An In Situ Infrared Study of CO<sub>2</sub> Hydrogenation to Formic Acid by Using Rhodium Supported on Titanate Nanotubes as Catalysts

Ruiz-García, Jesús Roberto; Fierro-González, Juan Carlos; Handy, Brent E.; Hinojosa‐Reyes, Laura; Río, David A. De Haro Del; Lucio–Ortiz, Carlos J.; Valle‐Cervantes, Sergio; Flores-Escamilla, Gerardo A.

doi:10.1002/slct.201900361

Cited by 15 publications

(29 citation statements)

References 72 publications

(131 reference statements)

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“…It was proposed that the Na + content in TiNT plays an important role in the various carbonate formation processes. The reduced Rh/TiNT has the ability to form rhodium hydride complexes which can interact with bidentate carbonates to yield formate species and facilitates the further hydrogenation to formic acid [44]. This proposal was supported by the infrared spectroscopic results on Rh/MgO.…”

Section: Reaction Of Co 2 With H 2 On Titania-supported Rh Catalystsmentioning

confidence: 80%

“…The CO 2 dissociation occurs on Rh/TiNT (titanate nanotube) and Rh/TiNW (titanate nanowire) at 493 K but at smaller extent than on Rh/TiO 2 under the same experimental conditions [43]. Other authors found that the CO 2 dissociation at room temperature does not occur; CO band was not detected on Rh/TiNT [44].…”

Section: Adsorption and Dissociation Of Co 2 On Rh And On Supported Rmentioning

confidence: 97%

“…On Rh/TiNT at 363 K at atmospheric pressure, besides methane and CO, formic acid formation was detected in the CO 2 + H 2 reaction. The calculated turnover frequency for HCOOH formation was 7.210 −2 h −1 [44]. It was proposed that the Na + content in TiNT plays an important role in the various carbonate formation processes.…”

Section: Reaction Of Co 2 With H 2 On Titania-supported Rh Catalystsmentioning

confidence: 99%

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Hydrogenation of Carbon Dioxide on Supported Rh Catalysts

Erdöhelyi

2020

Catalysts

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The constant increase in the CO2 concentration in the atmosphere requires us to look for opportunities to convert CO2 into more valuable compounds. In this review, the activity and selectivity of different supported metal catalysts were compared in the hydrogenation of carbon dioxide, and found that Rh is one of the best samples. The possibility of the CO2 dissociation on clean metal and on supported Rh was discussed separately. The hydrogenation of CO2 produces mainly CH4 and CO, but the selectivity of the reaction is affected by the support, in some cases the reduction of the support, the particle size of Rh, and the different additives. At higher pressure methanol, ethanol, and acetic acid could be also formed. The activity of the various supported Rh catalysts was compared and the results obtained for TiO2-, SiO2-, and Al2O3-supported catalysts were discussed in a separate chapter. The compounds formed on the surface of the catalysts during the reaction are shown in detail; mostly, different CO species, adsorbed formate groups, and different carbonates were detected. In a separate chapter the mechanism of the reaction was also discussed.

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Section: Reaction Of Co 2 With H 2 On Titania-supported Rh Catalystsmentioning

confidence: 80%

Section: Adsorption and Dissociation Of Co 2 On Rh And On Supported Rmentioning

confidence: 97%

Section: Reaction Of Co 2 With H 2 On Titania-supported Rh Catalystsmentioning

confidence: 99%

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Hydrogenation of Carbon Dioxide on Supported Rh Catalysts

Erdöhelyi

2020

Catalysts

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“…However, the absorption band of the C=O group of formaldehyde adsorbed on Rh/TiO2 appears at lower wavenumbers, at about 1727 cm −1 , and it forms at higher temperatures [109]. Although the vibration frequency of C=O groups in The bands detected between 1550-1570 cm −1 and 1379 cm −1 could be assigned to the asymmetric and symmetric vibration of the OCO group of formate species, respectively [94,[102][103][104][105][106][107]. The absorption found at about 1620 cm −1 could be attributed to water formed in the reaction.…”

Section: Co 2 Hydrogenation On Titania and Titanate Supported Rhmentioning

confidence: 95%

“…The hydrogenation of CO 2 was studied extensively on titania (TiO 2 ) supported Rh [20][21][22][23][24][91][92][93] and the reaction was also investigated on titanate (TiONW and TiONT)-supported Rh recently [62,90,94]. In all cases, the supported Rh showed an excellent catalytic activity.…”

