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Directing reaction pathways by catalyst active-site selection using self-assembled monolayers

Author

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  • Simon H. Pang

    (University of Colorado Boulder)

  • Carolyn A. Schoenbaum

    (University of Colorado Boulder)

  • Daniel K. Schwartz

    (University of Colorado Boulder)

  • J. Will Medlin

    (University of Colorado Boulder)

Abstract

One key route for controlling reaction selectivity in heterogeneous catalysis is to prepare catalysts that exhibit only specific types of sites required for desired product formation. Here we show that alkanethiolate self-assembled monolayers with varying surface densities can be used to tune selectivity to desired hydrogenation and hydrodeoxygenation products during the reaction of furfural on supported palladium catalysts. Vibrational spectroscopic studies demonstrate that the selectivity improvement is achieved by controlling the availability of specific sites for the hydrogenation of furfural on supported palladium catalysts through the selection of an appropriate alkanethiolate. Increasing self-assembled monolayer density by controlling the steric bulk of the organic tail ligand restricts adsorption on terrace sites and dramatically increases selectivity to desired products furfuryl alcohol and methylfuran. This technique of active-site selection simultaneously serves both to enhance selectivity and provide insight into the reaction mechanism.

Suggested Citation

  • Simon H. Pang & Carolyn A. Schoenbaum & Daniel K. Schwartz & J. Will Medlin, 2013. "Directing reaction pathways by catalyst active-site selection using self-assembled monolayers," Nature Communications, Nature, vol. 4(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3448
    DOI: 10.1038/ncomms3448
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    Cited by:

    1. Anubhab Acharya & Trimbak Baliram Mete & Nitee Kumari & Youngkwan Yoon & Hayoung Jeong & Taehyung Jang & Byeongju Song & Hee Cheul Choi & Jeong Woo Han & Yoonsoo Pang & Yongju Yun & Amit Kumar & In Su, 2023. "Ultrathin covalent organic overlayers on metal nanocrystals for highly selective plasmonic photocatalysis," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    2. Rong, Siteng & Tan, Hongzi & Pang, Zhaobin & Zong, Zhiyuan & Zhao, Rongrong & Li, Zhihe & Chen, Zhe-Ning & Zhang, Ning-Ning & Yi, Weiming & Cui, Hongyou, 2022. "Synergetic effect between Pd clusters and oxygen vacancies in hierarchical Nb2O5 for lignin-derived phenol hydrodeoxygenation into benzene," Renewable Energy, Elsevier, vol. 187(C), pages 271-281.
    3. Jianghao Zhang & Wenda Hu & Binbin Qian & Houqian Li & Berlin Sudduth & Mark Engelhard & Lian Zhang & Jianzhi Hu & Junming Sun & Changbin Zhang & Hong He & Yong Wang, 2023. "Tuning hydrogenation chemistry of Pd-based heterogeneous catalysts by introducing homogeneous-like ligands," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    4. Miao Guo & Sanjeevi Jayakumar & Mengfei Luo & Xiangtao Kong & Chunzhi Li & He Li & Jian Chen & Qihua Yang, 2022. "The promotion effect of π-π interactions in Pd NPs catalysed selective hydrogenation," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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