Performances Toward(表演走向)研究综述
Performances Toward 表演走向 - Herein, porous carbon-supported PtNi alloy catalysts were fabricated by ion beam sputtering and ultrasonic-assisted electrochemical corrosion dealloying methods, and their performances toward the catalysis of HER were evaluated. [1] The as-prepared hybrid composites were characterized and tested their performances toward the photo degradations of cationic (MB and RhB) and anionic (MO) dyes. [2] Constructed from the organizational capabilities literature of strategic management, this study explains how organizations strengthen their performances toward the implementation of environmentaly friendly or also called as ecofriendly business strategy and proposes hypotheses to answer the questions on how the organizational capabilities that represents internal organizational factors affect business performance through the mediating effect of eco-friendly strategy implementation Using a model integrating resource-based theory, institutional theory, and strategic business unit perspectives, this study tests the causalities upon the hotel industry in Indonesia which currently facing the force to adopt environmental friendly business practices due to the expansive development within the industry. [3] Nanoparticle surfaces are the site of reaction processes and their size/shape drastically influence the catalyst’s features and its performances towards the reaction of interest. [4] Many of research studies have reported on different nanomaterials and their performances toward the effective removal of recalcitrant pollutants from wastewater, which includes nanoclays, nanocatalysts, nanoclusters, nanorods, and nanocomposites. [5]在此,采用离子束溅射和超声辅助电化学腐蚀脱合金方法制备了多孔碳负载 PtNi 合金催化剂,并评估了它们对 HER 的催化性能。 [1] 对所制备的杂化复合材料进行了表征并测试了它们对阳离子(MB和RhB)和阴离子(MO)染料的光降解性能。 [2] 本研究以战略管理的组织能力文献为基础,解释了组织如何加强其绩效以实施环境友好型或生态友好型商业战略,并提出假设来回答有关代表内部组织因素的组织能力如何影响业务的问题通过环境友好型战略实施的中介效应的绩效 本研究采用资源基础理论、制度理论和战略业务单元视角相结合的模型,检验了印度尼西亚酒店业目前面临采用环境友好型业务的影响的因果关系由于行业内的广泛发展,实践。 [3] 纳米颗粒表面是反应过程的场所,它们的尺寸/形状会极大地影响催化剂的特性及其对目标反应的性能。 [4] 许多研究报告了不同的纳米材料及其在有效去除废水中顽固污染物方面的性能,包括纳米粘土、纳米催化剂、纳米团簇、纳米棒和纳米复合材料。 [5]
oxygen reduction reaction 氧还原反应
Atomically dispersed Fe−N−C electrocatalysts have displayed excellent catalytic performances towards the oxygen reduction reaction (ORR), while the identification of the genuine active sites remains a challenge. [1] CoFe@N-CNT/rGO shows bifunctional electrocatalytic performances toward oxygen reduction reaction and oxygen evolution reaction, favorably comparable to that of commercial catalysts (Pt/C and IrO2). [2] Electrocatalysts derived from porphyrinic metal-organic frameworks (MOFs) have exhibited very promising electrochemical performances toward oxygen reduction reaction (ORR). [3] 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). [4] The synthetic catalyst displays excellent performances towards both the oxygen reduction reaction and the oxygen evolution reaction. [5] Until now, noble-metal-based electrocatalysts have shown excellent catalytic performances toward fuel cell and water splitting electrode reactions, such as the oxygen reduction reaction (ORR), the oxygen evolution reaction (OER), and the hydrogen evolution reaction (HER). [6]原子分散的 Fe-N-C 电催化剂对氧还原反应(ORR)表现出优异的催化性能,而真正活性位点的识别仍然是一个挑战。 [1] CoFe@N-CNT/rGO显示出对氧还原反应和析氧反应的双功能电催化性能,可与商业催化剂(Pt/C和IrO2)相媲美。 [2] 源自卟啉金属有机骨架(MOF)的电催化剂在氧还原反应(ORR)方面表现出非常有前景的电化学性能。 [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。 [4] 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。 [5] nan [6]
hydrogen evolution reaction
