基本情况

出生年月：1984-09        籍贯：泰国

最高学历：泰国朱拉隆功大学 ，化学工程博士

工作单位：武汉理工大学 材料复合新技术国家重点实验室

联系地址：武汉市洪山区武汉理工大学南湖校区化学楼1楼312室

联系电话：13871122862

Email：sama_che@hotmail.com

研究领域

金属有机骨架（MOFs）或其衍生材料的结构设计、制备及在气体吸附/分离与（电）催化方面的应用，具体包括：

（1）利用这些材料的可设计性与功能化来提升其性能；

（2）研究绿色新材料的合成方法并明确其结晶机理；

（3）将所得材料用于 CO₂ 吸附、沼气分离、CO₂ 转化、生物聚合或电催化等领域。

教育经历

2007.04 - 2011.06  泰国朱拉隆功大学，催化和催化反应工程实验室，工程学院，化学工程博士

2003.05 - 2007.04  泰国玛希隆大学 ，工程学院，化学工程专业，工学学士

工作经历

2016/11-至今：武汉理工大学材料复合新技术国家重点实验室，副研究员

2015/03-2016.10：武汉理工大学材料复合新技术国家重点实验室，助理研究员

2012/06-2014.12：武汉理工大学材料复合新技术国家重点实验室，博士后

科研项目

国家自然科学基金委外国青年学者研究基金延续项目（项目批准号：21950410754），金属在MOFs 衍生的功能化碳基体的分散及其前驱体作为一种强而有效的催化剂用于CO₂转化，绿色化学和能源，2020/01-2021/12，30万，项目负责人，在研

国家自然科学基金外国青年学者研究基金项目（项目批准号：21850410449），MOFs衍生的分散在碳基体中的金属作为有效的二氧化碳转化催化剂，2019/01-2019/12，20万，项目负责人，已结题

青年科学基金项目 (项目批准号：21502146)，金属有机骨架材料开发及绿色能源净化与绿色化学催化应用，2016/01-2018/12，21万，项目负责人，已结题

武汉理工大学新教师研究基金(项目批准号：163143003)，金属有机骨架材料在清洁能源中的应用，2015/01-2017/01，5万，项目负责人，已结题

博士后研究基金，金属-有机骨架的合成与应用，2012/01-2014/01，2万，项目负责人，已结题

国家研究型大学计划，用甲烷进行CO2重整催化剂的开发，2011/01-2014/01，2万，项目负责人，已结题

皇家金禧年博士项目，应用于乙烯和2-丁烯歧化反应的钨支撑材料，2007/01-2010/01，4万，项目负责人，已结题

荣誉与奖励

2015.10.11~14，德国，在国际会议“首届金属有机骨架与多孔聚合物欧洲大会”上做墙报展示；

2016.12.28~31，韩国，在国际会议“化学与材料工程国际大会(ICCME 2016)”上做口头汇报；

2017.10.29~11.01，荷兰，在国际会议“第二届金属有机骨架与多孔聚合物欧洲大会”上做墙报展示；

2018.06.01~07.15 在俄罗斯托木斯克理工大学进行课题“金属-有机骨架的开发和合成及催化应用”的研究；

2018.08.19~24，墨西哥，在国际会议“第 27 届金属有机骨架及其应用国际材料研究会议”上做口头汇报；

2018.12.09~13，新西兰，在国际会议“第 6 届金属有机骨架与开放骨架化合物国际会议”上做墙报展示。

2019.05.29~30，新加坡，参加了国际会议“第十届生物聚合物与生物塑料——金属有机骨架材料用于生物聚合物制备国际会议”。

代表性论文（*通讯作者）

1. Chen C., Wang Z.Q., Gong Y.Y., Wang J., Yuan Y., Cheng H., Sang W., Chaemchuen S.*, Verpoort F.*, Cobalt embedded in nitrogen-doped porous carbon as a robust heterogeneous catalyst for the atom-economic alcohol dehydrogenation to carboxylic acids, Carbon, 2020, 174, 284-294, DOI: 10.1016/j.carbon.2020.12.040.

