Polyaniline-Functionalized Carbon Nanotube Supported Platinum Catalysts

He, Daping; Zeng, Chao; Xu, Cheng; Cheng, Niancai; Li, Huaiguang; Mu, Shichun; Pan, Mu

doi:10.1021/la2003589

Cited by 247 publications

(157 citation statements)

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“…. . 4p (521 eV) and Pt 4d (316 and 333 eV) also appear [15,24]. The average contents of elements in CpPy-NS and CpPy-NS@500 are summarized in Table S1, from which the atomic percentage of N decreases after being annealed at 500°C due to the dissociation of ammonia molecule coordinated to Pt in cisplatin upon heating at elevated temperatures.…”

Section: Characterization Of As-prepared Catalystsmentioning

confidence: 99%

“…Among them, the pyrrolic and graphitic N species can promote the oxygen reduction via changing the chemical/electronic environment of the neighboring carbon atoms [32][33][34]. Besides, a lower binding energy of 398.5 eV may be attributed to the interaction between Pt and N atoms [15,16].…”

Section: Characterization Of As-prepared Catalystsmentioning

confidence: 99%

“…As previously reported [12][13][14], the metal NP embedded in carbon support can achieve high electrocatalytic activity through altering the electronic structure of the active sites, and much enhanced durability performance as well. However, surfactants, organic stabilizing agents, and the complicated procedures are usually necessary to obtain the uniform distribution and embedding of metal NP onto/into the carbon supports matrix [15][16][17][18]. Although they could lead to excellent durability performance via stabilizing and steric effect, the confined Pt NPs in carbon surface layer will sacrifice a large proportion of active sites [19,20].…”

Section: Introductionmentioning

confidence: 99%

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A facile strategy for ultrasmall Pt NPs being partially-embedded in N-doped carbon nanosheet structure for efficient electrocatalysis

2018

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A facile strategy is established for constructing composite nanostructure with ultrasmall Pt nanoparticles (NPs) of~2 nm in diameter being homogeneously embedded in N-doped carbon nanosheets. The strong coordination between Pt atoms in cisplatin and N atoms in pyrrole contributes to the robust embedding of Pt NP into the N-doped carbon nanosheets after annealing. Such a unique partially-embedding structure facilitates the active site exposure while stabilizing the ultrasmall Pt NPs, leading to the comparable electrochemical activities for hydrogen evolution and oxygen reduction reactions, and substantially improves durability performance compared to that of the state-of-the-art Pt/C (20 wt%).

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Section: Characterization Of As-prepared Catalystsmentioning

confidence: 99%

Section: Characterization Of As-prepared Catalystsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A facile strategy for ultrasmall Pt NPs being partially-embedded in N-doped carbon nanosheet structure for efficient electrocatalysis

2018

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“…纯 Pt 很容易被甲醇电氧化的中间产物 CO 毒化, 使得催化活性降低 [26] . 经 XPS 研究证实聚苯胺中氮的孤对电子可与 Pt 原子的空轨道在 397.6 eV 处形成 Pt-N 共价键, 这种共价键的存在可增强 Pt 与 PANI 的作用力, 因而从整体上提高了 Pt/CNTs-NH-PANI 催化剂的稳定性 [36] . …”

Section: 复合材料的结构表征unclassified

Preparation of Polyaniline Covalently Grafted Carbon Nanotubes Supported Pt Catalysts and Its Electrocatalytic Performance for Methanol

