焦路通

焦路通，男，1996年生，中共党员，副教授，硕士研究生导师，北京化工大学博士，在塔里木大学化学化工学院任专任教师。

一、研究方向

主要从事新型多功能碳材料的制备及其催化转化生物质衍生物合成增值化学品的研究和氢存储材料研究。

二、科研项目与学术成果

先后主持国家及省部科研项目2项，发表论文6篇， 在Chemical Engineering Journal、Industrial & Engineering Chemistry Research和Catalysis Science & Technology等SCI收录论文6篇、EI收录5篇。

（一）主持重要科研项目：

（1）自治区“天池英才”项目，生物质衍生的杂原子掺杂碳材料的研发及其催化氧化糠醛/苯酚的应用研究，No. 525314011，2025-2028，15万元。

（2）塔里木大学校长基金-（博士）胡杨英才项目，多孔碳负载钴硼催化剂的制备及其催化分解硼氢化钠制氢的研究，No. TDZKBS202550，2025-2028，40万元。

（二）主要成果：

1、代表性期刊论文：

        [1]. Lutong Jiao, Chenyu Wang, Han Meng, Peijun Ji. A hierarchical porous N-doped carbon material as catalyst derived from the folic acid-Zn/KBr hydrogel: reaction network and kinetics and mechanism for the oxidation of furfural to maleic acid. Chemical Engineering Journal, 2024, 479, 147686. ((Q1/Top, IF=15.1).

       [2]. Lutong Jiao, Chenyu Wang, Yuhui Wu, Han Meng, Peijun Ji. A phosphorus-doped carbon material derived from a sodium alginate/phosphoric acid hydrogel as an efficient catalyst for catalytic oxidation of furfural to maleic acid. Catalysis Science & Technology, 2024, 14, 4997-5008. (Q2, IF=4.4)

       [3]. Lutong Jiao, Siyu Sun, Xianling Meng, Peijun Ji. Sn-Based Porous Coordination Polymer Synthesized with Two Ligands for Tandem Catalysis Producing 5-Hydroxymethylfurfural. Catalysts, 2019, 9, 739. (Q2, IF=3.9)

       [4]. Siyu Sun, Lutong Jiao,(共一) Peijun Ji. Poly(divinylbenzene-maleic acid) hollow nanospheres coordinated with zirconium: effective catalyst for catalytic transfer hydrogenation of furfural to furfuryl alcohol. Industrial & Engineering Chemistry Research, 2024, 63, 5113-5124. (Q2, IF=4.2).

       [5]. Chenyu Wang, Lutong Jiao, Peijun Ji. Interfacial synthesis of Co -based ultrathin nanosheets with NaF crystal as template and inducer: fluorine doped Co(OH)₂, porous fluorine doped Co₃O₄, and porous Co₃O₄. Applied Surface Science, 2022, 589, 152923 -152923. (Q1/Top, IF=6.7).

       [6]. Chenyu Wang, Lutong Jiao, Han Meng and Peijun Ji. Bifunctional heterogeneous catalysts derived from the coordination of adenosine monophosphate to Sn(IV) for effective conversion of sucrose to 5-hydroxymethylfurfural. Catalysis Science & Technology, 2022, 12, 630-640. (Q2, IF=5.0).

三、联系方式

E-mail：120240028@taru.edu.cn