Performances Towards(表演走向)研究综述
Performances Towards 表演走向 - Herein, we studied and compared the inherent electrochemical properties as well as the electrocatalytic performances towards hydrogen evolution (HER), oxygen evolution (OER) and oxygen reduction reaction (ORR) of indium monochalcogenides (InS, InSe and InTe). [1] Gas-sensing tests showed that this novel ZnO-core@NiCo2O4-shell nanocomposite exhibited improved gas-sensing performances towards methanol, such as high response, low detection limit and excellent stability. [2] Interestingly, it is explored that the sensor based on the 3D SnO2 hierarchical architectures reveals outstanding gas sensing performances towards ethanol. [3] The ultrathin IL/PtFeNi interface NWs also show the remarkable performances towards the electro-oxidation of methanol and the H2O2 detection. [4] This work discloses a radically new way to prepare white-emitting hybrid nanoparticles, whose implementation in lighting devices provides encouraging proof-of-concept performances towards alternative sunlight sources. [5] Side heated chemical gas sensor was fabricated and its sensing performances towards CH4 were systematically investigated. [6] We investigated their gas sensing performances towards several volatile organic compounds (VOCs). [7] The results of a systematic structure-activity relationship study demonstrated that the strength of N→Sb donor-acceptor interaction could be synergistically modulated by tuning the properties of the nitrogen substituents and halogen atoms adjacent to the central antimony atom, and consequently resulted in distinct catalytic performances towards organic reactions such as Mannich, cross-condensation, cyclization-aromatization and epoxide aminolysis reaction. [8] Furthermore, such N-doped carbon shell encapsulated PtZn intermetallic NPs showed significantly enhanced performances towards the anodic oxidation reaction of organic small molecules (such as methanol and formic acid). [9] Strikingly, the as-prepared Ni/N-CHS catalyst exhibits excellent performances towards catalyzing CO2 into CO with a high faradaic efficiency of 93. [10] The as-prepared 2D Ln-TCPP nanosheets showed thickness-dependent photocatalytic performances towards photooxidation of 1,5-dihydroxynaphthalene (1,5-DHN) to synthesize juglone. [11] As reduction time or temperature of alcohol solvothermal process rose, more Ti3+ and shell–core structures were introduced into reduced P25, resulting in higher performances towards phenol degradation in seawater. [12] The degradation performances towards fluorophore organic compounds and naphthenic acids (NAs) in OSPW were evaluated using synchronous fluorescence spectrometry and ultra performance liquid chromatography time-of-flight mass spectrometry, respectively. [13] It is found that the introduction of NG is beneficial for reducing the diameter of 3D PdAg NFs, where the synthesized PdAg NFs/NG show significantly enhanced electrocatalytic performances towards ethylene glycol oxidation