Chen¹,

Tong²,

Gao³

et al. 2013

Acta Chim. Sinica

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Recently, covalently functionalization carbon nanotubes have been received special attention because of the expansive application prospect in the areas of nanoscience and nanotechnology. Moreover, covalent functionalization of carbon nanotubes can readily deal with fundamental issues of purification, solubilization, and processing. In particular, polyaniline, due to its high electronic conductivity, good environmental stability, easy preparation and reversible acid-base doping-dedoping chemistry, has been one of the most studied conducting polymers. Recently, CNTs-PANI composites were investigated widely, such as supercapacitor, optoelectronic devices, sensing and catalysis as well. In this work, uniform structures PANI covalently grafted onto CNTs functionalization with -NH 2 groups composites have been obtained by using liquid/liquid(L/L) interfacial polymerization method. The interfacial system was established by using CNTs, FeCl 3 , HCl as top aqueous phase and aniline, CH 2 Cl 2 as bottom organic phase, which effective suppress second growth of PANI and obtain uniform CNTs-NH-PANI composites. Concerning CNTs-NH-PANI composites, PANI can covalently be grafted on CNTs with -NH 2 groups. The resulted CNTs-NH-PANI composites have abundant -NH 2 groups on their surface, serving as anchor centers for achieving high Pt dispersion. More important, PANI uniformly grafted on CNTs is prone to disperse the bundle of CNTs into separated lines and improve water dispersibility of obtained CNTs-NH-PANI composites. Subsequently, PtNPs were successfully deposited on the CNTs-PANI to form ternary hybrids. Potential application of the ternary hybrids as high performance catalysts for direct methanol fuel cells has been explored. The catalyst samples were characterized by transmission electron microscopy (TEM), X-ray diffraction (XRD) and electrochemical methods. TEM results showed that the hierarchical CNTs-PANI composites with uniform morphology have been successfully prepared due to hydrophilic -OH and -NH 2 groups covalently functionalized onto the surface of CNTs. Moreover, the electrochemical measurement show that the Pt/CNTs-NH-PANI hybrid have better stabilities compared with commercial JM (Pt/C) catalyst. The long-term durability test of the Pt/CNTs-CO-PANI, Pt/CNTs-NH-PANI and Pt/C catalysts shows that PANI grafted on CNTs as catalyst supports have better stabilities and more tolerant toward poisoning. Moreover, PANI covalently grafted on CNTs as catalyst supports has more excellent performance. The I f /I b of Pt/CNTs-NH-PANI catalyst for electrocatalytic methanol oxidation is 1.65 which is nearly 1.6 and 1.2 times than that of the commercial JM(Pt/C) and Pt/CNTs-CO-PANI catalysts, respectively. The results show that carbon nanotubes covalently grafting polyaniline as support can effectively improve the catalyst stability, increasing the service life of the catalyst.

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“…For instance, to promote the distribution of nanoparticles on the supports, some additional stabilizers such as polyaniline (PANI) and polypyrrole (PPy) are introduced on the surface of the supports. 16,17 On one hand, modifying with organic molecules could improve the dispersion of Pt-based catalysts; on the other hand, these organic additives might block the active sites on the Pt-based catalysts and reduce the conductivity of the catalyst. Besides, for the bimetallic catalysts, it is necessary to optimize the methanol oxidation reaction by accurate control over the atom ratio and support surface.…”

Section: Introductionmentioning

confidence: 99%

Bimetallic PtRu Nanoparticles Supported on Functionalized Multiwall Carbon Nanotubes as High Performance Electrocatalyst for Direct Methanol Fuel Cells

Tan

Sá

Cai

et al. 2016

NANO

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PtRu nanoparticles (NPs) supported on acid treated multiwall carbon nanotubes (Pt 1 Ru 1 / MWCNTs) were prepared by a modi¯ed polyol method without adding any other surfactant or protective agent. The structural and compositional properties of the as-obtained samples were characterized by transmission electron microscopy (TEM), energy dispersive X-ray analysis (EDX), X-ray di®raction (XRD) and X-ray photoelectron (XPS) spectroscopy. The electrocatalytic performance of the catalyst was evaluated by cyclic voltammetry (CV), CO stripping voltammetry and chronoamperometry, indicating a high catalytic activity, excellent CO tolerance and stability for methanol oxidation. Interestingly, a series of accurate controllable experiments have been designed to explore the enhancement mechanism of Pt 1 Ru 1 /MWCNTs for methanol oxidation reaction. Most importantly, Pt 1 Ru 1 /MWCNTs composites were used as an anode catalyst in the direct methanol fuel cells (DMFCs) exhibiting outstanding power density (126.1 mW/cm 2 Þ 1.7 times higher than that of the commercial catalyst of Pt 1 Ru 1 /C (74.1 mW/cm 2 Þ (E-TEK).

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Polyaniline-Functionalized Carbon Nanotube Supported Platinum Catalysts

Cited by 247 publications

References 50 publications

A facile strategy for ultrasmall Pt NPs being partially-embedded in N-doped carbon nanosheet structure for efficient electrocatalysis

A facile strategy for ultrasmall Pt NPs being partially-embedded in N-doped carbon nanosheet structure for efficient electrocatalysis

Preparation of Polyaniline Covalently Grafted Carbon Nanotubes Supported Pt Catalysts and Its Electrocatalytic Performance for Methanol

Bimetallic PtRu Nanoparticles Supported on Functionalized Multiwall Carbon Nanotubes as High Performance Electrocatalyst for Direct Methanol Fuel Cells

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