Combining Pt with transition metals and reducing the particle size of Pt-based catalysts are two effective strategies to improve their performances toward hydrogen evolution reaction (HER). [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] 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] 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). [4] Herein, we report an in situ synthesis of dendritic dicobalt phosphide (Co2P) nanostructures with high purity on exfoliated graphene (EG), denoted as Co2P/EG, which show superior performances toward both hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). [5] The electrocatalytic performances towards oxygen reduction (ORR) and hydrogen evolution reactions (HER) of crystalline and amorphous PtS2 were analysed. [6]将 Pt 与过渡金属结合并减小 Pt 基催化剂的粒径是提高其析氢反应 (HER) 性能的两种有效策略。 [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] 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] 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)。 [4] 在此,我们报告了在剥离石墨烯 (EG) 上原位合成具有高纯度的树枝状磷化二钴 (Co2P) 纳米结构,表示为 Co2P/EG,其在析氢反应 (HER) 和析氧反应 (OER) 方面均表现出优异的性能。 )。 [5] nan [6]
oxygen evolution reaction 析氧反应
As a proof-of-concept attempt, we develop amorphous FeMo (a-FeMo) electrocatalysts with an abundance of heterointerfaces that are composed of amorphous components and evaluate their electrocatalytic performances toward the nitrogen reduction reaction and oxygen evolution reaction (OER). [1] The resultant Ni-NiFe2O4@C catalyst displays excellent electrocatalytic performances toward both oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) in alkaline electrolyte, which requires overpotential of 212 mV for OER and 217 mV for HER to reach 10 mA cm−2 with Tafel slope of 51 and 96 mV dec−1, respectively. [2] Benefitting from the synergistic effects between NiSe2 and Ni2P, the optimal NiSe2-Ni2P/NF electrode exhibits excellent catalytic performances toward both oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) in alkaline media. [3] Furthermore, the as-synthesized nanocomposite also presents favorable performances toward oxygen evolution reaction (OER). [4]作为概念验证尝试,我们开发了具有大量由无定形组分组成的异质界面的无定形 FeMo (a-FeMo) 电催化剂,并评估了它们对氮还原反应和析氧反应 (OER) 的电催化性能。 [1] 所得Ni-NiFe2O4@C催化剂在碱性电解液中对析氧反应(OER)和析氢反应(HER)均表现出优异的电催化性能,这需要212mV的OER和217mV的HER过电位才能达到10mAcm- 2,Tafel 斜率分别为 51 和 96mV dec-1。 [2] 受益于 NiSe2 和 Ni2P 之间的协同效应,最优的 NiSe2-Ni2P/NF 电极在碱性介质中对析氧反应 (OER) 和析氢反应 (HER) 均表现出优异的催化性能。 [3] nan [4]
Electrocatalytic Performances Toward 电催化性能
The Co3S4@NiCo-LDH/NF nanocomposite exhibits outstanding electrocatalytic performances toward both the HER and OER at high current densities, along with a remarkable durability. [1] CoFe@N-CNT/rGO shows bifunctional electrocatalytic performances toward oxygen reduction reaction and oxygen evolution reaction, favorably comparable to that of commercial catalysts (Pt/C and IrO2). [2] As a proof-of-concept attempt, we develop amorphous FeMo (a-FeMo) electrocatalysts with an abundance of heterointerfaces that are composed of amorphous components and evaluate their electrocatalytic performances toward the nitrogen reduction reaction and oxygen evolution reaction (OER). [3] Ni nanosheet arrays with Ni vacancies exhibited outstanding electrocatalytic performances toward selective nitrite reduction to ammonia and semi-dehydrogenation of tetrahydroisoquinolines. [4] The CuCo2O4/rGO modified glassy carbon electrode (CuCo2O4/rGO/GCE) exhibited good electrocatalytic performances toward H2O2 with a sensitivity about 320. [5] Impressively, the as-synthesized Ru-Re3P4/NPC presents remarkable electrocatalytic performances toward HER with small overpotentials of 39 mV, 115 mV, and 88 mV to deliver 10 mA cm-2 in alkaline, neutral, and acidic media. [6] In this work, using a facile self-template method, the optimal 2D amorphous N-doped CoFe-phosphate displays superior electrocatalytic performances toward both ORR and OER, which exhibits a lower overpotential of 313 mV at 10 mA cm−2 (Ej=10) for OER and a high half-wave potential of 0. [7] PtPdCu cubic nanoframes with unique open