摘要
采用XRD、XPS和XAES、ESR等技术研究1,4丁二醇液相脱氢环化合成γ-丁内酯CuZnAlO催化剂在不同条件下的表面化学态。结果表明:CuZnAlO催化剂前驱体以Cu+2形式存在;活化态、反应态表面只是Cu0,未测出Cu+、Cu2+;体相中尚存在部分未还原的Cu+2;Cu0微晶有聚集的现象;关联活性测试结果认为:在活化态、反应态中ZnO、Al元素与Cu0的相互作用,可抑制微晶Cu0的聚集。
XRD、ESR、XPS and XAES were used to examine the surface chemical state of Cu Zn Al O catalyst for synthesizing γ Butyrolactone by the liquid phase dehydrocyclization reaction from 1,4 Butanediol under various conditions. The following results were obtained from experiments: (1) There exist Cu 2+ in the precursor of Cu Zn Al O catalyst. (2) On the surface of the active catalyst only Cu 0 is found, no stable Cu + and Cu 2+ exist. There is Cu 2+ still in the bull of the active catalyst. (3) Cu 0 migrate toward the surface and results in Cu 0 enrichment of the surface. (4) It is found that the interaction among the metallic elements of Cu、Zn、Al prevents micro crystal Cu 0 growth, and improves singnificantly the activity and stabltity of Cu Zn Al O catalyst according to the activity measurement results.
出处
《化学反应工程与工艺》
CAS
CSCD
北大核心
1998年第4期377-381,共5页
Chemical Reaction Engineering and Technology
关键词
丁内酯
丁二醇
催化剂
表面化学态
铜
锌
铝
γ Butyrolactone, 1,4 Butanediol, Cu Zn Al O catalyst, Surface chemical state
