Visualization of on-surface ethylene polymerization through ethylene insertion.
Weijun GuoJunqing YinZhen XuWentao LiZhantao PengC J WeststrateXin YuYurong HeZhi CaoXiao-Dong WenYong YangKai WuYongwang LiJ W NiemantsverdrietXiong ZhouPublished in: Science (New York, N.Y.) (2022)
Polyethylene production through catalytic ethylene polymerization is one of the most common processes in the chemical industry. The popular Cossee-Arlman mechanism hypothesizes that the ethylene be directly inserted into the metal-carbon bond during chain growth, which has been awaiting microscopic and spatiotemporal experimental confirmation. Here, we report an in situ visualization of ethylene polymerization by scanning tunneling microscopy on a carburized iron single-crystal surface. We observed that ethylene polymerization proceeds on a specific triangular iron site at the boundary between two carbide domains. Without an activator, an intermediate, attributed to surface-anchored ethylidene (CHCH 3 ), serves as the chain initiator (self-initiation), which subsequently grows by ethylene insertion. Our finding provides direct experimental evidence of the ethylene polymerization pathway at the molecular level.