architecture exhibit excellent electrocatalytic performances toward methanol electrooxidation. [8] 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). [9] By optimizing the molar ratio of Ni/Co precursor, composition dependent electrocatalytic performances toward HER of nanostructured Co–Ni–P/RGO electrocatalyst are investigated in 1. [10] We discovered that Ni5Co3Mo–OH nanosheets exhibited electrocatalytic performances toward OER (η100 = 304 mV) and HER (η10 = 52 mV). [11] The resultant Ni-NiFe2O4@C catalyst displays excellent electrocatalytic performances toward both oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) in alkaline electrolyte, which requires overpotential of 212 mV for OER and 217 mV for HER to reach 10 mA cm−2 with Tafel slope of 51 and 96 mV dec−1, respectively. [12] Owing to the novel nanoarchitectures and electronic effect of PdCu alloy, the echinus-like PdCu NCs manifest eminent electrocatalytic performances toward methanol oxidation reaction in alkaline mediums. [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] This as-synthesized sCu-ONPC electrode exhibits outstanding electrocatalytic performances toward ORR with a half-wave potential value (0. [15] 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. [16] In this work, a series of Ni–Cu binary alloy films are high-throughput prepared using a combinatorial magnetron cosputtering method, and their corresponding electrocatalytic performances toward HOR in alkaline media are systematically studied. [17] Moreover, the CuWO4–GO NCs demonstrates excellent electrocatalytic performances towards the oxidation of methanol in an alkaline medium. [18] 4 g for HER, respectively, etched by which the resultant CoFeP materials can exhibit excellent electrocatalytic performances toward OER, HER and overall water splitting in alkaline media. [19] The electrocatalytic performances towards oxygen reduction (ORR) and hydrogen evolution reactions (HER) of crystalline and amorphous PtS2 were analysed. [20]Co3S4@NiCo-LDH/NF 纳米复合材料在高电流密度下对 HER 和 OER 均表现出出色的电催化性能,并具有出色的耐久性。 [1] CoFe@N-CNT/rGO显示出对氧还原反应和析氧反应的双功能电催化性能,可与商业催化剂(Pt/C和IrO2)相媲美。 [2] 作为概念验证尝试,我们开发了具有大量由无定形组分组成的异质界面的无定形 FeMo (a-FeMo) 电催化剂,并评估了它们对氮还原反应和析氧反应 (OER) 的电催化性能。 [3] nan [4] nan [5] 令人印象深刻的是,合成后的 Ru-Re3P4/NPC 对 HER 具有显着的电催化性能,在碱性、中性和酸性介质中具有 39mV、115mV 和 88mV 的小过电势,可提供 10mAcm-2 的电流。 [6] nan [7] 具有独特开放结构的 PtPdCu 立方纳米框架对甲醇电氧化表现出优异的电催化性能。 [8] 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。 [9] 通过优化 Ni/Co 前驱体的摩尔比,在 1 中研究了纳米结构 Co-Ni-P/RGO 电催化剂对 HER 的组成依赖性电催化性能。 [10] 我们发现Ni5Co3Mo-OH纳米片对OER(η100 = 304 mV)和HER(η10 = 52 mV)表现出电催化性能。 [11] 所得Ni-NiFe2O4@C催化剂在碱性电解液中对析氧反应(OER)和析氢反应(HER)均表现出优异的电催化性能,这需要212mV的OER和217mV的HER过电位才能达到10mAcm- 2,Tafel 斜率分别为 51 和 96mV dec-1。 [12] 由于 PdCu 合金的新型纳米结构和电子效应,海胆样 PdCu NCs 在碱性介质中对甲醇氧化反应表现出卓越的电催化性能。 [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] 这种合成后的 sCu-ONPC 电极对 ORR 表现出优异的电催化性能,半波电位值 (0. [15] 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)。 [16] 在这项工作中,采用组合磁控共溅射方法高通量制备了一系列 Ni-Cu 二元合金薄膜,并系统地研究了它们在碱性介质中对 HOR 的电催化性能。 [17] nan [18] 分别对 HER 进行 4g 蚀刻,由此得到的 CoFeP 材料在碱性介质中对 OER、HER 和整体水分解表现出优异的电催化性能。 [19] nan [20]
Sensing Performances Toward 感知性能
Both pure ZnO and CuPc-loaded ZnO were characterized in terms of their gas sensing performances towards various gases under light illumination. [1] Meanwhile, compared with that of pure Fe2O3 and Co3O4, the gas sensor based on the hollow microcubes exhibits enhanced sensing performances towards acetone, e. [2] Taking the advantages of the unique structural merit of NC-NFAs support and excellent electrocatalyitc properties of PdCu-ANPs that embedded in it, the resultant PdCu-ANPs/NC-NFAs modified CF microelectrode exhibited good electrochemical sensing performances towards H2O2 including a wide linear range from 2. [3] The sensing results demonstrates