reaction (EGOR). [14] The adsorption data were also clarified that the PVA/Chi NFs membranes were exhibited high kinetic performances towards the both toxic ions at the optimum conditions. [15] The synthetic catalyst displays excellent performances towards both the oxygen reduction reaction and the oxygen evolution reaction. [16] Furthermore, 4⊃DEASM exhibits sensitive and selective sensing performances towards nitrofurazone and could be integrated into a logic operation. [17] MPVC-EDA-Ce showed excellent adsorption performances towards phosphate and easy recovery. [18] The results gained suggest that the integration between employee involvement and employee empowerment will be a valuable critical organizational capability impacting organizational performances towards the successful implementation of LMS in the Malaysian automotive industry. [19] The as-synthesized Ni2P/CFC and Cu3P/CFC as electrodes all show the bifunctional electrocatalytic performances towards hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER), simultaneously all demonstrating the electrocatalytic activities of the furfural hydrogenation reaction (FHR) and furfural oxidation reaction (FOR) in alkaline media. [20] The intimate interpenetration of these two components yields synergistically active sites, which results in excellent performances towards the oxygen reduction/evolution reaction (ORR/OER) and hydrogen evolution reaction (HER). [21] The results showed that the nano-structured electrodes exhibit good analytical performances towards the electrochemical oxidation of DCF with a detection limit of 0. [22] Firstly, the hybrid multiobjective evolutionary algorithm (HMOEA) in HMOEA/DE is designed as the global search strategy, which rapidly improves the convergence and distribution performances towards the center and edge regions of Pareto frontier. [23] Owing to forming abundant varied active centers including Co9S8–MoS2 heterojunctions, and Co–N, Mo–N coupling centers locating at the contact interfaces between transition metal sulfides and N-doped carbon, the hybrid demonstrates greatly enhanced performances towards hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). [24] And their photocatalytic performances towards gaseous 1, 2-dichlorobenzene (o-DCB) was also systematically studied. [25] A clear improvement of transducing performances towards 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) detection was achieved when using the more electroactive ePDA thin film as supporting matrix, reaching a sensitivity of 342 mA M−1 cm−2. [26] In the presence of [Ph3C][B(C6F5)4] and AliBu3, these complexes displayed different performances towards styrene polymerization. [27] First, an experimental research methodology was applied, whereby pre-tests and post-tests were conducted to estimate the effect of using the software tool on student performances towards learning visual programming course. [28] Moreover, the CuWO4–GO NCs demonstrates excellent electrocatalytic performances towards