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Article Abstract
The high storage capacity versus high selectivity trade-off barrier presents a daunting challenge to practical application as an acetylene (C H ) adsorbent. A structure-performance relationship screening for sixty-two high-performance metal-organic framework adsorbents reveals that a moderate pore size distribution around 5.0-7.5 Å is critical to fulfill this task. A precise pore space partition approach was involved to partition 1D hexagonal channels of typical MIL-88 architecture into finite segments with pore sizes varying from 4.5 Å (SNNU-26) to 6.4 Å (SNNU-27), 7.1 Å (SNNU-28), and 8.1 Å (SNNU-29). Coupled with bare tetrazole N sites (6 or 12 bare N sites within one cage) as high-density H-bonding acceptors for C H , the target MOFs offer a good combination of high C H /CO adsorption selectivity and high C H uptake capacity in addition to good stability. The optimized SNNU-27-Fe material demonstrates a C H uptake of 182.4 cm g and an extraordinary C H /CO dynamic breakthrough time up to 91 min g under ambient conditions.
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