2-5. High-throughput syntheses of SCM zeolite materials

Weimin Yang

State Key Laboratory of Green Chemical Engineering and Industrial Catalysis; Sinopec Shanghai Research Institute of Petrochemical Technology

Abstract: After thousands of synthesis tests, more than 20 OSDAs are screened, dozens of zeolites are synthesized in silica-alumina, silica-boron, silica-germanium and phosphorous-aluminum systems (Figure 1). Major progresses include: synthesis of TON-type zeolite nanosheet; new synthesis methods for MWW-、BEC-、IWR-、SFE-type zeolites; synthesis of SCM-14 (framework type code SOR), a new zeolite possessing a unique 3D framework structure of 12-, 8- and 8-ring channel system and SCM-15 (framework type code SOV), a new zeolite possessing a unique 3D framework structure of 12-, 12- and 10-ring channel system. Quantities of data items are created for future analysis.

Keyword: Zeolite; Petrochemical; SCM; High-throughput; Materials Genome

Figure 1. The high-throughput synthesis of novel zeolites.

 图 1. 新型分子筛材料的高通量合成

SCM 系列分子筛新材料的高通量合成
杨为民 

中国石油化工股份有限公司上海石油化工研究院，绿色化工与工业催化国家重点实验室

摘要:新结构、新组成的分子筛新材料创制及分子筛合成新方法的开发仍将是分子筛领域的研 究热点。高通量设备在分子筛合成研究中优势明显，能够有效缩短分子筛材料的研发周期，并 能够获取大数据为实现理性设计提供强有力的支持。未来，随着大数据、云计算、人工智能等 的快速发展，结合理论计算预测的高通量实验技术将变革人工试错的传统研发模式，进一步缩 短研发周期，减少研发投入，最终实现分子筛新材料的快速开发。

关键词:分子筛;石油化工;SCM;高通量;材料基因