Selective Activation of C–OH, C–O–C, or CC in Furfuryl Alcohol by Engineered Pt Sites Supported on Layered Double Oxides

Selective Activation of C–OH, C–O–C, or CC in Furfuryl Alcohol by Engineered Pt Sites Supported on Layered Double Oxides

The selective activation of targeted bonds in biomass-derived furfural or furfuryl alcohol with complex chemical linkages (C–C/C–H/C–O, CC/CO, or C–O–H/C–O–C) is of great challenge for biomass upgrading, expecting well-defined catalyst and definite catalytically active sites. This work demonstrate...

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Veröffentlicht in:ACS catalysis 2020-08, Vol.10 (15), p.8032-8041
Hauptverfasser: Zhu, Yanru, Zhao, Wenfang, Zhang, Jian, An, Zhe, Ma, Xiaodan, Zhang, Zhijun, Jiang, Yitao, Zheng, Lirong, Shu, Xin, Song, Hongyan, Xiang, Xu, He, Jing
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container_issue 15
container_start_page 8032
container_title ACS catalysis
container_volume 10
creator Zhu, Yanru
Zhao, Wenfang
Zhang, Jian
An, Zhe
Ma, Xiaodan
Zhang, Zhijun
Jiang, Yitao
Zheng, Lirong
Shu, Xin
Song, Hongyan
Xiang, Xu
He, Jing
description The selective activation of targeted bonds in biomass-derived furfural or furfuryl alcohol with complex chemical linkages (C–C/C–H/C–O, CC/CO, or C–O–H/C–O–C) is of great challenge for biomass upgrading, expecting well-defined catalyst and definite catalytically active sites. This work demonstrates an efficient targeted activation to C–OH, C–O–C, or CC by engineering the structure of catalytic Pt sites, affording 2-methylfuran (2-MF), tetrahydrofurfuryl alcohol (THFA), or 1,2-pentanediol (1,2-PeD) as product in the hydroconversion of furfuryl alcohol. The catalytic Pt sites have been engineered as atomic Pt, coordination unsaturated Pt–Pt in atom-thick dispersion, or coordination unsaturated 3D Pt–Pt by tailoring the Pt dispersion (single atom, 2D cluster, or 3D cluster) on Mg and Al-containing layered double oxide (Mg­(Al)­O) support. The selective activation of C–OH, C–O–C, or CC has been traced with the FT-IR spectra recorded surface reaction. On atomic Pt, C–O–H is easily activated, with the assistance of Mg­(Al)O support, with O-terminal adsorption without affecting furan C–O and CC. However, CC in the furan ring is easier to be activated on coordination-unsaturated Pt–Pt in atom-thick dispersion, resulting in a step-by-step hydrogenation to generate THFA. On coordination-unsaturated 3D Pt–Pt, the hydrogenolysis of furan ring is favored, resulting in the cleavage of furan C–O to produce 1,2-PeD. Also, the Mg­(Al)O supports derived from Mg and Al layered double hydroxides (LDHs) here also play a key role in promoting the selectivity to 1,2-PeD by providing basic sites.
doi_str_mv 10.1021/acscatal.0c01276
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This work demonstrates an efficient targeted activation to C–OH, C–O–C, or CC by engineering the structure of catalytic Pt sites, affording 2-methylfuran (2-MF), tetrahydrofurfuryl alcohol (THFA), or 1,2-pentanediol (1,2-PeD) as product in the hydroconversion of furfuryl alcohol. The catalytic Pt sites have been engineered as atomic Pt, coordination unsaturated Pt–Pt in atom-thick dispersion, or coordination unsaturated 3D Pt–Pt by tailoring the Pt dispersion (single atom, 2D cluster, or 3D cluster) on Mg and Al-containing layered double oxide (Mg­(Al)­O) support. The selective activation of C–OH, C–O–C, or CC has been traced with the FT-IR spectra recorded surface reaction. On atomic Pt, C–O–H is easily activated, with the assistance of Mg­(Al)O support, with O-terminal adsorption without affecting furan C–O and CC. However, CC in the furan ring is easier to be activated on coordination-unsaturated Pt–Pt in atom-thick dispersion, resulting in a step-by-step hydrogenation to generate THFA. On coordination-unsaturated 3D Pt–Pt, the hydrogenolysis of furan ring is favored, resulting in the cleavage of furan C–O to produce 1,2-PeD. 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This work demonstrates an efficient targeted activation to C–OH, C–O–C, or CC by engineering the structure of catalytic Pt sites, affording 2-methylfuran (2-MF), tetrahydrofurfuryl alcohol (THFA), or 1,2-pentanediol (1,2-PeD) as product in the hydroconversion of furfuryl alcohol. The catalytic Pt sites have been engineered as atomic Pt, coordination unsaturated Pt–Pt in atom-thick dispersion, or coordination unsaturated 3D Pt–Pt by tailoring the Pt dispersion (single atom, 2D cluster, or 3D cluster) on Mg and Al-containing layered double oxide (Mg­(Al)­O) support. The selective activation of C–OH, C–O–C, or CC has been traced with the FT-IR spectra recorded surface reaction. On atomic Pt, C–O–H is easily activated, with the assistance of Mg­(Al)O support, with O-terminal adsorption without affecting furan C–O and CC. However, CC in the furan ring is easier to be activated on coordination-unsaturated Pt–Pt in atom-thick dispersion, resulting in a step-by-step hydrogenation to generate THFA. On coordination-unsaturated 3D Pt–Pt, the hydrogenolysis of furan ring is favored, resulting in the cleavage of furan C–O to produce 1,2-PeD. 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This work demonstrates an efficient targeted activation to C–OH, C–O–C, or CC by engineering the structure of catalytic Pt sites, affording 2-methylfuran (2-MF), tetrahydrofurfuryl alcohol (THFA), or 1,2-pentanediol (1,2-PeD) as product in the hydroconversion of furfuryl alcohol. The catalytic Pt sites have been engineered as atomic Pt, coordination unsaturated Pt–Pt in atom-thick dispersion, or coordination unsaturated 3D Pt–Pt by tailoring the Pt dispersion (single atom, 2D cluster, or 3D cluster) on Mg and Al-containing layered double oxide (Mg­(Al)­O) support. The selective activation of C–OH, C–O–C, or CC has been traced with the FT-IR spectra recorded surface reaction. On atomic Pt, C–O–H is easily activated, with the assistance of Mg­(Al)O support, with O-terminal adsorption without affecting furan C–O and CC. However, CC in the furan ring is easier to be activated on coordination-unsaturated Pt–Pt in atom-thick dispersion, resulting in a step-by-step hydrogenation to generate THFA. On coordination-unsaturated 3D Pt–Pt, the hydrogenolysis of furan ring is favored, resulting in the cleavage of furan C–O to produce 1,2-PeD. Also, the Mg­(Al)O supports derived from Mg and Al layered double hydroxides (LDHs) here also play a key role in promoting the selectivity to 1,2-PeD by providing basic sites.</abstract><pub>American Chemical Society</pub><doi>10.1021/acscatal.0c01276</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-8403-0519</orcidid><orcidid>https://orcid.org/0000-0003-1089-6210</orcidid></addata></record>
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title Selective Activation of C–OH, C–O–C, or CC in Furfuryl Alcohol by Engineered Pt Sites Supported on Layered Double Oxides
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