质的传感器在300℃~350℃性能下降明显;传感器在400℃下有着最高的灵敏度(-59.15 mV/decade),优于相同条件下以YSZ作固体电解质的传感器(-42.89 mV/decade)。传感器具有稳定的响应,传感器的响应值和NH_(3)浓度的对数值呈现良好的正比例关系。

莫来石晶须增强Al_(2)O_(3)-8YSZ陶瓷涂层的制备和性能

莫来石晶须(3Al_(2)O_(3)·2SiO_(2))由于结晶完美,具有良好的性能,如低的热膨胀和导热性,较高的热稳定性,高的抗蠕变和腐蚀稳定性,以及合适的强度和断裂韧性,使其成为需要耐高温和耐腐蚀性能应用的合适材料.探讨晶须增强Al_(2)O_(3)-8YSZ陶瓷涂层的制备和性能.通过莫来石晶须的增韧作用,提高了陶瓷涂层的硬度,对陶瓷涂层的结构具有明显的改善.

Polypyride intercalation boosting the kinetics and stability of V_(3)O_(7)·H_(2)O cathodes for aqueous zinc-ion batteries

V_(3)O_(7)·H_(2)O(VO)is a high capacity cathode material in the field of aqueous zinc ion batteries(AZIBs),but it is limited by slow ion migration and low electrical conductivity.In this paper,polypyridine(PPyd)intercalated VO with nanoribbon structure was prepared by a simple in-situ pre-intercalation,which is noted VO-PPyd.The total density of states(TDOS)shows that after the pre-intercalation of PPyd,an intermediate energy level appears between the valence band and conduction band,which provides a step that can effectively reduce the band gap and enhance the electron conductivity.Furthermore,the density functional theory(DFT)results found that Zn^(2+)is more easily de-intercalated from the V-O skeleton,which proves that the embeddedness of PPyd improves the diffusion kinetics of Zn^(2+).Electrochemical studies have shown that VO-PPyd cathode materials exhibit excellent rate performance(high specific capacity of 465 and 192 mA h g^(-1)at 0.2 and 10 A g^(-1),respectively)and long-term cycling performance(92.7%capacity retention rate after 5300 cycles),due to their advantages in structure and composition.More importantly,the energy density of VO-PPyd//Zn at 581 and 5806 W kg^(-1)is 375 and 247 W h kg^(-1),respectively.VO-PPyd exhibits excellent electrochemical properties compared to previously reported vanadium based cathodes,which makes it highly competitive in the field of high-performance cathode materials of AZIBs.

等离子喷涂Cr_(2)O_(3)/8YSZ复合涂层微观组织及抗热冲击性能研究

为了探究Cr_(2)O_(3)/8YSZ复合涂层高温性能,利用等离子喷涂技术在Q235钢表面制备了4种不同混合比例的Cr_(2)O_(3)/8YSZ复合涂层(8YSZ含量分别为50%,30%,20%,0%)。通过热场发射扫描电镜对涂层的形貌进行SEM表征并对涂层的截面元素分布进行EDS线扫,采用X射线衍射仪分析复合涂层的物相组成,利用表面轮廓仪测量了复合涂层的表面粗糙度,使用全自动显微维氏硬度计对涂层的显微硬度进行测量,采用划痕仪对涂层的抗划伤性能进行对比,利用Gleeble-3800热物理实验模拟机对涂层的抗热冲击性能进行测试,并对热冲击之后的截面形貌进行观察分析。结果表明,当Cr_(2)O_(3)与8YSZ比例为7∶3时,由于8YSZ对垂直裂纹的偏转作用以及涂层内部存在的孔隙和裂纹对热应力的释放作用,该样本涂层具有较好的抗热冲击性能。

Critical current degradation in an epoxy-impregnated rare-earth Ba_(2)Cu_(3)O_(7-x)coated conductor caused by damage during a quench