the oxidation of methanol in an alkaline medium. [29] With further modification of a Pt41Rh59 alloy nanocatalyst, the electrochemical sensing performances towards dopamine are improved. [30] Using breast cancer cell MCF-7 as model, the sensor displays good performances towards detection of MCF-7 that spiked into peripheral blood. [31] It is possible that differences between turning performances towards the paretic and non-paretic sides could be related to variables, such as balance, time of performance and number of steps [4,5]. [32] Interestingly, the sponge-like Fe2V4O13 demonstrated proficient photocatalytic performances towards the reduction of Cr6+ into Cr3+. [33] The main reasons for that were, firstly, the preconceived public attitude to the comedians and the circus performers and, secondly, the discrepancy of the content and integrity of the acrobatic performances towards the aesthetic criteria of the time. [34] Thus, the recyclable 3D g-CN@NM88/BMFA nanocomposites with low-density, super-hydrophilicity and excellent stability were successfully prepared and expectedly exhibited excellent photocatalytic performances towards Cr(VI) reduction (99%) within 20 min over a broad pH range, which is superior to that exhibited by many reported materials. [35] The electrocatalytic performances towards oxygen reduction (ORR) and hydrogen evolution reactions (HER) of crystalline and amorphous PtS2 were analysed. [36]在此,我们研究并比较了铟单硫属化合物(InS、InSe 和 InTe)的固有电化学性能以及对析氢(HER)、析氧(OER)和氧还原反应(ORR)的电催化性能。 [1] 气敏测试表明,这种新型 ZnO-core@NiCo2O4-shell 纳米复合材料对甲醇表现出更高的气敏性能,如高响应、低检测限和优异的稳定性。 [2] 有趣的是,探索了基于 3D SnO2 分层架构的传感器揭示了对乙醇的出色气体传感性能。 [3] 超薄的 IL/PtFeNi 界面 NW 在甲醇电氧化和 H2O2 检测方面也表现出卓越的性能。 [4] 这项工作揭示了一种制备发白光的混合纳米粒子的全新方法,其在照明设备中的实施为替代太阳光源提供了令人鼓舞的概念验证性能。 [5] 制备了侧热式化学气体传感器,系统研究了其对CH4的传感性能。 [6] 我们研究了它们对几种挥发性有机化合物 (VOC) 的气体传感性能。 [7] 系统的构效关系研究结果表明,通过调节与中心锑原子相邻的氮取代基和卤素原子的性质,可以协同调节 N→Sb 供体-受体相互作用的强度,从而产生不同的催化作用。对有机反应如曼尼希、交叉缩合、环化-芳构化和环氧化物氨解反应的性能。 [8] 此外,这种 N 掺杂碳壳封装的 PtZn 金属间化合物纳米颗粒在有机小分子(如甲醇和甲酸)的阳极氧化反应中表现出显着增强的性能。 [9] 引人注目的是,所制备的 Ni/N-CHS 催化剂在将 CO2 催化成 CO 方面表现出优异的性能,法拉第效率高达 93。 [10] 所制备的 2D Ln-TCPP 纳米片显示出对 1,5-二羟基萘 (1,5-DHN) 光氧化合成胡桃酮的厚度依赖性光催化性能。 [11] 随着醇溶剂热还原时间或温度的升高,还原后的 P25 中引入了更多的 Ti3+ 和壳核结构,从而提高了在海水中降解苯酚的性能。 [12] 分别使用同步荧光光谱法和超高效液相色谱飞行时间质谱法评估了 OSPW 中对荧光团有机化合物和环烷酸 (NAs) 的降解性能。 [13] 研究发现,NG的引入有利于减小3D PdAg NFs的直径,其中合成的PdAg NFs/NG对乙二醇氧化反应(EGOR)的电催化性能显着增强。 [14] 吸附数据也阐明了 PVA/Chi NFs 膜在最佳条件下对两种有毒离子都表现出高动力学性能。 [15] 该合成催化剂对氧还原反应和析氧反应均表现出优异的性能。 [16] 此外,4⊃DEASM对呋喃西林表现出灵敏和选择性的传感性能,可以集成到逻辑运算中。 [17] MPVC-EDA-Ce对磷酸盐具有优异的吸附性能,易于回收。 [18] 获得的结果表明,员工参与和员工授权之间的整合将是一种宝贵的关键组织能力,影响组织绩效,以在马来西亚汽车行业成功实施 LMS。 [19] 所合成的 Ni2P/CFC 和 Cu3P/CFC 作为电极均表现出对析氢反应 (HER) 和析氧反应 (OER) 的双功能电催化性能,同时都展示了糠醛加氢反应 (FHR) 的电催化活性和碱性介质中的糠醛氧化反应(FOR)。 [20] 这两种成分的紧密互穿产生了协同活性位点,从而在氧还原/析出反应(ORR/OER)和析氢反应(HER)方面表现出优异的性能。 [21] 结果表明,纳米结构电极对DCF的电化学氧化表现出良好的分析性能,检测限为0。 [22] 首先,将HMOEA/DE中的混合多目标进化算法(HMOEA)设计为全局搜索策略,快速提高了向Pareto前沿中心和边缘区域的收敛和分布性能。 [23] 由于形成了丰富多样的活性中心,包括 Co9S8-MoS2 异质结,以及位于过渡金属硫化物和 N 掺杂碳之间的接触界面的 Co-N、Mo-N 耦合中心,该杂化物对析氢反应(HER ) 和析氧反应 (OER)。 [24] 并系统地研究了它们对气态1, 2-二氯苯(o-DCB)的光催化性能。 [25] 当使用更具电活性的 ePDA 薄膜作为支持基质时,2,2'-azino-bis(3-ethylbenzothiazolin-6-sulfonic acid) 检测的转换性能明显提高,灵敏度达到 342mAM-1cm -2。 [26] 在 [Ph3C][B(C6F5)4] 和 AliBu3 存在下,这些配合物对苯乙烯聚合表现出不同的性能。 [27] 首先,应用了一种实验研究方法,通过前测和后测来评估使用该软件工具对学生学习可视化编程课程的表现的影响。 [28] 此外,CuWO4-GO NCs 对碱性介质中的甲醇氧化表现出优异的电催化性能。 [29] 通过对 Pt41Rh59 合金纳米催化剂的进一步改性,提高了对多巴胺的电化学传感性能。 [30] 该传感器以乳腺癌细胞 MCF-7 为模型,在检测外周血中的 MCF-7 方面表现出良好的性能。 [31] 转向偏瘫侧和非偏瘫侧的表演之间的差异可能与变量有关,例如平衡、表演时间和步数 [4,5]。 [32] 有趣的是,海绵状的 Fe2V4O13 在将 Cr6+ 还原为 Cr3+ 方面表现出出色的光催化性能。 [33] 其主要原因一是公众对喜剧演员和马戏表演者的先入为主的态度,二是杂技表演的内容和完整性与当时的审美标准不一致。 [34] 因此,成功制备了具有低密度、超亲水性和优异稳定性的可回收 3D g-CN@NM88/BMFA 纳米复合材料,并有望在宽 pH 值下在 20 分钟内表现出优异的 Cr(VI) 还原(99%)光催化性能。范围,优于许多报道的材料。 [35] 分析了结晶和无定形 PtS2 对氧还原 (ORR) 和析氢反应 (HER) 的电催化性能。 [36]
hydrogen evolution reaction 析氢反应
The as-synthesized Ni2P/CFC and Cu3P/CFC as electrodes all show the bifunctional electrocatalytic performances towards hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER), simultaneously all demonstrating the electrocatalytic activities of the furfural hydrogenation reaction (FHR) and furfural oxidation reaction (FOR) in alkaline media. [1] The intimate interpenetration of these two components yields synergistically active sites, which results in excellent performances towards the oxygen reduction/evolution reaction (ORR/OER) and hydrogen evolution reaction (HER). [2] Owing to forming abundant varied active centers including Co9S8–MoS2 heterojunctions, and Co–N, Mo–N coupling centers locating at the contact interfaces between transition metal sulfides and N-doped carbon, the hybrid demonstrates greatly enhanced performances towards hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). [3] The electrocatalytic performances towards oxygen reduction (ORR) and hydrogen evolution reactions (HER) of crystalline and amorphous PtS2 were analysed. [4]所合成的 Ni2P/CFC 和 Cu3P/CFC 作为电极均表现出对析氢反应 (HER) 和析氧反应 (OER) 的双功能电催化性能,同时都展示了糠醛加氢反应 (FHR) 的电催化活性和碱性介质中的糠醛氧化反应(FOR)。 [1] 这两种成分的紧密互穿产生了协同活性位点,从而在氧还原/析出反应(ORR/OER)和析氢反应(HER)方面表现出优异的性能。 [2] 由于形成了丰富多样的活性中心,包括 Co9S8-MoS2 异质结,以及位于过渡金属硫化物和 N 掺杂碳之间的接触界面的 Co-N、Mo-N 耦合中心,该杂化物对析氢反应(HER ) 和析氧反应 (OER)。 [3] 分析了结晶和无定形 PtS2 对氧还原 (ORR) 和析氢反应 (HER) 的电催化性能。 [4]
oxygen evolution reaction 析氧反应
The synthetic catalyst displays excellent performances towards both the oxygen reduction reaction and the oxygen evolution reaction. [1]该合成催化剂对氧还原反应和析氧反应均表现出优异的性能。 [1]
Sensing Performances Towards 感知性能
Gas-sensing tests showed that this novel ZnO-core@NiCo2O4-shell nanocomposite exhibited improved gas-sensing performances towards methanol, such as high response, low detection limit and excellent stability. [1] Interestingly, it is explored that the sensor based on the 3D SnO2 hierarchical architectures reveals outstanding gas sensing performances towards ethanol. [2] Side heated chemical gas sensor was fabricated and its sensing performances towards CH4 were systematically investigated. [3] We investigated their gas sensing performances towards several volatile organic compounds (VOCs). [4] Furthermore, 4⊃DEASM exhibits sensitive and selective sensing performances towards nitrofurazone and could be integrated into a logic operation. [5] With further modification of a Pt41Rh59 alloy nanocatalyst, the electrochemical sensing performances towards dopamine are improved. [6]气敏测试表明,这种新型 ZnO-core@NiCo2O4-shell 纳米复合材料对甲醇表现出更高的气敏性能,如高响应、低检测限和优异的稳定性。 [1] 有趣的是,探索了基于 3D SnO2 分层架构的传感器揭示了对乙醇的出色气体传感性能。 [2] 制备了侧热式化学气体传感器,系统研究了其对CH4的传感性能。 [3] 我们研究了它们对几种挥发性有机化合物 (VOC) 的气体传感性能。 [4] 此外,4⊃DEASM对呋喃西林表现出灵敏和选择性的传感性能,可以集成到逻辑运算中。 [5] 通过对 Pt41Rh59 合金纳米催化剂的进一步改性,提高了对多巴胺的电化学传感性能。 [6]
Electrocatalytic Performances Towards 电催化性能
Herein, we studied and compared the inherent electrochemical properties as well as the electrocatalytic performances towards hydrogen evolution (HER), oxygen evolution (OER) and oxygen reduction reaction (ORR) of indium monochalcogenides (InS, InSe and InTe). [1] It is found that the introduction of NG is beneficial for reducing the diameter of 3D PdAg NFs, where the synthesized PdAg NFs/NG show significantly enhanced electrocatalytic performances towards ethylene glycol oxidation reaction (EGOR). [2] The as-synthesized Ni2P/CFC and Cu3P/CFC as electrodes all show the bifunctional electrocatalytic performances towards hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER), simultaneously all demonstrating the electrocatalytic activities of the furfural hydrogenation reaction (FHR) and furfural oxidation reaction (FOR) in alkaline media. [3] Moreover, the CuWO4–GO NCs demonstrates excellent electrocatalytic performances towards the oxidation of methanol in an alkaline medium. [4] The electrocatalytic performances towards oxygen reduction (ORR) and hydrogen evolution reactions (HER) of crystalline and amorphous PtS2 were analysed. [5]在此,我们研究并比较了铟单硫属化合物(InS、InSe 和 InTe)的固有电化学性能以及对析氢(HER)、析氧(OER)和氧还原反应(ORR)的电催化性能。 [1] 研究发现,NG的引入有利于减小3D PdAg NFs的直径,其中合成的PdAg NFs/NG对乙二醇氧化反应(EGOR)的电催化性能显着增强。 [2] 所合成的 Ni2P/CFC 和 Cu3P/CFC 作为电极均表现出对析氢反应 (HER) 和析氧反应 (OER) 的双功能电催化性能,同时都展示了糠醛加氢反应 (FHR) 的电催化活性和碱性介质中的糠醛氧化反应(FOR)。 [3] 此外,CuWO4-GO NCs 对碱性介质中的甲醇氧化表现出优异的电催化性能。 [4] 分析了结晶和无定形 PtS2 对氧还原 (ORR) 和析氢反应 (HER) 的电催化性能。 [5]
Photocatalytic Performances Towards 光催化性能
The as-prepared 2D Ln-TCPP nanosheets showed thickness-dependent photocatalytic performances towards photooxidation of 1,5-dihydroxynaphthalene (1,5-DHN) to synthesize juglone. [1] And their photocatalytic performances towards gaseous 1, 2-dichlorobenzene (o-DCB) was also systematically studied. [2] Interestingly, the sponge-like Fe2V4O13 demonstrated proficient photocatalytic performances towards the reduction of Cr6+ into Cr3+. [3] Thus, the recyclable 3D g-CN@NM88/BMFA nanocomposites with low-density, super-hydrophilicity and excellent stability were successfully prepared and expectedly exhibited excellent photocatalytic performances towards Cr(VI) reduction (99%) within 20 min over a broad pH range, which is superior to that exhibited by many reported materials. [4]所制备的 2D Ln-TCPP 纳米片显示出对 1,5-二羟基萘 (1,5-DHN) 光氧化合成胡桃酮的厚度依赖性光催化性能。 [1] 并系统地研究了它们对气态1, 2-二氯苯(o-DCB)的光催化性能。 [2] 有趣的是,海绵状的 Fe2V4O13 在将 Cr6+ 还原为 Cr3+ 方面表现出出色的光催化性能。 [3] 因此,成功制备了具有低密度、超亲水性和优异稳定性的可回收 3D g-CN@NM88/BMFA 纳米复合材料,并有望在宽 pH 值下在 20 分钟内表现出优异的 Cr(VI) 还原(99%)光催化性能。范围,优于许多报道的材料。 [4]
