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姓 名:
侯相林
性    别:
职 务:
职    称:
研究员
学 历:
博士研究生
通讯地址:
太原市桃园南路27号
电 话:
0351-4064152
邮政编码:
030001
传 真:
电子邮件:
houxl@sxicc.ac.cn

简历:

侯相林,研究员,博士研究生导师。
2006/07 至今 研究员,中国科学院山西煤炭化学研究所
2000/01~2006/07 副研究员,中国科学院山西煤炭化学研究所
1997/12~2000/01 助理研究员,中国科学院山西煤炭化学研究所
1992/09~1997/11 中国科学院山西煤炭化学研究所,理学博士
1987/09~1992/07 清华大学化工系,工学学士


研究领域:

1. 生物基平台化合物的制备及其综合利用研究;
2. 碳纤维环氧树脂复合材料的低成本全回收工艺研究;
3. 天然产物活性组分分离与精制;
4. 油脂、磷脂及脂肪酸分离、改性及应用。

社会任职:

获奖及荣誉:
2011年,山西省知识产权工作先进个人
2013年,山西省自然科学二等奖,题目:糖类衍生物热化学转化制备高附加值含氧化学品的研究个人排名2/6
2017年,中国分析测试协会科学技术奖(CAIA奖)二等奖;题目:核磁共振技术在生物炼制研究中的应用;个人排名3/10
2017年,山西省自然科学二等奖;题目:石墨烯催化生物质转化制化学品;个人排名1/6
2017-09, 中国化工学会超临界流体技术专业委员会, 委员
2017-12, SAMPE学会中国大陆总会“复合材料回收再利用专业委员会”, 委员
2019-03, 中国物资再生协会纤维复合材料再生分会,专家委员
《日用化学工业》 编委
代表论著:

