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机译:通过辅助膦硫化物稳定脂族磷酸,为探测生物Cu-1提供ZeptOmolar亲和力和前所未有的选择性
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
Georgia Inst Technol GW Woodruff Sch Mech Engn 315 Ferst Dr Atlanta GA 30332 USA;
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
Georgia Inst Technol GW Woodruff Sch Mech Engn 315 Ferst Dr Atlanta GA 30332 USA;
Georgia Inst Technol Petit Inst Bioengn &
Biosci Sch Chem &
Biochem 901 Atlantic Dr Atlanta GA 30332 USA;
chelation; copper; electrophysiology; metal homeostasis; signaling;
机译:通过辅助膦硫化物稳定脂族磷酸,为探测生物Cu-1提供ZeptOmolar亲和力和前所未有的选择性
机译:邻苯二酚膦及其硫化物的不同配位行为:形成前所未有的具有不配位PS单元的双核铑配合物
机译:将膦硫化物自由基加成至芳基和杂芳基乙炔中:前所未有的立体选择性
机译:辅助膦硫化物稳定脂肪族膦提供了分子亲和力和空前的选择性来探测生物CuI
机译:使用硼氢化钠将氧化膦和硫化物简单前所未有地转化为膦硼烷