Preparation of Highly Active Alumina-Pillared Clay Montmorillonite-Supported Platinum Catalyst for Hydrodesulfurization

Kanda, Yasuharu; Iwamoto, Hiroyuki; Kobayashi, Takao; Uemichi, Yoshio; Sugioka, Masatoshi

doi:10.1007/s11244-009-9204-6

Cited by 16 publications

(9 citation statements)

References 26 publications

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“…Recently, we reported that noble metal (NM), especially Pt, catalysts showed high and stable HDS activities 47) 53) . We proposed two reaction mechanisms for the HDS reaction: the monofunctional route occurring on Pt particles, and the bifunctional route occurring on Pt and Brønsted acid sites 47) 53) .…”

Section: Introductionmentioning

confidence: 99%

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Noble Metal Phosphides as New Hydrotreating Catalysts: Highly Active Rhodium Phosphide Catalyst

Kanda

Uemichi

2015

J. Jpn. Petrol. Inst.

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Metal phosphide has been widely investigated as a hydrotreating catalyst. The preparation and performance of noble metal phosphide catalyst was examined to develop new phosphide hydrotreating catalysts. The supports affect reducibility of phosphate as a P precursor. Since phosphate does not strongly interact with SiO2 and TiO2 supports, Rh2P was easily formed on these supports. Furthermore, formation of Rh2P enhanced the hydrodesulfurization (HDS) activity of supported Rh _ P catalyst. The type of noble metal (NM) and P/NM ratio also strongly affect formation of noble metal phosphide and HDS activity. Excess P facilitates formation of noble metal phosphides at lower reduction temperature. In contrast, excess P causes the aggregation of noble metal phosphide and formation of phosphorus rich noble metal phosphide. Rh _ 1.5P/SiO2 catalyst had high and stable activity for HDS reaction. Furthermore, this catalyst showed significantly higher hydrodenitrogenation (HDN) activity than sulfided NiMoP/Al2O3 catalyst. Therefore, Rh2P has great potential as a new hydrotreating catalyst.

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Section: Introductionmentioning

confidence: 99%

“…We proposed two reaction mechanisms for the HDS reaction: the monofunctional route occurring on Pt particles, and the bifunctional route occurring on Pt and Brønsted acid sites 47) 53) . Therefore, noble metal phosphide catalyst, which has moderate hydrogenation activity, can be expected to show high HDS and HDN activities.…”

Section: Introductionmentioning

confidence: 99%

Noble Metal Phosphides as New Hydrotreating Catalysts: Highly Active Rhodium Phosphide Catalyst

Kanda

Uemichi

2015

J. Jpn. Petrol. Inst.

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“…Especially, phosphat e salt s were widel y used as phosphorous source. Bussel et al [10] and Lee and Oyama et al [11] report ed t hat Ni 2 P cat alyst s support ed on silica (S iO 2 ) showed higher HDS act ivit y t han NiMo/ Al 2 O 3 cat alyst s. Thus, S iO 2 is a super ior support for preparat ion o f highly act ive phosphide cat alyst s. On t he ot her hand, we have report ed t hat noble met al (NM), especially plat inum (Pt ), support ed on zeo lit es [22 -24] and relat ed mat er ials, such as mesoporous silicat es [25 -27] and clays [24,28], showed high and st able act ivit y in HDS o f t hiophene. Thus, it is expect ed t hat noble met a l phosphides (NM X P Y ) show high cat alyt ic act ivit ies for HDS react ion, but HDS act ivit ies o f NM X P Y have not been report ed.…”

Section: Introductionmentioning

confidence: 99%

Preparation and performance of noble metal phosphides supported on silica as new hydrodesulfurization catalysts