2. Gong Y, Yuan Y, Chen C, Chaemchuen S.*, Verpoort F.*, Palladium metallated shell layer of shell@ core MOFs as an example of an efficient catalyst design strategy for effective olefin hydrogenation reaction. Journal of Catalysis. 2020, 392,141-149.

3. Shi G., Xu W., Wang J., Yuan Y., Chaemchuen S.*, Verpoort F.* A Cu-based MOF for the effective carboxylation of terminal alkynes with CO2 under mild conditions. Journal of CO2 Utilization, 2020, 39, 101177

4. Akimana E., Wang J., Likhanova N.V., Chaemchuen S.*, Verpoort F.*, MIL-101(Cr) for CO2 Conversion into Cyclic Carbonates, Under Solvent and Co-Catalyst Free Mild Reaction Conditions, Catalysts, 2020, 10, 453; doi:10.3390/catal10040453 

5. Chaemchuen S, Heynderickx PM*, Verpoort F.*, Kinetic modeling of oleic acid esterification with UiO-66: from intrinsic experimental data to kinetics via elementary reaction steps. Chemical Engineering Journal, 2020, 394, 124816, DOI: 10.1016/j.cej.2020.124816

6. Xu, W., Wang, J., Zhang, P., Klomkliang, N., Chaemchuen, S.*, Verpoort, F.* Hierarchical ZIFs@Al2O3 composite materials as      

effective heterogeneous catalysts, Microporous and Mesoporous Materials, 2020, 297, 110009, DOI: 10.1016/j.micromeso.2020.110009

7. Shi, G., Xu, W., Wang, J., Mousavi, B., Klomkliang, N., Chaemchuen S.*, Thermochemical transformation in single-step synthesis zeolitic imidazole frameworks under solvent-free. Dalton Transactions, 2020, DOI: 10.1039/C9DT04505H.

8. Chaemchuen, S., Semyonov, O. V., Dingemans, J., Xu, W., Zhuiykov, S., Khan, A., & Verpoort, F. (2019). Progress on Catalyst Development for Direct Synthesis of Dimethyl Carbonate from CO2 and Methanol. Chemistry Africa, 2019, 2(4), 533-549.

9. Gong, Y., Yuan, Y., Chen, C., Zhang, P., Wang, J., Khan, A., Zhuikov S., Chaemchuen S.*, Verpoort, F.*, Enhancing catalytic performance via structure core-shell metal-organic frameworks. Journal of Catalysis, 2019, 375, 371-379

10. Naz, F., Mumtaz, F., Chaemchuen, S.* and Verpoort, F.*, Bulk Ring-Opening Polymerization of ε-Caprolactone by Zeolitic Imidazolate Framework. Catalysis Letters, 2019, 1-10.

11. Naz F., Mousavi B., Luo Z., Jabbour C., Heynderickx P. M., Chaemchuen S.*, Verpoort F.*, Switching from linear to cyclic δ-Polyvalerolactone synthesized via Zeolitic Imidazolate Framework as catalyst: A promising approach., Applied Organometallic Chemistry, Accepted 2019

12. Patent: PCT/CN2016/085221, WO/2017/210874, IMPERFECT MOFS (IMOFS) MATERIAL, PREPARATION AND USE IN CATALYSIS, SORPTION AND SEPARATION, Inventors: VERPOORT, Francis Walter Cornelius; CHAEMCHUEN, Somboon, 2019

13. Gong, Y., Yuan, Y., Chen, C., Zhang, P., Wang, J., Chaemchuen, S*, Verpoort F., Core-shell metal-organic frameworks and metal functionalization to access highest efficiency in catalytic carboxylation, Journal of Catalysis, 2019, 371, 106-115.

14. Chaemchuen, S., Xiao, X., Ghadamyari, M., Mousavi, B., Klomkliang, N., Yuan, Y., & Verpoort, F., Robust and efficient catalyst derived from bimetallic Zn/Co zeolitic imidazolate frameworks for CO2 conversion, Journal of Catalysis, 2019, 370, 38-45.

