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W4312018833 endingPage "3593" @default.
W4312018833 startingPage "3581" @default.
W4312018833 abstract "ConspectusTwo-dimensional (2D) nanomaterials have attracted increasing research interest since mechanically exfoliated graphene was obtained in 2004. The ultrathin thickness and relatively large lateral size of 2D nanomaterials render them various intriguing properties such as compelling electronic properties, ultrahigh specific surface area, excellent mechanical properties, and so on. A wide range of 2D nanomaterials, including graphene and its derivatives, transition metal dichalcogenides (TMDs), metals, etc., have been prepared with different compositions, structures and (crystal) phases. Simultaneously, extensive research efforts have been devoted to exploring the potential applications of these 2D nanomaterials with enhanced performances. Hybridization of two or more nanomaterials to prepare novel composites could efficiently integrate the advantages of the individual components and thus optimize their performances for specific applications. Among various hybridization approaches, the templated synthesis method, i.e., using a presynthesized nanomaterial as a template to direct the growth of a secondary nanostructure, provides an efficient way to prepare composites with high controllability. The ultrathin thickness, large specific surface area, and versatile physiochemical properties of 2D nanomaterials make them ideal templates for constructing composites with desired structures, properties, and functions. Until now, various 2D nanomaterials have been used as templates to grow different kinds of nanomaterials, including metals, metal oxides, metal chalcogenides, metal-organic frameworks (MOFs), etc., to form 2D nanomaterial-templated composites that show potentials in various applications. In this Account, we first briefly introduce the general research background of 2D nanomaterials and the motivation for the preparation of 2D nanomaterial-templated composites. Then we summarize our progress and some other representative work on 2D nanomaterial-templated composites, with a particular emphasis on graphene-templated composites, 2D TMD-templated composites, and 2D metal-templated composites. Specifically, representative examples of the graphene-templated zero-dimensional (0D), one-dimensional (1D), and 2D composites and the emerging graphene-templated van der Waals heterostructures are described. Subsequently, typical 2D TMD-templated composites such as metal oxides, metals, and metal chalcogenides are also presented. In addition, we introduce 2D metal-templated composites and highlight that the crystal phase of the 2D metal template can play an important role in the controlled synthesis of heterostructures. Other composites constructed using 2D metal oxides, metal hydroxides, metal sulfides, and MOFs as templates are also introduced. After that, we demonstrate the potential applications of 2D nanomaterial-templated composites, including electrocatalysis, electronic devices, batteries, and so on. Finally, after a brief summary, our personal insights on the challenges and future research directions in this emerging field are also proposed." @default.
W4312018833 created "2023-01-03" @default.
W4312018833 creator A5003769749 @default.
W4312018833 creator A5031363665 @default.
W4312018833 creator A5053762044 @default.
W4312018833 creator A5056450584 @default.
W4312018833 date "2022-12-07" @default.
W4312018833 modified "2023-10-15" @default.
W4312018833 title "Two-Dimensional Nanomaterial-Templated Composites" @default.
W4312018833 cites W1950165071 @default.
W4312018833 cites W1963936171 @default.
W4312018833 cites W1982345975 @default.
W4312018833 cites W1984080703 @default.
W4312018833 cites W1988347200 @default.
W4312018833 cites W2000500676 @default.
W4312018833 cites W2008817603 @default.
W4312018833 cites W2011899447 @default.
W4312018833 cites W2014935324 @default.
W4312018833 cites W2021994802 @default.
W4312018833 cites W2025283862 @default.
W4312018833 cites W2025299569 @default.
W4312018833 cites W2026058706 @default.
W4312018833 cites W2043775186 @default.
W4312018833 cites W2044636125 @default.
W4312018833 cites W2047007477 @default.
W4312018833 cites W2051739870 @default.
W4312018833 cites W2058122340 @default.
W4312018833 cites W2059821596 @default.
W4312018833 cites W2066563836 @default.
W4312018833 cites W2069424591 @default.
W4312018833 cites W2078477635 @default.
W4312018833 cites W2088527262 @default.
W4312018833 cites W2089592248 @default.
W4312018833 cites W2095125190 @default.
W4312018833 cites W2099603260 @default.
W4312018833 cites W2099648099 @default.
W4312018833 cites W2100109656 @default.
W4312018833 cites W2100577002 @default.
W4312018833 cites W2100837078 @default.
W4312018833 cites W2105526334 @default.
W4312018833 cites W2105925408 @default.
W4312018833 cites W2108734126 @default.
W4312018833 cites W2115841750 @default.
W4312018833 cites W2122275360 @default.
W4312018833 cites W2125168006 @default.
W4312018833 cites W2131896906 @default.
W4312018833 cites W2140944995 @default.
W4312018833 cites W2142574938 @default.
W4312018833 cites W2145391541 @default.
W4312018833 cites W2146278879 @default.
W4312018833 cites W2160613748 @default.
W4312018833 cites W2167452346 @default.
W4312018833 cites W2214476518 @default.
W4312018833 cites W2237932705 @default.
W4312018833 cites W2262927408 @default.
W4312018833 cites W2294712350 @default.
W4312018833 cites W2323724548 @default.
W4312018833 cites W2330044058 @default.
W4312018833 cites W2330275487 @default.
W4312018833 cites W2340744176 @default.
W4312018833 cites W2498106012 @default.
W4312018833 cites W2511555727 @default.
W4312018833 cites W2519167915 @default.
W4312018833 cites W2552594940 @default.
W4312018833 cites W2557321703 @default.
W4312018833 cites W2560089974 @default.
W4312018833 cites W2583896832 @default.
W4312018833 cites W2597054437 @default.
W4312018833 cites W2620048066 @default.
W4312018833 cites W2621487563 @default.
W4312018833 cites W2744024286 @default.
W4312018833 cites W2768865870 @default.
W4312018833 cites W2782888283 @default.
W4312018833 cites W2794169719 @default.
W4312018833 cites W2796240071 @default.
W4312018833 cites W2809673694 @default.
W4312018833 cites W2811273000 @default.
W4312018833 cites W2885078421 @default.
W4312018833 cites W2898145673 @default.
W4312018833 cites W2902208074 @default.
W4312018833 cites W2947978899 @default.
W4312018833 cites W2953361184 @default.
W4312018833 cites W3002739268 @default.
W4312018833 cites W3007037088 @default.
W4312018833 cites W3011517822 @default.
W4312018833 cites W3014898291 @default.
W4312018833 cites W3016824289 @default.
W4312018833 cites W3021006275 @default.
W4312018833 cites W3036423287 @default.
W4312018833 cites W3046077916 @default.
W4312018833 cites W3047587886 @default.
W4312018833 cites W3088530568 @default.
W4312018833 cites W3105489360 @default.
W4312018833 cites W3106870278 @default.
W4312018833 cites W3122375289 @default.
W4312018833 cites W3135461611 @default.
W4312018833 cites W3148662888 @default.
W4312018833 cites W3152981179 @default.