that the sensor coated with CdS nanoflower manifested better sensing performances towards ethanol (~ 4. [4] To demonstrate the uniqueness of hierarchical structure and the effect of annealing at different temperatures, the gas sensing performances towards BTEX vapours was evaluated at various conditions. [5] Sensing tests demonstrated the high influence of the Al and Mg on the sensing performances towards H2 and CO gas, respectively. [6] Furthermore, a gas sensing measurement was carried out to determine the gas sensing performances towards the H2S gas. [7] The relationship between the origin of superior sensing performances towards ethanol and the sharp interfaces of p-Bi2O3/n-ZnO heterostructure are also systematically investigated. [8] Probe PHPQ-SH exhibited brilliant sensing performances toward thiols, including a large Stokes shift (138 nm), excellent sensitivity (for GSH, LOD = 18. [9] 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. [10] Interestingly, it is explored that the sensor based on the 3D SnO2 hierarchical architectures reveals outstanding gas sensing performances towards ethanol. [11] Side heated chemical gas sensor was fabricated and its sensing performances towards CH4 were systematically investigated. [12] We investigated their gas sensing performances towards several volatile organic compounds (VOCs). [13] Furthermore, 4⊃DEASM exhibits sensitive and selective sensing performances towards nitrofurazone and could be integrated into a logic operation. [14] As compared with the pristine ZrHf-MOF, the CDs@ZrHf-MOF-based electrochemical aptasensor displays better sensing performances toward both HER-2 and MCF-7 cells, giving an extremely low detection limit of 19 fg mL-1 (HER2 concentration range: 0. [15] The gas sensing study demonstrates that the W18O49/α-Fe2O3 hollow heterostructures exhibit superior sensing performances toward acetone against pure W18O49. [16] With further modification of a Pt41Rh59 alloy nanocatalyst, the electrochemical sensing performances towards dopamine are improved. [17] The sensor with PdO NPs decorated LaFeO3 sensing electrode exhibited excellent Θ sensing performances toward NO2 at 450–550 °C. [18] The synthesized γ-Fe2O3/Al-ZnO NCs were employed to prepare conductometric gas sensors, then their sensing performances toward acetone were also investigated. [19]纯 ZnO 和负载 CuPc 的 ZnO 的特征在于它们在光照下对各种气体的气敏性能。 [1] 同时,与纯 Fe2O3 和 Co3O4 相比,基于空心微立方体的气体传感器对丙酮的传感性能增强。 [2] nan [3] nan [4] nan [5] nan [6] nan [7] nan [8] nan [9] 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。 [10] 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。 [11] 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。 [12] 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。 [13] 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。 [14] 与原始 ZrHf-MOF 相比,基于 CDs@ZrHf-MOF 的电化学适体传感器对 HER-2 和 MCF-7 细胞均表现出更好的传感性能,检测限极低,仅为 19fgmL-1(HER2 浓度范围: 0。 [15] 气体传感研究表明,与纯 W18O49 相比,W18O49/α-Fe2O3 空心异质结构对丙酮表现出优异的传感性能。 [16] nan [17] nan [18] 合成的 γ-Fe2O3/Al-ZnO NCs 用于制备电导气体传感器,然后研究了它们对丙酮的传感性能。 [19]
Catalytic Performances Toward 催化性能
Atomically dispersed Fe−N−C electrocatalysts have displayed excellent catalytic performances towards the oxygen reduction reaction (ORR), while the identification of the genuine active sites remains a challenge. [1] Substituent groups at the fourth and fifth positions of oxazoline rings and the bridgehead carbon atom of the BOX derivatives affected the catalytic performances toward cyclohexane hydroxylation. [2] In the past few decades, Pt-based electrocatalysts have attracted great interests due to their high catalytic performances toward the direct alcohol fuel cell (DAFC). [3] Through fully utilizing active Pd species in SSZ-13 by controlled ion-exchange and rationalized thermal treatment, enhanced catalytic