Section: Co 2 Hydrogenation On Titania and Titanate Supported Rhmentioning

confidence: 99%

Rh-induced Support Transformation and Rh Incorporation in Titanate Structures and Their Influence on Catalytic Activity

et al. 2020

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Rh is one of the most effective metals in several technologically important heterogeneous catalytic reactions, like the hydrogenation of CO2, and CO, the CO+H2O reaction, and methane and ethanol transformations. Titania and titanates are among the most frequently studied supports for Rh nanoparticles. The present study demonstrates that the nature of the support has a marked influence on the specific activity. For comparison, the catalytic activity of TiO2 P25 is also presented. It is pointed out that a certain amount of Rh can be stabilized as cation (Rh+) in ion-exchange positions (i.e., in atomic scale distribution) of the titanate framework. This ionic form does not exists on TiO2. We pay distinguished attention not only to the electronic interaction between Rh metal and the titania/titanate support, but also to the Rh-induced phase transitions of one-dimensional titanate nanowires (TiONW) and nanotubes (TiONT). Support transformation phenomena can be observed in Rh-loaded titanates. Rh decorated nanowires transform into the TiO2(B) phase, whereas their pristine counterparts recrystallize into anatase. The formation of anatase is dominant during the thermal annealing process in both acid-treated and Rh-decorated nanotubes; Rh catalysis this transformation. We demonstrate that the phase transformations and the formation of Rh nanoclusters and incorporated Rh ions affect the conversion and the selectivity of the reactions. The following initial activity order was found in the CO2 + H2, CO + H2O and C2H5OH decomposition reactions: Rh/TiO2 (Degussa P25) ≥ Rh/TiONW > Rh/TiONT. On the other hand it is remarkable that the hydrogen selectivity in ethanol decomposition was two times higher on Rh/TiONW and Rh/TiO(NT) catalysts than on Rh/TiO2 due to the presence of Rh+ cations incorporated into the framework of the titanate structures.

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Controllable Conversion of CO₂on Non‐Metallic Gold Clusters

et al. 2019

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Gold nanoparticles in metallic or plasmonic state have been widely used to catalyze homogeneous and heterogeneous reactions. However, the catalytic behavior of gold catalysts in non‐metallic or excitonic state remain elusive. Atomically precise Aun clusters (n=number of gold atoms) bridge the gap between non‐metallic and metallic catalysts and offer new opportunities for unveiling the hidden properties of gold catalysts in the metallic, transition regime, and non‐metallic states. Here, we report the controllable conversion of CO2 over three non‐metallic Aun clusters, including Au9, Au11, and Au36, towards different target products: methane produced on Au9, ethanol on Au11, and formic acid on Au36. Structural information encoded in the non‐metallic clusters permits a precise correlation of atomic structure with catalytic properties and hence, provides molecular‐level insight into distinct reaction channels of CO2 hydrogenation over the three non‐metallic Au catalysts.

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An In Situ Infrared Study of CO₂ Hydrogenation to Formic Acid by Using Rhodium Supported on Titanate Nanotubes as Catalysts

Cited by 15 publications

References 72 publications

Hydrogenation of Carbon Dioxide on Supported Rh Catalysts

Hydrogenation of Carbon Dioxide on Supported Rh Catalysts

Rh-induced Support Transformation and Rh Incorporation in Titanate Structures and Their Influence on Catalytic Activity

Controllable Conversion of CO₂on Non‐Metallic Gold Clusters

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An In Situ Infrared Study of CO2 Hydrogenation to Formic Acid by Using Rhodium Supported on Titanate Nanotubes as Catalysts

Cited by 15 publications

References 72 publications

Hydrogenation of Carbon Dioxide on Supported Rh Catalysts

Hydrogenation of Carbon Dioxide on Supported Rh Catalysts

Rh-induced Support Transformation and Rh Incorporation in Titanate Structures and Their Influence on Catalytic Activity

Controllable Conversion of CO2on Non‐Metallic Gold Clusters

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Product

Resources

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An In Situ Infrared Study of CO₂ Hydrogenation to Formic Acid by Using Rhodium Supported on Titanate Nanotubes as Catalysts

Controllable Conversion of CO₂on Non‐Metallic Gold Clusters