Meng Gao
Shandong University
20 Papers
72 Citations
Meng Gao is an academic researcher from Shandong University. The author has contributed to research in topics: Chemistry & Electrolyte. The author has an hindex of 5, co-authored 9 publications.
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Papers
Super‐Assembled Hierarchical Cellulose Aerogel‐Gelatin Solid Electrolyte for Implantable and Biodegradable Zinc Ion Battery
Jun-Qi Zhou,Runhao Zhang,Ran Xu,Yong Li,Wei Tian,Meng Gao,Meng Wang,Dongwei Li,Xiu Liang,Lei Xie,Kang Liang,Pu Chen,Biao Kong +12 more
TL;DR: In this paper , an implantable, biodegradable transient zinc ion battery (TZIB) is presented, which assembles a carefully designed cellulose aerogel-gelatin (CAG) solid electrolyte.
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Periodic mesoporous organosilicas for ultra-high selective copper(II) detection and sensing mechanism
TL;DR: In this paper, a bis(rhodamine Schiff-base derivative) bridged precursor with four silyl groups (BRh-Si4) and tetraethoxysilane as the organosilica source was used as a Cu2+ fluorescence-ON chemosensor.
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Controlled synthesis of ZnO modified N-doped porous carbon nanofiber membrane for highly efficient removal of heavy metal ions by capacitive deionization
Yuguo Li,Ran Xu,Li Qiao,Yu Li,Dan Wang,Dongwei Li,Xiu Liang,Guanchen Xu,Meng Gao,Hongyu Gong,Xingshuang Zhang,Hongbo Qiu,Kang Liang,Pu Chen,Yong Li +14 more
TL;DR: In this article , a flexible, self-supporting, zinc oxide-modified N-doped porous carbon nanofiber membrane ([email protected]) was used as a capacitive deionized electrode material.
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Enhanced Fluorescence in Tetraylnitrilomethylidyne–Hexaphenyl Derivative-Functionalized Periodic Mesoporous Organosilicas for Sensitive Detection of Copper(II)
TL;DR: In this paper, a tetraylnitrilomethylidyne-hexaphenyl (TH))-derived tetrasiloxane (TH-Si4) was used as the organosilica precursor.
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Highly sensitive and selective detection of Cu(ii) by periodic mesoporous rhodamine derivative-based organosilicas with crystal-like pore walls
Xiaoyong Qiu,Shuhua Han,Meng Gao +2 more
TL;DR: In this article, a co-condensation of rhodamine Schiff-base derivative-bridged organosilanes and tetraethoxysilane (TEOS) was used to obtain ordered mesoporous hybrid materials with crystal-like pore walls.
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