High-temperature superconducting(HTS)rare-earth Ba_(2)Cu_(3)O_(7-x)(REBCO)coated conductors(CCs)have significant potential in high-current and high-field applications.However,owing to the weak interface strength of the laminated composite REBCO CCs,the damage induced by the thermal mismatch stress under a combination of epoxy impregnation,cooling,and quenching can cause premature degradation of the critical current.In this study,a three-dimensional(3D)electromagnetic-thermal-mechanical model based on the H-formulation and cohesive zone model(CZM)is developed to study the critical current degradation characteristics in an epoxy-impregnated REBCO CC caused by the damage during a quench.The temperature variation,critical current degradation of the REBCO CC,and its degradation onset temperature calculated by the numerical model are in agreement with the experimental data taken from the literature.The delamination of the REBCO CC predicted by the numerical model is consistent with the experimental result.The numerical results also indicate that the shear stress is the main contributor to the damage propagation inside the REBCO CC.The premature degradation of the critical current during a quench is closely related to the interface shear strength inside the REBCO CC.Finally,the effects of the coefficient of thermal expansion(CTE)of the epoxy resin,thickness of the substrate,and substrate material on the critical current degradation characteristics of the epoxy-impregnated REBCO CC during a quench are also discussed.These results help us understand the relationship between the current-carrying degradation and damage in the HTS applications.

棒状V_(3)O_(7)•H_(2)O电极材料的制备及印刷超级电容器

以V2O5为原料,利用溶剂热法一步制备了V_(3)O_(7)•H_(2)O纳米棒,采用SEM、XRD、EDS、XPS和FTIR对样品进行了测试。以V_(3)O_(7)•H_(2)O纳米棒为电极材料,探究了丝网印刷工艺对电极电化学性能的影响,将此电极组装超级电容器并评价了其电化学性能。结果表明,丝网印刷电极比电容可达268.0 F/g(电流密度为0.3 A/g),经过5000次循环后电容保持率为85.9%,优于涂抹电极的比电容(246.0 F/g)和电容保持率(68.0%),这得益于丝网印刷的油墨规则排列的结构。组装的纽扣超级电容器也表现出优异的电化学性能,比电容和电容保持率为134.2 F/g(0.5 A/g电流密度)和91.2%(5000次充放电循环),且当能量密度为22.0 W·h/kg时,功率密度最高可达4125.0 W/kg。

基于Bi_(2)O_(3)掺杂的La_(0.75)Ba_(0.25)Cr_(0.5)Fe_(0.5)O_(3-δ)(LBCF)敏感电极的混成电位型NH_(3)传感器

以钇稳定氧化锆(8YSZ)为固体电解质,Bi_(2)O_(3)修饰的La_(0.75)Ba_(0.25)Cr_(0.5)Fe_(0.5)O_(3-δ)(LBCF)复合材料为敏感电极,研制了混成电位NH_(3)传感器。探究了Bi_(2)O_(3)含量、不同多孔层比例、烧结温度和工作温度对传感性能的影响。通过溶胶凝胶法制备了Bi_(2)O_(3)修饰的钙钛矿型La_(0.75)Ba_(0.25)Cr_(0.5)Fe_(0.5)O_(3-δ)复合材料。随着Bi_(2)O_(3)含量的增加,复合材料的粒径逐渐增大。通过在致密YSZ上丝网印刷YSZ浆料来延长TPB,并在YSZ多孔骨架上煅烧3 h,制备出具有多孔结构的LBCF-xBi_(2)O_(3)-SE。结果表明,LBCF-xBi_(2)O_(3)-SE传感器对不同浓度NH_(3)(5×10^(-6)~3500×10^(-6))的灵敏度均高于LBCF-SE传感器。其中,基于LBCF-30%Bi_(2)O_(3)的传感器灵敏度最高,在500℃时达到109.1 mV/dec。在400~600℃,响应值与NH_(3)浓度呈线性关系。因此,所提出的Bi_(2)O_(3)改性LBCF在工业应用中具有较高的原位氨监测潜力。

V_(2)O_(5)-BaTiO_(3)添加对低温烧结NiCuZn材料磁性能的影响

采用固相反应法制备NiCuZn软磁铁氧体材料,探究添加V_(2)O_(5)助熔剂和BaTiO_(3)(BTO)共同作用对铁氧体微观结构和磁性能的影响,以期实现NiCuZn铁氧体的低温烧结。V_(2)O_(5)作为助熔剂可以起到促进晶粒生长和晶界成型的作用,但过量的V_(2)O_(5)的添加会导致出现晶粒异常生长,恶化磁性能。通过对样品高频下的损耗进行分离和分析,明确了致密化的小晶粒尺寸样品可以获得低的功率损耗。添加0.5 wt%的V_(2)O_(5)和0.03 wt%BTO的样品获得了优良的磁性能,室温下起始磁导率μ_(i)为669、饱和磁感应强度B_(s)为373 mT、功率损耗P_(cv)为212 kW/m^(3)(1 MHz,30 mT)。