performances toward a passive NOx adsorber and CH4 combustion are achieved. [4] Noble metal nanoparticles supported by covalent organic frameworks (COFs) exhibited excellent catalytic performances towards organic pollutants, while their applications are limited by the recovery and reuse from the mixture due to their small size. [5] The catalytic performances toward CO oxidation had been carefully evaluated over these CuO-based catalysts. [6] This strongly affected the metal–support interaction between Rh nanoparticles and the respective oxides, leading to significant differences in their catalytic performances toward the ethanol steam reforming. [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] Benefitting from the synergistic effects between NiSe2 and Ni2P, the optimal NiSe2-Ni2P/NF electrode exhibits excellent catalytic performances toward both oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) in alkaline media. [9] The hydrochar pyrolyzed at 800 °C (HC-800) showed the superior adsorption and catalytic performances toward BPS and BPF removals in a wide pH range, and the removal efficiencies were hardly inhibited by the coexistent inorganic anions and humic acid. [10] The as-formed hetero structures offer a robust catalyst system and display excellent catalytic performances toward the 4-nitrophenol reduction in liquid-phase and CO oxidation in gas phase. [11] Until now, noble-metal-based electrocatalysts have shown excellent catalytic performances toward fuel cell and water splitting electrode reactions, such as the oxygen reduction reaction (ORR), the oxygen evolution reaction (OER), and the hydrogen evolution reaction (HER). [12]原子分散的 Fe-N-C 电催化剂对氧还原反应(ORR)表现出优异的催化性能,而真正活性位点的识别仍然是一个挑战。 [1] 恶唑啉环第四位和第五位的取代基和BOX衍生物的桥头碳原子影响了环己烷羟基化的催化性能。 [2] nan [3] nan [4] nan [5] 已经对这些基于 CuO 的催化剂仔细评估了对 CO 氧化的催化性能。 [6] 这强烈影响了 Rh 纳米颗粒和相应氧化物之间的金属-载体相互作用,导致它们对乙醇蒸汽重整的催化性能存在显着差异。 [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] 受益于 NiSe2 和 Ni2P 之间的协同效应,最优的 NiSe2-Ni2P/NF 电极在碱性介质中对析氧反应 (OER) 和析氢反应 (HER) 均表现出优异的催化性能。 [9] nan [10] nan [11] nan [12]
Photocatalytic Performances Toward 光催化性能
For many decades, titanium dioxide (TiO2) semiconductor has been extensively applied in several environmental applications due to its higher photocatalytic performances toward different organic pollutants, pharmaceutical compounds, and bacteria. [1] The investigation of organic components on photocatalytic performance of hybrids 1-3 suggested that the organic counter cations (bpe, bz and mbpy) can effectively affect the visible-light absorption, as well as the recombination of photogenerated carriers stemmed from {Zn[P4Mo6]2} clusters, further promoting their photocatalytic performances towards Cr(VI) reduction. [2] As a result, the LDHs-PbTiO3 composites showed the decent photocatalytic performances towards water splitting under visible light irradiation. [3] The photocatalytic results demonstrated that all of them displayed efficient photocatalytic performances towards the degradation of methyl violet. [4] The as-prepared 2D Ln-TCPP nanosheets showed thickness-dependent photocatalytic performances towards photooxidation of 1,5-dihydroxynaphthalene (1,5-DHN) to synthesize juglone. [5] Both pristine metal-organic frameworks (MOFs) and graphitic carbon nitride (g-C3N4) displayed outstanding photocatalytic performances toward H2 production, CO2 reduction, Cr(VI) reduction and organic pollutants degradation. [6] Graphitic carbon nitride (gCN) exhibits outstanding photocatalytic performances toward H2 evolution. [7] And their photocatalytic performances towards gaseous 1, 2-dichlorobenzene (o-DCB) was also systematically studied. [8] The as-prepared g-C3N4/RGO/BiVO4 composites exhibited optimal visible light responses with significantly improved photocatalytic performances toward degradation of Rhodamine B. [9] Interestingly, the sponge-like Fe2V4O13 demonstrated proficient photocatalytic performances towards the reduction of Cr6+ into Cr3+. [10] 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. [11]几十年来,二氧化钛 (TiO2) 半导体因其对不同有机污染物、药物化合物和细菌的更高光催化性能而被广泛应用于多种环境应用中。 [1] 有机组分对杂化物 1-3 光催化性能的研究表明,有机抗衡阳离子(bpe、bz 和 mbpy)可以有效地影响可见光吸收,以及源自 {Zn[P4Mo6] 的光生载流子的复合。 2}簇,进一步提高了它们对Cr(VI)还原的光催化性能。 [2] nan [3] nan [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。 [5] 原始金属有机框架 (MOFs) 和石墨碳氮化物 (g-C3N4) 在制氢、还原 CO2、还原 Cr(VI) 和降解有机污染物方面均表现出出色的光催化性能。 [6] 石墨氮化碳 (gCN) 对析氢表现出出色的光催化性能。 [7] 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。 [8] nan [9] nan [10] nan [11]
Adsorption Performances Toward 吸附性能
In this study, graphite-like biochars were successively prepared by pyrolyzing modified newspaper and maize straw with ball-milling and 2,2,6,6-tetramethylpiperidine-1-oxyl (TEMPO)- mediated oxidation at a pyrolysis temperature of 900 °C and their physico-chemical properties and adsorption performances towards imidacloprid (IMI) and sulfadiazine (SUL) in aqueous solution were all explored. [1] Therefore, future studies should also focus on synthesizing various adsorbents such as biochars, nanoparticles (carbon nanodots, carbon nanotubes, etc), microporous carbonaceous and polymers that are derived from low-cost agricultural waste materials and examine their adsorption performances toward trimethoprim. [2] The adsorption performances towards nitrates-, sulphates- and phosphates-polluted water solutions have been tested and discussed. [3] Here, vertically oriented mesoporous coatings (MCs) with tunable surface properties and pore sizes have been developed via the single-micelle directing assembly strategy, which show good adsorption performances toward a wide range of organic pollutants. [4] Herein, porous MIL-101 and SO3H-MIL-101 were systematically studied for their adsorption performances toward two common antibacterial drugs, gemifioxacin mesylate (GEM) and moxifloxacin hydrochloride (MOX). [5] MPVC-EDA-Ce showed excellent adsorption performances towards phosphate and easy recovery. [6]在这项研究中,通过球磨和 2,2,6,6-四甲基哌啶-1-氧基 (TEMPO) 介导的氧化在 900°C 的热解温度下连续热解改性报纸和玉米秸秆,制备了类石墨生物炭。并探讨了它们在水溶液中对吡虫啉(IMI)和磺胺嘧啶(SUL)的理化性质和吸附性能。 [1] 因此,未来的研究还应侧重于从低成本农业废料中合成各种吸附剂,如生物炭、纳米颗粒(碳纳米点、碳纳米管等)、微孔碳质和聚合物,并检查它们对甲氧苄啶的吸附性能。 [2] nan [3] nan [4] 在此,系统地研究了多孔 MIL-101 和 SO3H-MIL-101 对两种常见抗菌药物甲磺酸吉米沙星 (GEM) 和盐酸莫西沙星 (MOX) 的吸附性能。 [5] MPVC-EDA-Ce对磷酸盐具有优异的吸附性能,易于回收。 [6]
Electrochemical Performances Toward 电化学性能
Thus, the proposed sensor (Cu-hemin MOFs/3D-RGO/GCE) showed excellent electrochemical performances towards H2O2 with a wide linear range (10–24,400 μM), high sensitivity (207. [1] Due to the excellent catalytic activity of Hemin-G4 and high conductivity of gold nanoparticles, both electrodes show excellent electrochemical performances towards H2O2 with a low LOD (0. [2] More importantly, we emphasize on the influences of the components, morphology and architecture of advanced electrospun catalysts on their corresponding electrochemical performances towards ORR. [3] Electrocatalysts derived from porphyrinic metal-organic frameworks (MOFs) have exhibited very promising electrochemical performances toward oxygen reduction reaction (ORR). [4] The PEI/(ChOx/PEI-rGO)3/GCE showed excellent electrochemical performances toward the detection of cholesterol. [5] Thus, we concluded that the Co doping and GO hybridization with MoSe2 provide the interesting idea to find out the excellent electrocatalysts with improved electrochemical performances toward the sensing and battery type supercapacitor applications. [6]因此,所提出的传感器(Cu-hemin MOFs/3D-RGO/GCE)对 H2O2 表现出优异的电化学性能,线性范围宽(10-24,400 μM),灵敏度高(207. [1] 由于 Hemin-G4 的优异催化活性和金纳米粒子的高电导率,两种电极均对 H2O2 表现出优异的电化学性能,且 LOD 低(0. [2] nan [3] 源自卟啉金属有机骨架(MOF)的电催化剂在氧还原反应(ORR)方面表现出非常有前景的电化学性能。 [4] PEI/(ChOx/PEI-rGO)3/GCE在检测胆固醇方面表现出优异的电化学性能。 [5] 因此,我们得出结论,Co 掺杂和 GO 与 MoSe2 的杂化提供了一个有趣的想法,以发现具有改进电化学性能的优异电催化剂,用于传感和电池型超级电容器应用。 [6]
