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《南京师大学报（自然科学版）》[ISSN:1001-4616/CN:32-1239/N]

Issue:

2016年02期

Page:

44-

Research Field:

化学

Publishing date:

Info

Title:

Syntheses of Bornylene and Bornadiene Using Microwave Irradiation

Author(s):

Yang Xiaoqin¹; Ning Pin²; Zheng Yunwu¹; Huang Yuanbo¹; Zheng Zhifeng¹; Zeng Tao³

（1.University Key Laboratory of Biomass Chemical Refinery & Synthesis of Yunnan Province，College of Materials Engineering，Southwest Forestry University，Kunming 650224，China）（2.School of Environmental Science and Engineering，Kunming University of Science

Keywords:

microwave irradiation; eliminatoin reaction; bornylene; bornadiene; renewable

PACS:

TQ351

DOI:

10.3969/j.issn.1001-4616.2016.02.009

Abstract:

Bornylene and bornadiene were synthesized using 2-chlorocamphane and 2，6-dichlorocamphane as raw materials under microwave irradiation. The results showed that the optimum reaction conditions are as follows： using potassium tert-butoxide as elimination reagent，N，N’ - dimethyl formamide as solvent，with microwave power of 400 W at microwave temperature of 120℃ for 60 min，the yields of bornylene and bornadiene can be up to 92.1% and 94.3%，respectively. Microwave method is simple，eco-friendly，and has the advantage of short reaction time and high yields. Moreover，mechanism of 2-chlorocamphane and 2，6-dichlorocamphane elimination reaction was studied，the result demonstrated that this reaction is a bimolecular elimination reaction （E2） mechanism which only follows the cis-elimination.

References:

［1］ THOMAS F A H，WALTER H，STEFAN A K，et al. Polynorbornene： synthesis，properties and simulations issue ［J］. Macromolecular chemistry and physics，1996，197（10）： 3 435-3 453.
［2］ HENRIQUE K C，CAMILA P F，VALDEMIRO P C JR，et al. Tuning the activity of alternative Ru-based initiators for ring-opening metathesis polymerization of norbornene and norbornadiene by the substituent in 4-CH2R-piperidine ［J］. Journal of molecular catalysis A： chemical，2014，385： 46-53.
［3］ LI L，HUANG X L，WANG Z，et al. Studies on the copolymerization of norbornene with CO catalyzed by a new catalytic system PdCl2 /phen/M（CF3 SO3 ）n ［J］. Kinetics and catalysis，2007，48（1）：45-52.
［4］ MICHAEL J H，RALPH G N，GREGORY S G. Structure-reactivity correlations in the reactions of hydrocarbons on transition metal surfaces. 2. hydrogenation of norbornene and bicycle［2.2.2］octane on platinum（III） ［J］. Journal of the American chemical society，1995，117：1 814-1 827.
［5］ 徐泽辉，高进，叶军明，等. 2，5-降冰片二烯的制备 ［J］. 精细化工，2004，21（2）：157-160.
［6］ 杨晓琴，杜莉娟，曾韬. 钯催化冰片烯与一氧化碳共聚反应的研究 ［J］. 高分子材料科学与工程，2012，28（8）：110-113，117.
［7］ YANG X Q，PAN H，DU L J，et al. Synthesis and characterization of a novel bornadiene/carbon monoxide polyketone based on a renewable α-pinene derivative ［J］. Materials letters，2013，102：68-71.
［8］ 程健，冯涛，曾韬. 冰片烯的合成研究 ［J］. 林产化学与工业，2009，2（4）：54-58.
［9］ 李开婧，曾韬，冯涛，等. 冰片二烯的合成研究 ［J］. 林产化学与工业，2009，29（增刊）：59-63.
［10］ FERNANDO L，PILAR de la C，ANTONIO de la H，et al. Microwave irradiation： more than just a method for accelerating reactions ［J］. Contemp Org Synth，1997，4： 373-386.
［11］ 杨晓琴，曾韬，杜莉娟，等. 环氧冰片烯的合成与结构表征 ［J］. 林产化学与工业，2012，32（1）：71-73.
［12］ 恽魁宏，高鸿宾，任贵忠. 高等有机化学［M］. 北京： 高等教育出版社，1999.
［13］ 梁丽华. 消除反应的立体化学 ［J］. 山西师大学报（自然科学版），1997，11（2）：26-29.

Memo

Memo:

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Common functions

Last Update: 2016-06-30