浙江化工
浙江化工
절강화공
ZHEJIANG CHEMICAL INDUSTRY
2014年
3期
17-20
,共4页
鲍樟水%沈方烈%虞小华%郑昀红
鮑樟水%瀋方烈%虞小華%鄭昀紅
포장수%침방렬%우소화%정윤홍
联苯吡菌胺%杀菌剂%合成
聯苯吡菌胺%殺菌劑%閤成
련분필균알%살균제%합성
Bixafen%fungicide%synthesis
综述了联苯吡菌胺及其中间体的合成路线,并对各路线进行了比较和评价。以3,4-二氯苯胺为原料经重氮化反应、偶联反应、酰化反应合成联苯吡菌胺的合成路线最有工业化前景和研究价值。
綜述瞭聯苯吡菌胺及其中間體的閤成路線,併對各路線進行瞭比較和評價。以3,4-二氯苯胺為原料經重氮化反應、偶聯反應、酰化反應閤成聯苯吡菌胺的閤成路線最有工業化前景和研究價值。
종술료련분필균알급기중간체적합성로선,병대각로선진행료비교화평개。이3,4-이록분알위원료경중담화반응、우련반응、선화반응합성련분필균알적합성로선최유공업화전경화연구개치。
The synthetic routes of bixafen and its intermediates were reviewed in this paper, and each route were compared and evaluated. 3, 4-dichloroaniline as raw materials, bixafen was synthesized through diazotization, coupling reaction and acylation. This synthetic route had most research value and prospects for industrialization.
