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机译:灵活且机械稳定的MIL-101(CR)@PFS用于高效苯蒸气和CO2吸附
School of Chemistry and Chemical Engineering South China University of Technology Guangzhou 510640 China.;
School of Chemistry and Chemical Engineering South China University of Technology Guangzhou 510640 China.;
School of Chemistry and Chemical Engineering South China University of Technology Guangzhou 510640 China.;
机译:灵活且机械稳定的MIL-101(CR)@PFS用于高效苯蒸气和CO2吸附
机译:在潮湿环境下,水蒸气与VOCs二氯乙烷,乙酸乙酯和苯竞争性吸附在MIL-101(Cr)上
机译:正己烷和苯蒸气在对苯二甲酸铬基多孔材料MIL-101(Cr)上的共吸附实验和计算研究
机译:Cu-BTC和MIL-101金属有机框架(MOFS)上的CO,CO2和CH4气体吸附(纯和二进制)
机译:超级活性炭纳米颗粒上苯,甲苯和水蒸气的竞争性吸附
机译:基于金刚烷的微孔和超微孔框架可有效吸收小量气体和有毒有机蒸气
机译:用可调谐孔隙率朝向高效吸附CO 2,H 2,有机蒸气和挥发性碘的微孔糖合聚合物的制备
机译:来自Ocatacarbonyldicobalt和methylaminobis(difluorophosphine)的新型双金属产品; (meN(pF2)2)3Co2(pF2NHme)2和(meN-(pF2)2)3Co2(CO2)的X射线晶体结构。