化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2013年
5期
1035-1042
,共8页
刘琪英%廖玉河%石宁%王铁军%马隆龙%张琦
劉琪英%廖玉河%石寧%王鐵軍%馬隆龍%張琦
류기영%료옥하%석저%왕철군%마륭룡%장기
山梨醇%木糖醇%丙三醇%选择性氢解%小分子二元醇
山梨醇%木糖醇%丙三醇%選擇性氫解%小分子二元醇
산리순%목당순%병삼순%선택성경해%소분자이원순
sorbitol%xylitol%glycerol%selective hydrogenolysis%small molecular diols
乙二醇、1,2-/1,3-丙二醇等小分子二元醇在精细和有机化工、生物医药等领域应用广泛.与石化路径相比,以可再生的生物质多元醇(丙三醇、山梨醇/木糖醇)为原料选择性催化氢解制取上述小分子二元醇具有过程简单、绿色高效等显著优势,已成为生物质催化转化的研究热点.本文综述了典型生物质多元醇山梨醇/木糖醇和丙三醇选择性催化氢解为乙二醇、1,2-/1,3-丙二醇等小分子二元醇,重点阐述了丙三醇选择性氢解制1,2-丙二醇、1,3-丙二醇和山梨醇/木糖醇选择性氢解制小分子二元醇的催化剂体系和反应机理,并对该领域的发展前景作了展望,提出开发高效稳定的催化剂体系和工艺是未来的研究重点.
乙二醇、1,2-/1,3-丙二醇等小分子二元醇在精細和有機化工、生物醫藥等領域應用廣汎.與石化路徑相比,以可再生的生物質多元醇(丙三醇、山梨醇/木糖醇)為原料選擇性催化氫解製取上述小分子二元醇具有過程簡單、綠色高效等顯著優勢,已成為生物質催化轉化的研究熱點.本文綜述瞭典型生物質多元醇山梨醇/木糖醇和丙三醇選擇性催化氫解為乙二醇、1,2-/1,3-丙二醇等小分子二元醇,重點闡述瞭丙三醇選擇性氫解製1,2-丙二醇、1,3-丙二醇和山梨醇/木糖醇選擇性氫解製小分子二元醇的催化劑體繫和反應機理,併對該領域的髮展前景作瞭展望,提齣開髮高效穩定的催化劑體繫和工藝是未來的研究重點.
을이순、1,2-/1,3-병이순등소분자이원순재정세화유궤화공、생물의약등영역응용엄범.여석화로경상비,이가재생적생물질다원순(병삼순、산리순/목당순)위원료선택성최화경해제취상술소분자이원순구유과정간단、록색고효등현저우세,이성위생물질최화전화적연구열점.본문종술료전형생물질다원순산리순/목당순화병삼순선택성최화경해위을이순、1,2-/1,3-병이순등소분자이원순,중점천술료병삼순선택성경해제1,2-병이순、1,3-병이순화산리순/목당순선택성경해제소분자이원순적최화제체계화반응궤리,병대해영역적발전전경작료전망,제출개발고효은정적최화제체계화공예시미래적연구중점.
Selectively catalytic hydrogenolysis of biomass derived polyols (sorbitol,xylitol and glycerol) to small molecular diols (glycol and 1,2-/1,3-propanediols) has attracted more and more attention due to the wide application of these small molecular diols in fine and organic chemical, biology and pharmaceutical industries. Compared to the multi-stepped transformation of fossil based ethylene and propylene feedstocks,selective hydrogenolysis of biomass derived polyols to small molecular diols shows higher efficiency,simpler processing and more friendly to environment. This review is focused on the catalyst and reaction mechanism of selective hydrogenolysis of glycerol to 1,2-/1,3-propanediols and selective hydrogenolysis of sorbitol and xylitol to small molecular diols. The perspective of efficient catalyst and process for producing small molecular diols by hydrogenolysis of biomass derived polyols is discussed.