Excellent Performances Towards 优秀的表现
Strikingly, the as-prepared Ni/N-CHS catalyst exhibits excellent performances towards catalyzing CO2 into CO with a high faradaic efficiency of 93. [1] The synthetic catalyst displays excellent performances towards both the oxygen reduction reaction and the oxygen evolution reaction. [2] The intimate interpenetration of these two components yields synergistically active sites, which results in excellent performances towards the oxygen reduction/evolution reaction (ORR/OER) and hydrogen evolution reaction (HER). [3]引人注目的是,所制备的 Ni/N-CHS 催化剂在将 CO2 催化成 CO 方面表现出优异的性能,法拉第效率高达 93。 [1] 该合成催化剂对氧还原反应和析氧反应均表现出优异的性能。 [2] 这两种成分的紧密互穿产生了协同活性位点,从而在氧还原/析出反应(ORR/OER)和析氢反应(HER)方面表现出优异的性能。 [3]
Enhanced Performances Towards 增强性能
Furthermore, such N-doped carbon shell encapsulated PtZn intermetallic NPs showed significantly enhanced performances towards the anodic oxidation reaction of organic small molecules (such as methanol and formic acid). [1] Owing to forming abundant varied active centers including Co9S8–MoS2 heterojunctions, and Co–N, Mo–N coupling centers locating at the contact interfaces between transition metal sulfides and N-doped carbon, the hybrid demonstrates greatly enhanced performances towards hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). [2]此外,这种 N 掺杂碳壳封装的 PtZn 金属间化合物纳米颗粒在有机小分子(如甲醇和甲酸)的阳极氧化反应中表现出显着增强的性能。 [1] 由于形成了丰富多样的活性中心,包括 Co9S8-MoS2 异质结,以及位于过渡金属硫化物和 N 掺杂碳之间的接触界面的 Co-N、Mo-N 耦合中心,该杂化物对析氢反应(HER ) 和析氧反应 (OER)。 [2]
performances towards hydrogen 对氢的表现
Herein, we studied and compared the inherent electrochemical properties as well as the electrocatalytic performances towards hydrogen evolution (HER), oxygen evolution (OER) and oxygen reduction reaction (ORR) of indium monochalcogenides (InS, InSe and InTe). [1] The as-synthesized Ni2P/CFC and Cu3P/CFC as electrodes all show the bifunctional electrocatalytic performances towards hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER), simultaneously all demonstrating the electrocatalytic activities of the furfural hydrogenation reaction (FHR) and furfural oxidation reaction (FOR) in alkaline media. [2] Owing to forming abundant varied active centers including Co9S8–MoS2 heterojunctions, and Co–N, Mo–N coupling centers locating at the contact interfaces between transition metal sulfides and N-doped carbon, the hybrid demonstrates greatly enhanced performances towards hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). [3]在此,我们研究并比较了铟单硫属化合物(InS、InSe 和 InTe)的固有电化学性能以及对析氢(HER)、析氧(OER)和氧还原反应(ORR)的电催化性能。 [1] 所合成的 Ni2P/CFC 和 Cu3P/CFC 作为电极均表现出对析氢反应 (HER) 和析氧反应 (OER) 的双功能电催化性能,同时都展示了糠醛加氢反应 (FHR) 的电催化活性和碱性介质中的糠醛氧化反应(FOR)。 [2] 由于形成了丰富多样的活性中心,包括 Co9S8-MoS2 异质结,以及位于过渡金属硫化物和 N 掺杂碳之间的接触界面的 Co-N、Mo-N 耦合中心,该杂化物对析氢反应(HER ) 和析氧反应 (OER)。 [3]