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机译:生物液体中的超疏水铜:抗菌活性和微生物学诱导或抑制腐蚀
Russian Acad Sci AN Frumkin Inst Phys Chem &
Electrochem Leninsky Prospect 31 Bldg 4 Moscow 119071 Russia;
Russian Acad Sci AN Frumkin Inst Phys Chem &
Electrochem Leninsky Prospect 31 Bldg 4 Moscow 119071 Russia;
GN Gabrichevsky Res Inst Epidemiol &
Microbiol 10 Admiral Makarov St Moscow 125212 Russia;
Russian Acad Sci AN Frumkin Inst Phys Chem &
Electrochem Leninsky Prospect 31 Bldg 4 Moscow 119071 Russia;
Russian Acad Sci AN Frumkin Inst Phys Chem &
Electrochem Leninsky Prospect 31 Bldg 4 Moscow 119071 Russia;
Russian Acad Sci AN Frumkin Inst Phys Chem &
Electrochem Leninsky Prospect 31 Bldg 4 Moscow 119071 Russia;
Russian Acad Sci AN Frumkin Inst Phys Chem &
Electrochem Leninsky Prospect 31 Bldg 4 Moscow 119071 Russia;
Russian Acad Sci AN Frumkin Inst Phys Chem &
Electrochem Leninsky Prospect 31 Bldg 4 Moscow 119071 Russia;
Superhydrophobic surfaces; Microbiologically induced corrosion; Biofilm formation; Anti-bacterial surfaces; Biocorrosion; Corrosion inhibition;
机译:生物液体中的超疏水铜:抗菌活性和微生物学诱导或抑制腐蚀
机译:MOD.9CR-1MO铁素体钢上的超疏水涂层,用于提高耐腐蚀性和抗菌活性
机译:在CuZn上制造的光滑的注入液体的多孔表面:防止非生物海水腐蚀和微生物诱发的腐蚀的屏障
机译:贻贝启发的超疏水表面,具有增强的抗菌性能和受微生物影响的双重作用
机译:卷对卷,收缩诱导的超疏水表面,用于抗菌应用,增强的即时检测和血液抗凝
机译:基于实验室的微生物引起的铜腐蚀模型
机译:用于赋予Cu-Ni合金抗菌和腐蚀性质的表面官能化技术,以控制微生物学影响腐蚀