Co_(3)V_(2)O_(8)修饰玻碳电极对对硝基苯酚的电化学检测

本实验采用水热法合成了Co_(3)V_(2)O_(8)纳米粒子,并将其滴涂至玻碳电极(GCE)上形成Co_(3)V_(2)O_(8)修饰电极,通过循环伏安法(CV)和差分脉冲伏安法(DPV)测试了修饰电极的电化学性能,并用于检测水中的对硝基苯酚。研究了Co_(3)V_(2)O_(8)的修饰量、电解质缓冲溶液的pH值和扫描速率对修饰电极的电催化性能的影响。研究结果表明,在优化的实验条件下,经Co_(3)V_(2)O_(8)修饰过的电极对对硝基苯酚表现出优异的检测性能,其线性范围和检出限分别为0.33~3000μmol·L^(-1)和0.08μmol·L^(-1)。该修饰电极具有良好的选择性、重复性与稳定性,应用于实际水样目标物的检测,回收率在95.7%~102.7%之间。

La_((1+x)/3)Ba_((2-x)/3)Mn_(x)Cu_(1-x)O_(3)(0.8≤x≤1)晶体结构和输运性质

用固态反应法制备了名义组分为 L a(1 + x) /3Ba(2 - x) /3Mnx Cu1 - x O3(0 .8≤ x≤ 1) 的系列试样。试样结构的单相性经粉末 X射线衍射分析而得以证实 ,且随 Cu的掺杂其结构由未掺杂时的立方对称性转变为正交对称性。输运实验表明 :所有试样均经历了半导体到金属的转变 ,但转变温度 TP随掺杂量增加而逐渐移向低温端 ;外加磁场大大增加了 TP附近的导电性 ,导致

铷掺杂Na_(1.25)V_(3)O_(8)纳米棒作为锌离子电池正极材料的电化学性能

为了探究作为锌离子电池正极的Na_(1.25)V_(3)O_(8)的电化学性能是否还具有进一步提升的空间,文中通过水热-固相法成功合成了纯Na_(1.25)V_(3)O_(8)和铷掺杂Na_(1.25)RbxV_(3)O_(8)纳米棒。根据XRD谱图可以看出,随着铷含量的增加衍射峰向低角度偏移且没有新的衍射峰生成,表明Na_(1.25)RbxV_(3)O_(8)样品为纯相且保持空间群为P21/m的结构对称性。这一结果说明铷离子成功进入了Na_(1.25)RbxV_(3)O_(8)层状化合物的层间。SEM和TEM形貌分析结果显示,随着Rb+掺杂量的增加,纳米棒的形貌变得更大、更厚,会降低材料的比表面积,导致阻抗的增加和Zn2+离子扩散系数的降低,对电化学性能产生不利的影响。EIS和GITT测试结果也证实,Rb+的掺入会使其比容量降低。电化学测试结果显示,虽然未掺杂的Na_(1.25)V_(3)O_(8)纳米棒表现出370 mA·h/g的初始比容量,但随着充放电过程的进行其比容量衰减很快,在电流密度为100 mA/g条件下长循环100圈后的放电比容量衰减了初始容量的50%;而Rb+掺杂的纳米棒尽管比容量有所降低,但其循环稳定性和倍率性能均得到显著提升。其中Rb掺杂量为1%的样品初始比容量为336 mA·h/g,在相同条件下循环100圈后和初始比容量相比只衰减了6%;当Rb掺杂量增加到5%时,尽管初始比容量只有217 mA·h/g,但100圈后放电比容量和初始比容量相比几乎没有衰减。利用XPS能谱和原位XRD技术对其锌离子存储机理进行了深入分析,该水系锌离子电池体系中Na_(1.25)RbxV_(3)O_(8)正极材料的氧化还原反应机理主要以化学转化反应为主,其中只有充电反应过程是可逆的。

Study on Ba_(6-3x)Sm_(8+2x)Ti_(18)O_(54) Microwave Dielectric Ceramics

The effects of different x values on the dielectric properties in the Ba6-3xSm8+2xTi18O54 microwave dielectric ceramics(0.3≤x≤0.7) were studied. The results showed that the major crystal phase was BaSm2Ti4O12 and the sintering temperature of the ceramics was 1340 ℃ when the x value was 0.67. The dielectric properties were better: εr≈79, tanδ≈1×10-4(1 MHz); εr≈80, Q·f=9230 GHz(3.97 GHz), τf=-17 ppm·℃-1.