1. Zinc-catalyzed ester bond cleavage: Chemical degradation of polyethylene terephthalate, Journal of Cleaner Production, 2019, 208, 1469-1475.
2. Isomeric distribution of monosaccharides in deep eutectic solvents: NMR study, Journal of Molecular Liquids, 2018, 255, 244-249.
3. Protonic Acid Catalysis of Sulfonated Carbon Material: Tunable and Selective Conversion of Fructose in Low-boiling Point Solvent, Applied Catalysis A, 2018, 566, 140-145.
4. The efficient C-C bond formation between two levulinic acid molecules to produce C10 compounds with the cooperation effect of Lewis and Br?nsted acids, ACS Sustainable Chem. Eng., 2018, 6, 5708?5711.
5. Controllable degradation of polyurethane elastomer via selective cleavage of C-O and C-N bonds, Journal of Cleaner Production, 2018, 176, 873-879.
6. Product Distribution Control for Glucosamine Condensation: NMR Investigation Substantiated by Density-Functional Calculations, Industrial & Engineering Chemistry Research, 2017, 56, 2925?2934.
7. Benzoic acid/TEMPO as a high efficient metal-free catalyst system for selective oxidation of 5-hydroxymethylfurfural into 2, 5-diformylfuran, Energy Technology, 2017, 5(8), 1429–1434.
8. Mechanism of the Self-condensation of GlcNH2: Insights from in Situ NMR Spectroscopy and DFT Study, Applied Catalysis B: Environmental, 2017, 202, 420-429.
9. NMR insights into the unexpected interaction of SnCl? with D-glucosamine and its effect on 5-HMF preparation in ZnCl? molten salt hydrate medium, ChemistrySelect, 2016, 1, 6540–6545.
10. Synthesis of 2,5-hexanedione from biomass resources using a highly efficient biphasic system, ChemistrySelect, 2016, 6, 1252–1255.
11. NMR Study of the Hydrolysis and Dehydration of Inulin in Water: Comparison of the Catalytic Effect of Lewis Acid SnCl4 and Bronsted Acid HCl, ACS Sustainable Chemistry & Engineering, 2016, 4(6), 3327–3333.
12. Aerobic Selective Oxidation of 5-Hydroxymethyl-furfural over Nitrogen-doped Graphene Material with 2,2,6,6-Tetramethylpiperidin-oxyl as Cocatalyst, Catalysis Science Technology, 2016, 6, 2377-2386.
13. Value-Added Utilization of the Lignin-Derived Phenol Monomer and Bioethanol to Synthesize Ethylphenol and Ethyl Phenyl Ether, Catal Surv Asia, 2016, 20, 91-97.
14. Vanadium-oxo immobilized onto Schiff base modified graphene oxide for efficient catalytic oxidation of 5-hydroxymethyfurfural and furfural into maleic anhydride, RSC Advances, 2016, 6, 101277-101282.
15. A selective and economic carbon catalyst from waste for aqueous conversion of fructose into 5-hydroxymethylfurfural, RSC Adv., 2016, 6, 30160–30165.
16. Obtaining high value branched bio-alkane from biomass-derived levulinic acid using Raney nickel as hydrodeoxygenation catalyst, RSC Advances, 2016, 6, 93956-93962.
17. Direct Synthesis of 2,5-Diformyfuran from Fructose with Graphene Oxide as Bifunctional and Metal-free Catalyst, Green Chem., 2016, 18, 2302-2307.
18. Chemical Recycling of Unsaturated Polyester Resin and Its Composites via Selective Cleavage of ester Bond, Green Chem., 2015, 17, 4527-4532.
19. Graphene oxide: A Convenient Metal-free Carbocatalyst for Facilitating Aerobic Oxidation of 5-Hydroxymethylfurfural into 2,5-Diformylfuran, ACS Catal. 2015, 5, 5636?5646.
20. Glucosamine condensation catalyzed by 1-ethyl-3-methylimidazolium acetate: mechanistic insight from NMR spectroscopy, Physical Chemistry Chemical Physics, 2015, 17, 23173-23182.
21. Pyrolysis of chitin biomass: TG–MS analysis and solid char residue characterization, Carbohydrate Polymers, 2015, 133, 163-170.
22. Chemical Recycling of Carbon Fiber Reinforced Epoxy Resin Composites via Selective Cleavage of the Carbon Nitrogen Bond, ACS Sustainable Chemistry & Engineering, 2015, 3, 3332?3337.
23. Cleavage of C–N bonds in carbon fiber/epoxy resin composites, Green Chem., 2015, 17(4), 2141-2145.
24. Carbocatalyst in biorefinery: Selective etherification of 5-hydroxymethylfurfural to 5,5’(oxy-bis(methylene)bis-2-furfural over graphene oxide, Catalysis Communications, 2015, 59, 127–130.
25. In Situ NMR Spectroscopy: Inulin Biomass Conversion in ZnCl2 Molten Salt Hydrate Medium - SnCl4 Addition Controls Product Distribution, Carbohydrate Polymers, 2015, 115, 439–443.
26. NMR Insights on the properties of ZnCl2 Molten Salt Hydrate Medium through its Interaction with SnCl4 and Fructose, ACS Sustainable Chemistry & Engineering 2014, 2, 2576–2581.
27. Efficient one-pot synthesis of deoxyfructosazine and fructosazine from D-glucosamine hydrochloride under basic ionic liquid as a dual solvent-catalyst, RSC Advances, 2014, 4, 44253–44260.
28. Graphene Oxide Catalyzed Dehydration of Fructose into 5-Hydroxymethylfurfural with Isopropanol as Cosolvent. ChemCatChem, 2014, 6, 728–732.
29. Graphene oxide as a facile acid catalyst for the one-pot conversion of carbohydrates into 5-ethoxymethylfurfural, Green Chem., 2013, 15, 2379-2383.
30. Direct conversion of chitin biomass to 5-hydroxymethylfurfural in concentrated ZnCl2 aqueous solution, Bioresource Technology, 2013, 143, 384–390.
31. Efficient catalytic system for the conversion of fructose into 5-ethoxymethylfurfural, Bioresource Technology, 2013, 136, 394–400.
32. Conversion of carbohydrates into 5-hydroxymethylfurfural catalyzed by ZnCl2 in water, Chem. Commun., 2012, 48, 5494-5496.
33. Degradable polymers from ring-opening polymerization of α-angelica lactone, a five-membered unsaturated lactone, Polymer Chemistry, 2011, 2, 1190-1194.
34. Kinetic model for the esterification of oleic acid catalyzed by zinc acetate in subcritical methanol, Renewable Energy, 2010, 35, 625-628.


承担科研项目情况:

(1) 抗氧化性牡丹籽油的研究,项目负责人,2017年 12月1日至 2018年12月31日,经费198万
(2) 油用牡丹综合利用研究,项目负责人,2016年1月1日至2017年6月30日,经费38万
(3) 糖类衍生物催化制含氧燃料的基础研究 (973课题),参与,国家级,2011/11~2016/8
(4) 环氧树脂碳纤维复合材料低成本降解回收利用技术的中试研究,山西省科技攻关(工业)项目,项目负责人,2014/01 ~ 2016/12

个人主页:
http://hxl.sxicc.ac.cn