Room-Temperature Asymmetric Transfer Hydrogenation of Biomass-Derived Levulinic Acid to Optically Pure γ-Valerolactone Using a Ruthenium Catalyst

Vaishali S. Shende; Amol B. Raut; Prathamesh Raghav; Ashutosh A. Kelkar; Bhalchandra M. Bhanage

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Room-Temperature Asymmetric Transfer Hydrogenation of Biomass-Derived Levulinic Acid to Optically Pure γ-Valerolactone Using a Ruthenium Catalyst

机译：钌催化剂在室温下将生物质衍生的丙戊酸不对称转移氢化为光学纯的γ-戊内酯

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This study presents a first report on ruthenium-catalyzed asymmetric transfer hydrogenation (ATH) of levulinic acid (LA) to chiral γ-valerolactone (GVL). ATH of LA has been explored with Noyori’s chiral catalyst (Ru–TsDPEN) in methanol solvent. Efficacy of ATH reaction of LA was investigated under different reactions conditions such as temperature, catalyst, and hydrogen donor concentration. The effect of various organic tertiary bases along with formic acid (FA) as a hydrogen donor was studied, and N-methylpiperidine with FA (1:1 molar ratio) was revealed as an efficient hydrogen donor for ATH of LA to GVL furnishing chiral GVL with complete conversion and 93% enantiomeric excess (ee). This operationally simple and mild ATH protocol was tested for practical applicability of ATH of LA obtained from biomass waste (rice husk and wheat straw) and furnished chiral GVL with 82% ee.

机译：这项研究提供了有关钌催化乙酰丙酸（LA）转化为手性γ-戊内酯（GVL）的不对称转移氢化（ATH）的首次报告。已经用Noyori的手性催化剂（Ru–TsDPEN）在甲醇溶剂中探索了洛杉矶的ATH。在不同的反应条件下，如温度，催化剂和氢供体浓度，研究了LA的ATH反应的有效性。研究了各种有机叔碱以及甲酸（FA）作为氢供体的作用，发现具有FA（1：1摩尔比）的N-甲基哌啶是LA与GVL的ATH的有效氢供体，提供了手性GVL具有完全的转化率和93％的对映体过量（ee）。该操作简单且温和的ATH协议已针对从生物质废物（稻壳和麦秸）中获得的LA ATH的实际适用性进行了测试，并提供了82％ee的手性GVL。

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《ACS Omega》 |2019年第21期|共8页
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Vaishali S. Shende; Amol B. Raut; Prathamesh Raghav; Ashutosh A. Kelkar; Bhalchandra M. Bhanage;
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1. Catalytic transfer hydrogenation of biomass-derived levulinic acid to gamma-valerolactone over Sn/Al-SBA-15 catalysts (vol 44, pg 8209, 2020) [J] . Kumaravel Sakthivel, Thiripuranthagan Sivakumar, Durai Mani, New Journal of Chemistry . 2020,第37期

机译：生物质衍生的乙酰丙酸对γ-戊酸酯的催化转移氢化在Sn / Al-SBA-15催化剂上（Vol 44，PG 8209,2020）
2. Catalytic transfer hydrogenation of biomass-derived levulinic acid to gamma-valerolactone over Sn/Al-SBA-15 catalysts [J] . Kumaravel Sakthivel, Thiripuranthagan Sivakumar, Durai Mani, New Journal of Chemistry . 2020,第20期

机译：在Sn / Al-SBA-15催化剂上催化生物质衍生的乙酰丙酸对γ-戊酰胺的催化转移氢化
3. Transfer hydrogenation of biomass-derived levulinic acid to gamma-valerolactone over supported Ni catalysts [J] . Hengne A. M., Kadu B. S., Biradar N. S., RSC Advances . 2016,第64期

机译：将生物质衍生的乙酰丙酸的转移氢化在负载的Ni催化剂上以γ-丙酮酸甲酯
4. Kinetics of γ-valerolactone formation during aqueous phase hydrogenation of levulinic acid over supported Ru [C] . Jesse Q. Bond, Omar Ali Abdelrahman ACS National Meeting Exposition . 2014

机译：乙酰乙酰乙酰乙酰氢萘丙酮酮形成的动力学
5. Effect of Nanoparticle Size, Support, and Potassium Dopant on Ruthenium Activity for Levulinic Acid (LA) Hydrogenation to γ-Valerolactone (GVL) [D] . Cao, Shuo 2013

机译：纳米颗粒尺寸，载体和钾掺杂对钌对丙戊酸（LA）加氢生成γ-戊内酯（GVL）的活性的影响
6. Room-Temperature Asymmetric Transfer Hydrogenationof Biomass-Derived Levulinic Acid to Optically Pure γ-ValerolactoneUsing a Ruthenium Catalyst [O] . VaishaliS. Shende, Amol B. Raut, Prathamesh Raghav, 2019

机译：室温不对称转移加氢衍生的生物丙酸对光学纯的γ-戊内酯的合成使用钌催化剂
7. Correction: Catalytic transfer hydrogenation of biomass-derived levulinic acid to γ-valerolactone over Sn/Al-SBA-15 catalysts [O] . Sakthivel Kumaravel, Sivakumar Thiripuranthagan, Mani Durai, 2020

机译：校正：在SN / Al-SBA-15催化剂上催化生物质衍生的乙酰丙酸对γ-戊酰胺的氢化氢化

Room-Temperature Asymmetric Transfer Hydrogenation of Biomass-Derived Levulinic Acid to Optically Pure γ-Valerolactone Using a Ruthenium Catalyst

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