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Literature DB >> 22890968

Development of heterogeneous catalysts for the conversion of levulinic acid to γ-valerolactone.

Abstract

γ-Valerolactone (GVL) has been identified as a potential intermediate for the production of fuels and chemicals based on renewable feedstocks. Numerous heterogeneous catalysts have been used for GVL production, alongside a range of reaction setups. This Minireview seeks to outline the development of heterogeneous catalysts for the targeted conversion of levulinic acid (LA) to GVL. Emphasis has been placed on discussing specific systems, including heterogeneous noble and base metal catalysts, transfer hydrogenation, and application of scCO₂ as reaction medium, with the aim of critically highlighting both the achievements and remaining challenges associated with this field.

Entities: Chemical

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Year: 2012 PMID： 22890968 DOI： 10.1002/cssc.201200111

Source DB: PubMed Journal: ChemSusChem ISSN： 1864-5631 Impact factor: 8.928

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Cited

21 in total

1. Conversion of levulinic acid to γ-valerolactone over Ru/Al₂O₃-TiO₂ catalyst under mild conditions.

Authors: Ruifeng Wang; Lungang Chen; Xinghua Zhang; Qi Zhang; Yuping Li; Chenguang Wang; Longlong Ma
Journal: RSC Adv Date: 2018-12-07 Impact factor: 4.036

2. New route toward building active ruthenium nanoparticles on ordered mesoporous carbons with extremely high stability.

Authors: Ying Yang; Chengjun Sun; Yang Ren; Shijie Hao; Daqiang Jiang
Journal: Sci Rep Date: 2014-04-01 Impact factor: 4.379

3. High performing and stable supported nano-alloys for the catalytic hydrogenation of levulinic acid to γ-valerolactone.

Authors: Wenhao Luo; Meenakshisundaram Sankar; Andrew M Beale; Qian He; Christopher J Kiely; Pieter C A Bruijnincx; Bert M Weckhuysen
Journal: Nat Commun Date: 2015-03-17 Impact factor: 14.919

4. Influence of Sulfuric Acid on the Performance of Ruthenium-based Catalysts in the Liquid-Phase Hydrogenation of Levulinic Acid to γ-Valerolactone.

Authors: Jamal Ftouni; Homer C Genuino; Ara Muñoz-Murillo; Pieter C A Bruijnincx; Bert M Weckhuysen
Journal: ChemSusChem Date: 2017-06-28 Impact factor: 8.928

5. Influence of Levulinic Acid Hydrogenation on Aluminum Coordination in Zeolite-Supported Ruthenium Catalysts: A ²⁷ Al 3QMAS Nuclear Magnetic Resonance Study.

Authors: Wenhao Luo; Ernst R H van Eck; Pieter C A Bruijnincx; Bert M Weckhuysen
Journal: Chemphyschem Date: 2017-11-22 Impact factor: 3.102

6. Vapor-Phase Hydrogenation of Levulinic Acid to γ-Valerolactone Over Bi-Functional Ni/HZSM-5 Catalyst.

Authors: Margarita Popova; Petar Djinović; Alenka Ristić; Hristina Lazarova; Goran Dražić; Albin Pintar; Alina M Balu; Nataša Novak Tušar
Journal: Front Chem Date: 2018-07-17 Impact factor: 5.221

7. Nanostructured Nickel/Silica Catalysts for Continuous Flow Conversion of Levulinic Acid to γ-Valerolactone.

Authors: Baithy Mallesham; Putla Sudarsanam; Bellala Venkata Shiva Reddy; Bolla Govinda Rao; Benjaram M Reddy
Journal: ACS Omega Date: 2018-12-07

8. Efficient Vapor-Phase Selective Hydrogenolysis of Bio-Levulinic Acid to γ-Valerolactone Using Cu Supported on Hydrotalcite Catalysts.

Authors: Harisekhar Mitta; Prem Kumar Seelam; K V Raghava Chary; Suresh Mutyala; Rajender Boddula; Abdullah M Asiri
Journal: Glob Chall Date: 2018-07-11

9. Continuous hydrogenation of ethyl levulinate to γ-valerolactone and 2-methyl tetrahydrofuran over alumina doped Cu/SiO2 catalyst: the potential of commercialization.

Authors: Junlin Zheng; Junhua Zhu; Xuan Xu; Wanmin Wang; Jiwen Li; Yan Zhao; Kangjian Tang; Qi Song; Xiaolan Qi; Dejin Kong; Yi Tang
Journal: Sci Rep Date: 2016-07-05 Impact factor: 4.379

10. Silylated Zeolites With Enhanced Hydrothermal Stability for the Aqueous-Phase Hydrogenation of Levulinic Acid to γ-Valerolactone.

Authors: Hue-Tong Vu; Florian M Harth; Nicole Wilde
Journal: Front Chem Date: 2018-05-16 Impact factor: 5.221