Enhanced Performances Toward
The prepared mixed matrix membranes showed enhanced performances towards water filtration. [1] 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). [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] Benefiting from the unique structural properties and the strong alloy effect, the as-obtained PdCu NFs can display greatly enhanced performances toward ethylene glycol oxidation reaction (EGOR) with the mass/specific activity of 4714. [4]制备的混合基质膜对水过滤显示出增强的性能。 [1] 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。 [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] nan [4]
Excellent Performances Toward
Their localized “sensing volume”, defined as the penetration depth within which changes of the refractive index can be detected, demonstrated their excellent performances towards single-molecule detection. [1] Strikingly, the as-prepared Ni/N-CHS catalyst exhibits excellent performances towards catalyzing CO2 into CO with a high faradaic efficiency of 93. [2] The synthetic catalyst displays excellent performances towards both the oxygen reduction reaction and the oxygen evolution reaction. [3] 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). [4]它们的局部“传感体积”,定义为可以检测到折射率变化的穿透深度,证明了它们对单分子检测的优异性能。 [1] 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。 [2] 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。 [3] 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。 [4]
Improved Performances Toward
The CeO2-Au nanowires displayed improved performances towards the oxidation of thioanisole when compared to the pure CeO2 nanowires and commercial CeO2-Au catalysts. [1] Thus significantly enhanced fluorescent signal can be measured for ATP as expected, and our proposed strategy exhibits improved performances toward ATP ultrasensitive detection with a limit of detection (LOD) as low as 0. [2] We believe that the results reported herein suggest that the Ti-35Nb-4Sn alloy may be attractive for designing biomedical devices with improved performances toward the adhesion of apatite. [3]nan [1] 因此,可以按预期测量 ATP 的显着增强的荧光信号,并且我们提出的策略表现出对 ATP 超灵敏检测的改进性能,检测限 (LOD) 低至 0。 [2] 我们相信,本文报道的结果表明,Ti-35Nb-4Sn 合金可能对设计具有改进的磷灰石粘附性能的生物医学装置具有吸引力。 [3]
Analytical Performances Toward
As a result, the proposed Fe3O4/C/GCE displayed superior analytical performances toward Trp determination, with two wide detection ranges (1. [1] The results showed that the nano-structured electrodes exhibit good analytical performances towards the electrochemical oxidation of DCF with a detection limit of 0. [2]因此,所提出的 Fe3O4/C/GCE 对色氨酸测定显示出优异的分析性能,具有两个宽检测范围(1. [1] 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。 [2]
Superior Performances Toward
Among all catalysts, the NiCo2O4 hollow nanofiber exhibits superior performances towards OER and ORR. [1] Herein, we report an in situ synthesis of dendritic dicobalt phosphide (Co2P) nanostructures with high purity on exfoliated graphene (EG), denoted as Co2P/EG, which show superior performances toward both hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). [2]nan [1] 在此,我们报告了在剥离石墨烯 (EG) 上原位合成具有高纯度的树枝状磷化二钴 (Co2P) 纳米结构,表示为 Co2P/EG,其在析氢反应 (HER) 和析氧反应 (OER) 方面均表现出优异的性能。 )。 [2]
performances toward oxygen 向氧气表演
CoFe@N-CNT/rGO shows bifunctional electrocatalytic performances toward oxygen reduction reaction and oxygen evolution reaction, favorably comparable to that of commercial catalysts (Pt/C and IrO2). [1] Electrocatalysts derived from porphyrinic metal-organic frameworks (MOFs) have exhibited very promising electrochemical performances toward oxygen reduction reaction (ORR). [2] Furthermore, the as-synthesized nanocomposite also presents favorable performances toward oxygen evolution reaction (OER). [3]CoFe@N-CNT/rGO显示出对氧还原反应和析氧反应的双功能电催化性能,可与商业催化剂(Pt/C和IrO2)相媲美。 [1] 源自卟啉金属有机骨架(MOF)的电催化剂在氧还原反应(ORR)方面表现出非常有前景的电化学性能。 [2] nan [3]