15. Chaemchuen, S., Zhou, K., Yusubov, M.S., Postnikov, P.S., Klomkliang N., Verpoort F., Solid-state transformation in porous metal-organic frameworks based on polymorphic-pillared net structure: Generation of tubular shaped MOFs, Microporous and Mesoporous Materials, 2019, 278:99-104

16. Chaemchuen, S., Wang, J. C., Gilani, A. G., & Francis, F. V. Metal-organic frameworks applied for water purification, Resource-Efficient Technologies, 2018, 1: 1-16.

17. Chaemchuen, S., Xiao, X., Klomkliang, N., Yusubov, M., & Verpoort, F., Tunable Metal–Organic Frameworks for Heat Transformation Applications, Nanomaterials, 2018, 8(9): 661

18. Chaemchuen, S., Zhou, K., Mousavi, B., Ghadamyari, M., Heynderickx, P.H., Zhuiykov, S., Yusubov, M.S., & Verpoort, F., Spray drying of zeolitic imidazolate frameworks: investigation of crystal formation and properties, CrystEngComm, 2018, 20(25): 3601-3608

19. Zhou, K., Chaemchuen, S.*, Metal-Organic Framework as Catalyst in Esterification of Oleic Acid for Biodiesel Production, International Journal of Environmental Science and Development, 2017, 8(4): 251 DOI: 10.18178/ijesd.2017.8.4.957

20. Chaemchuen S, Zhou K, Verpoort F. From biogas to biofuel: materials used for biogas cleaning to biomethane, ChemBioEng Reviews, 2016, 3(6): 250-265.

21. Chaemchuen, S., Luo, Z., Zhou, K., Mousavi, B., Phatanasri, S., Jaroniec, M., & Verpoort, F., Defect formation in metal–organic frameworks initiated by the crystal growth-rate and effect on catalytic performance, Journal of Catalysis, 2017, 354: 84-91

22. Suriye, K., Jareewatchara, W., Lekngarm, P., Chaemchuen, S., Sutthiumporn, K., & Nonkhamwong, A., Metathesis catalyst on mixed metal oxide-zeolite support and process for use thereof, U.S. Patent Application No. 15/515,732. Patent No. WO2016068814A1, PCT/TH2014/000051, 2017.

23. Zhou, K., Mousavi, B., Luo, Z., Phatanasri, S., Chaemchuen, S.*, & Verpoort, F, Characterization and properties of Zn/Co zeolitic imidazolate frameworks vs. ZIF-8 and ZIF-67, Journal of Materials Chemistry A, 2017, 5(3): 952-957

24. Chaemchuem, S., Kui, Z., & Verpoort, F., Control of interpenetration via in situ lithium incorporation in MOFs and their gas adsorption properties and selectivity, CrystEngComm, 2016, 18(39): 7614-7619

25. Chaemchuen, S., Zhou, K., Kabir, N. A., Chen, Y., Ke, X., Van Tendeloo, G., & Verpoort, F., Tuning metal sites of DABCO MOF for gas purification at ambient conditions, Microporous and Mesoporous Materials, 2015, 201: 277-285

26. Chaemchuen, S., Zhou, K., Yao, C., Luo, Z., & Verpoort, F., Alkali-Metal Tuning of Adsorption Sites in Metal Organic Frameworks MOF-5 for Carbon Dioxide/Methane Separation at Ambient Conditions, Chinese Journal of Applied Chemistry, 2015, 32(5): 552-556

27. Chaemchuen, S., Kui, Z. H. O. U., Chen, Y. A. O., Zhi-Xiong, L., & Verpoort, F., Lithium Incorporating Simultaneous with MOF-5 Synthesis for CO2/CH4 Mixed-Gas Separation, CHINESE JOURNAL OF INORGANIC CHEMISTRY, 2015, 31(3): 509-513

28. Chaemchuen, S., Kabir, N. A., Zhou, K., & Verpoort, F. Metal–organic frameworks for upgrading biogas via CO2 adsorption to biogas green energy, Chemical Society Review, 2013, 42(24): 9304-9332