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The rational design and effective construction of precious-metal-free materials for OER and ORR, respectively, are reviewed in the respects of electronic structure regulation, nanostructure tailor, and freestanding electrode fabrication. This affords fresh concepts for oxygen electrocatalysis and is also enlightening for other energy catalysis with targeted optimization. 相似文献
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金属-空气电池具备诸多优势,譬如绿色环保、能量转化率高、启动快速、能量密度高、使用寿命和干态存储时间长等.与燃料电池相比,金属-空气电池结构简单,放电电压平稳,成本低,但依然存在一些制约发展的问题,如阴极催化剂.阴极催化剂在金属-空气电池中发挥催化氧还原反应(oxygen reduction reaction, ORR)和析氧反应(oxygen evolution reac-tion, OER)的关键作用.铂及其合金常用作 ORR的单功能催化剂,而钌和铱等是目前 OER催化效率最高的,但 ORR活性很低,因此需要开发出一种廉价而又具备双功能催化作用的催化剂.单异原子掺杂的碳基催化剂的研究集中在 ORR催化性能上,而多异原子共掺碳最近有研究表明具有双催化氧的性质,如氮磷共掺碳.在这些氮磷共掺的碳架中,氮磷共掺物起着 OER催化作用,掺氮物为 ORR催化的活性位点,而掺磷物起着强化作用.异原子掺杂负载的钴基催化剂(如掺氮还原氧化石墨烯载 Co3O4)是近年来双功能催化剂研究的另一个热点.钴基催化剂有着催化 ORR和 OER的多价价态,然而其本身导电性能差,这一缺陷可通过杂化石墨化碳来弥补,石墨化碳有着优良的导电性能.据我们所知,目前仍没有关于氮磷共掺碳负载的 Co3O4双催化氧的研究.我们合成了氮磷共掺碳(NPC)负载的 Co3O4(Co3O4/NPC),并首次探索了其氧还原和析氧性能. Co3O4/NPC合成分两步进行.首先通过三聚氰胺与植酸之间的酯化或缩聚覆盖在导电炭黑颗粒表面,在保护气氛下焙烧得到 NPC,然后经溶剂热反应以及空气中氧化合成 Co3O4/NPC.催化剂的性能综合考虑了催化活性和稳定性两方面.采用线性扫描伏安法评估了 OER和 ORR的催化活性.对于 OER, Co3O4/NPC的起始电势是0.54 V (以饱和甘汞电极为参比电极),在0.80 V时电流密度达到21.95 mA/cm2,均优于 Co3O4/C和 NPC. Co3O4/NPC的高效 OER催化可归因于氮磷共掺物与 Co3O4之间的协同作用.对于 ORR, Co3O4/NPC的催化效率与商用 Pt/C相近,它们的扩散极限电流密度分别为–4.49和–4.76 mA/cm2(E =–0.80 V).在 ORR过程中, Co3O4起到主要的催化作用.采用计时电流(电流-时间)法评估了催化剂的稳定性.经6 h测定,对于 OER, Co3O4/NPC剩46%电流;而对于 ORR,剩95%电流.整体而言, Co3O4/NPC在 OER和 ORR中都表现出高的催化效率以及良好的稳定性. 相似文献
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Cathode catalysts for direct alcohol fuel cells (DAFCs) must have high catalytic activity for the oxy‐gen reduction reaction (ORR), low cost, and high tolerance to the presence of methanol or ethanol. Pt is the benchmark catalyst for this application owing to its excellent electrocatalytic activity, but its high cost and low tolerance to the organic fuel permeating through the membrane have hindered the commercialization of DAFCs. Herein we present a facile synthesis route to obtain organic fuel‐tolerant Zr‐ and Ta‐based catalysts supported on carbon. This method consists of a simple precipitation of metal precursors followed by a heat treatment. X‐ray diffraction analyses confirmed that the obtained samples were crystalline ZrO2?x and Na2Ta8O21?x having crystallite sizes of 26 and 32 nm, respectively. The thermal treatment effectively increased the activity of the catalysts to‐wards the ORR, although further optimization is necessary. Both catalysts exhibited a high tolerance to the presence of methanol with only a moderate reduction in ORR activity even at high methanol concentration (0.5 mol/L). 相似文献
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Xiaoxia Chen Xiangjun Zhen Hongyu Gong Le Li Jianwei Xiao Zhi Xu Deyue Yan Guyu Xiao Ruizhi Yang 《中国化学快报》2019,30(3):681-685
Metal (cobalt)/nitrogen codoped carbon was first fabricated by pyrolysis of coordinated “noncarbonizable” polymer as bifunctional catalyst for ORR and HER, which showed better electrocatalytic performances than most bifunctional doped carbon catalysts in alkaline electrolyte. 相似文献
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采用氯化法制备石墨烯-无定型碳复合材料(GNS@a-C),并用作质子交换膜燃料电池(PEMFC)氧还原反应Pt催化剂的载体.结果显示,所制Pt/GNS@a-C催化剂与传统商业催化剂Pt/C相比,有较好的活性和较高的稳定性:质量活性(0.121 A/mg)几乎是Pt/C(0.064 A/mg)的两倍.更重要的是,该新型催化剂加速4000圈后其电化学活性面积保留了最初的51%,与Pt/C的33%相比,前者有更好的电化学稳定性,显示它在PEMFC中将具有较好的应用潜力. 相似文献