performances toward her
Impressively, the as-synthesized Ru-Re3P4/NPC presents remarkable electrocatalytic performances toward HER with small overpotentials of 39 mV, 115 mV, and 88 mV to deliver 10 mA cm-2 in alkaline, neutral, and acidic media. [1] By optimizing the molar ratio of Ni/Co precursor, composition dependent electrocatalytic performances toward HER of nanostructured Co–Ni–P/RGO electrocatalyst are investigated in 1. [2]令人印象深刻的是,合成后的 Ru-Re3P4/NPC 对 HER 具有显着的电催化性能,在碱性、中性和酸性介质中具有 39mV、115mV 和 88mV 的小过电势,可提供 10mAcm-2 的电流。 [1] 通过优化 Ni/Co 前驱体的摩尔比,在 1 中研究了纳米结构 Co-Ni-P/RGO 电催化剂对 HER 的组成依赖性电催化性能。 [2]
performances toward oer
We discovered that Ni5Co3Mo–OH nanosheets exhibited electrocatalytic performances toward OER (η100 = 304 mV) and HER (η10 = 52 mV). [1] 4 g for HER, respectively, etched by which the resultant CoFeP materials can exhibit excellent electrocatalytic performances toward OER, HER and overall water splitting in alkaline media. [2]我们发现Ni5Co3Mo-OH纳米片对OER(η100 = 304 mV)和HER(η10 = 52 mV)表现出电催化性能。 [1] 分别对 HER 进行 4g 蚀刻,由此得到的 CoFeP 材料在碱性介质中对 OER、HER 和整体水分解表现出优异的电催化性能。 [2]
performances toward methanol
PtPdCu cubic nanoframes with unique open architecture exhibit excellent electrocatalytic performances toward methanol electrooxidation. [1] Owing to the novel nanoarchitectures and electronic effect of PdCu alloy, the echinus-like PdCu NCs manifest eminent electrocatalytic performances toward methanol oxidation reaction in alkaline mediums. [2]具有独特开放结构的 PtPdCu 立方纳米框架对甲醇电氧化表现出优异的电催化性能。 [1] 由于 PdCu 合金的新型纳米结构和电子效应,海胆样 PdCu NCs 在碱性介质中对甲醇氧化反应表现出卓越的电催化性能。 [2]
performances toward h2
Both pristine metal-organic frameworks (MOFs) and graphitic carbon nitride (g-C3N4) displayed outstanding photocatalytic performances toward H2 production, CO2 reduction, Cr(VI) reduction and organic pollutants degradation. [1] Graphitic carbon nitride (gCN) exhibits outstanding photocatalytic performances toward H2 evolution. [2]原始金属有机框架 (MOFs) 和石墨碳氮化物 (g-C3N4) 在制氢、还原 CO2、还原 Cr(VI) 和降解有机污染物方面均表现出出色的光催化性能。 [1] 石墨氮化碳 (gCN) 对析氢表现出出色的光催化性能。 [2]
performances toward hydrogen
Combining Pt with transition metals and reducing the particle size of Pt-based catalysts are two effective strategies to improve their performances toward hydrogen evolution reaction (HER). [1] Moreover, we integrated these NWs into chemical sensors, and we assessed their performances toward hydrogen and some common interfering compounds. [2]将 Pt 与过渡金属结合并减小 Pt 基催化剂的粒径是提高其析氢反应 (HER) 性能的两种有效策略。 [1] 此外,我们将这些 NW 集成到化学传感器中,并评估了它们对氢和一些常见干扰化合物的性能。 [2]
performances toward different
For many decades, titanium dioxide (TiO2) semiconductor has been extensively applied in several environmental applications due to its higher photocatalytic performances toward different organic pollutants, pharmaceutical compounds, and bacteria. [1] The discussion involves the current status and the progress in the fabrication of these devices and their performances toward different kinds of substrates, in gaseous or vapor form, or dissolved in aqueous solutions. [2]几十年来,二氧化钛 (TiO2) 半导体因其对不同有机污染物、药物化合物和细菌的更高光催化性能而被广泛应用于多种环境应用中。 [1] 讨论涉及这些器件的制造现状和进展,以及它们对不同种类基板的性能,以气体或蒸气形式,或溶解在水溶液中。 [2]
performances toward acetone
The gas sensing study demonstrates that the W18O49/α-Fe2O3 hollow heterostructures exhibit superior sensing performances toward acetone against pure W18O49. [1] The synthesized γ-Fe2O3/Al-ZnO NCs were employed to prepare conductometric gas sensors, then their sensing performances toward acetone were also investigated. [2]气体传感研究表明,与纯 W18O49 相比,W18O49/α-Fe2O3 空心异质结构对丙酮表现出优异的传感性能。 [1] 合成的 γ-Fe2O3/Al-ZnO NCs 用于制备电导气体传感器,然后研究了它们对丙酮的传感性能。 [2]