Controlling the growth of multiple ordered heteromolecular phases by utilizing intermolecular repulsion

Henneke, Caroline; Felter, Janina; Schwarz, Daniel; Tautz, F. Stefan; Kumpf, Christian

doi:10.1038/nmat4858

Cited by 25 publications

(31 citation statements)

References 56 publications

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“…Rational design and controllable fabrication of multilevel nanoarchitecture materials have long been considered as a research hot spot in the evolution of nanoscience and nanotechnology. − As a fascinating category of nanoarchitecture materials, hollow nanostructures have always gained a lot of attention due to their attractive properties such as large void volume, low density, and high surface-to-volume ratio, which endow them with various potential applications in solar cell, drug delivery, energy storage/conversion, and catalysis. − In particular, extensive efforts have been devoted to the construction of hollow nanomaterials with multiple shells to imbue the structure with increased large surface areas, multiphase heterogeneous interfaces, improved mass diffusion properties, excellent loading capacity, and thus, more elaborate functionalities. − Furthermore, these multishell hollow systems can also take advantage of the synergistic effects deriving from the interaction of different layers to modify their characteristics for a specific application and the confined environment to improve the mechanical and hydrothermal stability.…”

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confidence: 99%

Multishell Hollow Metal/Nitrogen/Carbon Dodecahedrons with Precisely Controlled Architectures and Synergistically Enhanced Catalytic Properties

et al. 2019

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Multishell hollow nanoarchitectures are one of the most important branches in the nanomaterial field due to their enormous potential in many fields, but synthesizing them in a well-controlled manner remains challenging. Herein, we present a general strategy for the construction of multishell hollow metal/nitrogen/carbon dodecahedrons (metal@NC) with well-defined and precisely controlled architectures. This strategy is based on the pyrolysis of multilayer solid ZIFs prepared by a step-by-step crystal growth approach, which enables precise control over the shell number and composition of the resultant hollow metal@NC. Impressively, our strategy can be further extended to the synthesis of yolk@multishell hollow structures or multishell hollow structures that are assembled by carbon nanotubes. The multishell hollow structures can efficiently facilitate the mass diffusion, which together with the high dispersity and increased surface area are responsible for their significantly enhanced catalytic performances for the selective hydrogenation of biomass-derived furfural to cyclopentanol when compared with their solid and single-shell counterparts. We anticipate that our general strategy would shed light on the rational design and accurate construction of other complex multishell hollow materials for various important yet challenging applications.

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confidence: 99%

Multishell Hollow Metal/Nitrogen/Carbon Dodecahedrons with Precisely Controlled Architectures and Synergistically Enhanced Catalytic Properties

et al. 2019

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“…Often bimolecular layers form ordered structures due to molecule–molecule interaction by H-bonds, dipole–dipole interaction or metal coordination. − In Figure , it seems that molecules of the same type (CoPc or HBC) tend to form domains, but also, a large number of single molecules and irregular spaces between the molecules (dark areas) are visible. Consequently, we could not identify a preferred ordering as discussed for CoPc and HBC MLs on Au(111) (cf.…”

Section: Resultsmentioning

confidence: 99%

Interface Properties of CoPc on Nanographene-Covered Au(111) and the Influence of Annealing

et al. 2021

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Organic bilayer systems and heterostructures are of enormous importance for optoelectronic devices. We study interface properties and the structural ordering of cobalt phthalocyanine (CoPc) on a highly ordered monolayer hexa-peri-hexabenzocoronene (HBC), grown on Au(111), using photoemission, X-ray absorption, scanning tunneling microscopy, and low-energy electron diffraction. A charge transfer between CoPc and the gold substrate is almost completely prevented by the HBC intermediate layer. We show that HBC acts as a template for the initial growth of CoPc molecules. After annealing to 630 K, a molecular exchange takes place, resulting in a coexistence of domains of both CoPc and HBC molecules on the surface.

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“…With more elaborate versions such as LEED I-V, mentioned above, and spot-profile analysis LEED (SPA-LEED) a precise description of the adsorbate unit cell can be achieved 323 . Finally, low-energy electron microscopy (LEEM) provides in particular real-time information of the in-plane arrangement and morphology during growth 156,324,325 .…”

Section: Complementary Techniquesmentioning

confidence: 99%

“…Most studies in the area are dealing with bimolecular mixed layers 71,175,325,576 , whereas only a few studies focus on bilayers 118,383,577-579 . For both types of heterostructures CuPc and PTCDA on Ag(111) have become popular 71,325,345,383,[578][579][580][581][582] . Figure 25a shows the experimentally determined adsorption geometries of PTCDA and CuPc in their respective monolayers on Ag(111) and in the bimolecular mixed layer 71 .…”

Section: F Heterostructuresmentioning

confidence: 99%

Binding and Electronic Level Alignment of $\boldsymbolπ$-Conjugated Systems on Metals

Franco-Cañellas,

Duhm,

Gerlach

et al. 2020

Preprint

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We review the binding and energy level alignment of π-conjugated systems on metals, a field which during the last two decades has seen tremendous progress both in terms of experimental characterization as well as in the depth of theoretical understanding. Precise measurements of vertical adsorption distances and the electronic structure together with ab-initio calculations have shown that most of the molecular systems have to be considered as intermediate cases between weak physisorption and strong chemisorption. In this regime, the subtle interplay of different effects such as covalent bonding, charge transfer, electrostatic and van der Waals interactions yields a complex situation with different adsorption mechanisms. In order to establish a better understanding of the binding and the electronic level alignment of π-conjugated molecules on metals, we provide an up-to-date overview of the literature, explain the fundamental concepts as well as the experimental techniques and discuss typical case studies. Thereby, we relate the geometric with the electronic structure in a consistent picture and cover the entire range from weak to strong coupling.

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Controlling the growth of multiple ordered heteromolecular phases by utilizing intermolecular repulsion

Cited by 25 publications

References 56 publications

Multishell Hollow Metal/Nitrogen/Carbon Dodecahedrons with Precisely Controlled Architectures and Synergistically Enhanced Catalytic Properties

Multishell Hollow Metal/Nitrogen/Carbon Dodecahedrons with Precisely Controlled Architectures and Synergistically Enhanced Catalytic Properties

Interface Properties of CoPc on Nanographene-Covered Au(111) and the Influence of Annealing

Binding and Electronic Level Alignment of $\boldsymbolπ$-Conjugated Systems on Metals

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