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机译:用于高效光吸收剂和传感器的3D混合等离子纳米材料
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
Korea Adv Inst Sci & Technol, Dept Chem & Biomol Engn, Taejon 305701, South Korea;
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
Korea Inst Mat Sci, Adv Funct Thin Films Dept, Chang Won 641831, Gyeongnam, South Korea;
hybrid nanomaterials; optical absorbers; plasmonic nanostructures; SERS sensors;
机译:用于高敏化学传感器的分析物浓缩3D杂交等离子体纳米结构
机译:使用含pyr的有机-无机杂化纳米材料检测水中汞(II)离子的高选择性可再生光学传感器
机译:使用高掺杂硅作为等离子体材料的高效宽带太赫兹等离子体吸收器
机译:3D打印仿生纳米材料可实现高效血管化骨发育
机译:通过等离子体参数吸收器光学限制
机译:基于混合表面的可调近乎完美的吸收器和等离子传感器
机译:使用高掺杂si作为等离子体材料的高效宽带太赫兹等离子体吸收器