Kanda

Temma

Nakata

et al. 2010

Applied Catalysis A: General

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Preparat ion o f no ble met al (NM) (Rh, Pd, Ru, Pt) phosphide species and t heir cat alyt ic act ivit ies for hydrodesulfur izat ion (HDS) of t hiophene w er e invest igat ed. Noble met al phosphides (NM X P Y) cat alyst s were prepared by reduct ion o f Padded NM (NM-P) support ed on silica (S iO 2) wit h hydrogen. Hydrogen co nsumpt io n peaks at around 350−700 °C, which wer e at t ribut ed t o t he for mat io n o f NM X P Y , were obser ved in t emper at ure-programmed reduct io n (TPR) spect ra of al l NM-P/S iO 2. Furt her more, X-ray diffr act ion (XRD) pat t erns o f NM-P/S iO 2 indicat e t hat NM X P Y (Rh 2 P, Pd 4. 8 P, Ru 2 P, Pt P 2) were for med by hydrogen reduct ion at high t emperat ure. The reduct ion t emperat ure st rongly affect ed HDS act ivit ies o f NM-P/S iO 2 cat alyst s. The NM-P/S iO 2 cat alyst s, ot her t han Pt , showed higher HDS act ivit ies t han NM/S iO 2 cat alyst s. The HDS act ivit y o f t he Rh-P/S iO 2 cat alyst was t he highest amo ng t hose o f NM-P/S iO 2 cat alyst s. This act ivit y was higher than that of the NiP catalyst and was t he same as t hat of pre-sulfided CoMoP/Al 2 O 3 cat alyst. Furt her more, t he Rh-P/S iO 2 cat alyst showed st able act ivit y even aft er react ion for 30 h. The XRD, t ransmiss io n elect ron microscopy (TEM), and energy disper sive X-ray spect roscopy (EDS) result s revealed t hat t he for mat io n o f sma ll Rh 2 P part icles and suit able P addit io n t o for m Rh 2 P caused t he high HDS act ivit y o f t he Rh-P cat alyst .

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“…C−S activation of thiophene has been proposed to be a key step in the HDS process. Group 10 metal complexes were proved to be feasible catalysts in the HDS process recently, , and the model studies generally involved active zero-oxidation-state metal species prior to C−S cleavage, in which thiophene was coordinating in a η 2 -fashion, as suggested by recent DFT calculations. , A platinum(II) complex of η 2 -thiophene was also proposed as an intermediate in a C−S activation reaction, in which a cationic Pt(II) hydride complex was used as a starting material . Attempts to activate the C−S bond directly from 2 and 2′ and to force 2′ to undergo reductive elimination to form a platinum(0) species for C−S activation were unsuccessful, which prompted us to explore other platinum starting materials for C−S activation.…”

Section: Resultsmentioning

confidence: 99%

C−H and C−S Activations of Quinoline-Functionalized Thiophenes by Platinum Complexes

Tan

Song

2011

Organometallics

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We synthesized and characterized two ligands, 2--(quinolin-8-yl)thiophene (1a) and 3-(quinolin-8-yl)thiophene (1b). The selective C-H activation of the thiophene moieties was achieved by reacting 1a or 1b and [Pt(CH 3 ) 2 (SMe 2 )] 2 . We observed η 2thiophene intermediates during the course of the reactions. The selective C-S bond activation of the thiophene moieties was observed after reacting 1a or 1b and [Pt(dippe)H] 2 . DFT calculations were performed to elucidate the regioselectivity of C-S activations.

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Preparation of Highly Active Alumina-Pillared Clay Montmorillonite-Supported Platinum Catalyst for Hydrodesulfurization

Cited by 16 publications

References 26 publications

Noble Metal Phosphides as New Hydrotreating Catalysts: Highly Active Rhodium Phosphide Catalyst

Noble Metal Phosphides as New Hydrotreating Catalysts: Highly Active Rhodium Phosphide Catalyst

Preparation and performance of noble metal phosphides supported on silica as new hydrodesulfurization catalysts

C−H and C−S Activations of Quinoline-Functionalized Thiophenes by Platinum Complexes

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