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纯无机的非贵金属基双/三金属氢氧(氧)化物因其优异的析氧反应(OER)性能而得到广泛关注及研究.但这些催化剂的原子精度的结构表征较为困难,阻碍了人们对其构效关系的认识,从而影响了进一步对催化性能的精确调控.金属有机框架(MOFs)材料因具有明确的结构及化学组成可调等优点,可以作为一类结构确定的OER电催化剂,但是MOFs为有机配体和金属离子配位形成的框架材料,与金属氢氧(氧)化物结构类型不同.多酸是由高氧化态的Mo^Ⅵ/Ⅴ,W^Ⅵ/Ⅴ,V^Ⅴ/Ⅳ,Nb^Ⅴ和Ta^Ⅴ等组成的金属-氧簇.多酸尺寸介于分子与块体氧化物之间,可以被看作一种具有明确结构的分子氧化物.因此,多酸可用作模型体系从分子水平上探究金属氢氧(氧)化物催化剂的反应机理.此外,多酸已被证明是很有前景的非贵金属水氧化催化剂.对于OER,酸性介质更具优势,因为它与碱性介质相比具有高能效、低欧姆损耗、易于产物分离等优点.但是,非贵金属OER电催化剂在酸性介质中很难稳定且性能通常不如贵金属催化剂.制备酸性介质中高效和稳定的非贵金属OER电催化剂仍然是一大挑战.在本论文中,我们首先采用'原位同构取代'策略,将结构明确的[{Co4(OH)3PO4}4(SiW9O34)4]^32-(1)钴-磷多酸阴离子中的Co原子替换成Fe原子,合成了不同Fe含量的[{Fe2Co2(OH)3PO4}4(SiW9O34)4]^24-(2)和[{FeCo3(OH)3PO4}4(SiW9O34)4]^28-(3).然后通过离子交换,向1,2和3中引入Ba^2+,成功合成了不溶于水的多酸阴离子结构维持的多相催化剂Ba[1],Ba[2]和Ba[3].性能最好的Ba[3]在0.5 mol L^-1 H2SO4溶液中达到10 mA cm^-2的电流密度仅需要385 mV过电位(无iR校正),比相同条件下无Fe取代的Ba[1]和商业IrO2催化剂的过电位分别低66 mV和8 mV.经过2000圈的循环伏安测试和24 h的长时间电解测试,Ba[1],Ba[2]和Ba[3]均表现出较高的稳定性.另外,采用红外光谱(FT-IR)以及电感耦合等离子体质谱(ICP-MS)等多种表征测试手段进一步确认了它们的稳定性.本文采用的'原位同构取代'策略为合成更高效的结构明确的多金属催化剂提供了新思路,同时也为进一步从分子水平上探索相关催化机理提供了难得的模型. 相似文献
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经过热解聚苯胺、碳和FeCl3的混合物制备的Fe-N-C材料在酸性电解质中对氧还原反应表现出高的催化活性;由于材料中不存在任何贵金属, 因而被认为是一类新型非贵金属氧还原催化剂. 然而这类催化剂在碱性电解质中催化氧还原反应的性能如何尚不清楚. 本文使用旋转圆盘电极技术考察了制备的两个Fe-N-C催化剂在KOH水溶液中催化氧还原反应性能, 发现这两个催化剂表现出比无金属的N掺杂碳材料更高的活性. 与商业Pt/C催化剂相比, 它们催化氧还原反应的起始电势和半波电势分别仅低60和40 mV左右, 计时电流测试表明, 它们比Pt/C催化剂显示出更好的稳定性. 此外, 在这两个Fe-N-C催化剂上的氧还原反应主要遵循四电子途径. 本工作显示, Fe-N-C材料有望用于碱性燃料电池氧还原反应催化剂. 相似文献
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MOF(Fe)的制备及其氧气还原催化性能 总被引:3,自引:0,他引:3
以硝酸铁为金属离子前驱体、均苯三甲酸为有机配体,采用水热法合成了金属有机骨架MOF(Fe)催化剂,应用X射线衍射、N2吸附-脱附、透射电镜、红外光谱和热重等方法对催化剂的结构进行了表征,并采用循环伏安法测试了催化剂在碱性电解质中的氧气还原(ORR)催化性能,同时也采用旋转圆盘电极进一步研究了催化剂的ORR的动力学行为.?结果表明,所制MOF(Fe)具有很好的晶型结构、大比表面积、丰富的微孔以及较高的热稳定性. 且表现出很好的ORR催化活性. ORR的反应历程随电位的改变而改变:电位在-0.3到0.50 V范围内,ORR为2电子途径;随着电位从-0.50 V升至-0.95 V,ORR从2电子向4电子途径转变. 另外,该催化剂在碱性电解质中也表现出较好的氧气析出(OER)催化性能,这为制备用于ORR和OER的高效非贵金属催化剂提供了新的途径. 相似文献
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The electrochemical oxygen evolution reaction (OER) has aroused tremendous attention because it involves some significant energy conversion and storage processes at key elementary stages. Actually, the genesis of structural changes in electrochemical catalysts during the reaction process is often actively influenced by both intrinsic factors and various environmental fields. In this short review, we summarized the latest advances in the structural self-reconstruction of OER electrocatalysts, with a focus on the strategies in rationally driving reconstruction as well as the in situ capturing process, through the combination of synchrotron radiation–based multitechniques. Moreover, extensive efforts are encouraged to precisely manipulate the OER catalyst's self-optimization process, with capability to accelerate their high potential for various practical applications. 相似文献
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Aurélien Habrioux Claudia Morais Teko W. Napporn Boniface Kokoh 《Current Opinion in Electrochemistry》2020
