TEMPO immobilized polymericdumbbel: Assembly and catalysis at liquid-liquid interface
作者:Hao Zhang, Zhengyuan Tao, Ziqi Yu, Tiantian Zhu, Hanlin Rao, Badusha Mohamad Ali, Jianli Wang
關(guān)鍵字:Janus particles,TEMPO, Pickering interfacial catalyst, Alcohol oxidation, Biphasic reactions
論文來(lái)源:期刊
具體來(lái)源:Surfaces and Interfaces
發(fā)表時(shí)間:2024年
Pickering界面催化劑(Pickering interface catalyst, PICs)作為一種同時(shí)增強(qiáng)和催化液-液兩相反應(yīng)的有前景的解決方案而出現(xiàn)。在這項(xiàng)研究中�����,我們成功地合成了啞鈴形狀的Janus結(jié)構(gòu)聚合物納米顆粒���,其中一側(cè)錨定咪唑-TEMPO(im-C4-TEMPO@JPP)作為醇氧化的Pickering界面催化劑,使用Anelli-Montanari反應(yīng)體系�。在Pickering乳液體系中����,由于咪唑-TEMPO錨定葉的親水性����,im-C4-TEMPO@JPPs顆粒聚集在W/O界面上��,這使得聚合物Janus啞鈴具有優(yōu)異的兩親性�����。此外�,im-C4-TEMPO@JPPs顆粒使界面張力從27.82 mN/m降低到18.43 mN/m�����。im-C4-TEMPO@JPPs優(yōu)異的界面吸附能力使水/二氯甲烷Pickering乳狀液(乳狀液體積分?jǐn)?shù)>90 %)具有2個(gè)月以上的強(qiáng)穩(wěn)定性����,為液-液兩相反應(yīng)提供了高效的反應(yīng)平臺(tái)����。結(jié)果表明,所構(gòu)建的皮克林乳液體系在靜態(tài)條件下能有效地催化肉桂醇氧化為肉桂醛�。反應(yīng)1小時(shí)后�,肉桂醇的轉(zhuǎn)化率達(dá)到97.1%��,選擇性為99%����,與攪拌強(qiáng)化雙相反應(yīng)基本相同。因此�,這種新型PIC有效地提高了液-液兩相催化反應(yīng)的效率和可持續(xù)性����。
Pickering interfacial catalysts (PICs) have emerged as a promising solution for simultaneously enhancing and catalyzing liquid-liquid biphasic reactions. In this study, we successfully synthesized dumbbell-shaped Janus structured polymeric nanoparticles with one side anchored imidazolium-TEMPO (im-C4-TEMPO@JPP) as Pickering interfacial catalyst for the oxidation of alcohols using the Anelli-Montanari reaction system. In the Pickering emulsion system, the im-C4-TEMPO@JPPs particles are assembled at the W/O interface due to the hydrophilicity of imidazolium-TEMPO anchored lobe which enables excellent amphiphilic character of the polymeric Janus dumbbell. Moreover, the im-C4-TEMPO@JPPs particles reduce the interfacial tension from 27.82 to 18.43 mN/m. This excellent interfacial adsorption capacity of im-C4-TEMPO@JPPs strongly stabilizes the water/dichloromethane Pickering emulsion over two months (emulsion volume fraction >90 %), thus providing an efficient reaction platform for liquid-liquid biphasic reactions. As a result, the constructed Pickering emulsion system efficiently catalyzes the oxidation of cinnamyl alcohol to cinnamaldehyde under static conditions. After 1 hour of reaction, the conversion of cinnamyl alcohol achieved 97.1 % with a selectivity of 99 %, nearly the same level relative to stirring intensified biphasic reaction. Hence, this novel PIC effectively improves the efficiency and sustainability of liquid-liquid biphasic catalytic reactions.
國(guó)家自然科學(xué)基金(資助號(hào):22178317、22109138)資助���。