This review aims at presenting recent findings in the understanding of oxygen and hydrogen electrocatalysis in alkaline electrolytes that are key processes for the emergence of sustainable energy storage and conversion devices such as anion exchange membrane fuel cells and electrolyzers. In these systems, the exchange of electrons through electrochemical reactions provides a unique pathway to reversibly convert the electricity vector into chemical one: hydrogen. A concise and critical review of advances made during the last past years in the design of catalysts is provided. Challenges and opportunities for the development of the next catalyst generation are also addressed. 相似文献
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《Arabian Journal of Chemistry》2022,15(11):104256
Transition metal oxides, especially perovskites, have been considered effective electrocatalysts for the oxygen evolution (OER) and oxygen reduction (ORR) reactions in an alkaline solution. Here, a series of lanthanum cobalt rhodium oxide perovskites with the chemical formula LaCo1-xRhxO3 (LCRO, 0.1 ≤ x ≤ 0.70) were prepared through the approach of solid-phase synthesis and their bifunctional electrocatalytic activity was assessed for both the OER and ORR. The crystallinity, morphology, surface, and electrocatalytic features of the LCRO were significantly correlated with the rhodium content. The LaCo0.7Rh0.3O3 electrocatalysts with x = 0.3 showed enhanced electrocatalytic bifunctional performance with a substantially lower OER/ORR onset potential of 1.38/0.73 V vs HRE, smaller Tafel slope (116/90 mV/dec), and low charge-transfer resistance, which is the most efficient catalyst among the other studied ratios and superior to the pristine lanthanum cobalt oxide benchmark electrocatalysts. The LaCo0.7Rh0.3O3 electrode exhibit good bifunctional electrocatalytic behavior and long-term durability with an OER and ORR onset potential gap (ΔE = EOER ? EORR) of only 0.65 V, which could be credited to the enriched oxygen vacancies, lattice expansion and the improved electrical conductivity upon the doping of larger size of Rh ions. The LaCo1-xRhxO3 catalysts are obtained from abundant materials that have the potential of highly-active bifunctional OER and ORR electrocatalysts. 相似文献
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Shuo Yao Taizhong Huang Hengyi Fang Jiemei Yu Mayilvel Dinesh Meganathan Zhaoxin Cui Xianxia Yuan 《中国化学快报》2020,31(2):530-534
Developing low-cost and high performance catalysts to replace precious metal based catalysts for oxygen reduction reaction(ORR) is one of the most feasible ways to promote the commercial application of fuel cells.In this work,flower-like CoS and octahedral CoS_2 are synthesized by a facile one-pot hydrothermal method without any adjunction of surfactants or follow-up thermolysis,their catalytic performance towards ORR in alkaline electrolyte are comparatively investigated.The results reveal that CoS_2 outperforms CoS owing to the higher electron density around S-S bond of S_22- in the crystal structure,which promotes the adsorption of oxygen on catalyst surface and facilitates the breakage of O-O bond in oxygen,leading to direct 4-electron transfer ORR.When CoS_2 particles are dispersed on the surface of rGO with large surface area,their ORR performance could be further improved. 相似文献
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综述了用于燃料电池中氧还原反应(ORR)的石墨烯衍生物负载的各种纳米催化剂的最新进展。介绍了用于表征石墨烯基电催化剂的常规电化学技术以及石墨烯基电催化剂最新的研究进展。负载于还原氧化石墨烯(RGO)上的Pt催化剂的电化学活性和稳定性均得到显著提高。其它贵金属催化剂,如Pd, Au和Ag也表现出较高的催化活性。当以RGO或少层石墨烯为载体时, Pd催化剂的稳定性提高。讨论了氧化石墨烯负载Au或Ag催化剂的合成方法。另外,以N4螯合络合物形式存在的非贵过渡金属可降低氧的电化学性能。 Fe和Co是可替代的廉价ORR催化剂。在大多数情况下,这些催化剂稳定性和耐受性的问题均可得到解决,但其整体性能还很难超越Pt/C催化剂。 相似文献
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