Self-assembly of metal–organic coordination structures on surfaces
L Dong, ZA Gao, N Lin - Progress in Surface Science, 2016 - Elsevier
Metal–organic coordination structures are materials comprising reticular metal centers and
organic linkers in which the two constituents bind with each other via metal–ligand …
organic linkers in which the two constituents bind with each other via metal–ligand …
Engineering quantum states and electronic landscapes through surface molecular nanoarchitectures
Surfaces are at the frontier of every known solid. They provide versatile supports for
functional nanostructures and mediate essential physicochemical processes. Intimately …
functional nanostructures and mediate essential physicochemical processes. Intimately …
On-Surface Self-Assembly Kinetic Study of Cu-Hexaazatriphenylene 2D Conjugated Metal–Organic Frameworks on Coinage Metals and MoS2 Substrates
Supramolecular coordination self-assembly on solid surfaces provides an effective route to
form two-dimensional (2D) metal–organic frameworks (MOFs). In such processes, surface …
form two-dimensional (2D) metal–organic frameworks (MOFs). In such processes, surface …
Screening two-dimensional materials with topological flat bands
The topological flat band (TFB) has been proposed theoretically in various lattice models, to
exhibit a rich spectrum of intriguing physical behaviors. However, the experimental …
exhibit a rich spectrum of intriguing physical behaviors. However, the experimental …
First-principles design of a half-filled flat band of the kagome lattice in two-dimensional metal-organic frameworks
We design from first principles a type of two-dimensional metal-organic framework (MOF)
using phenalenyl-based ligands to exhibit a half-filled flat band of the kagome lattice, which …
using phenalenyl-based ligands to exhibit a half-filled flat band of the kagome lattice, which …
Two-Dimensional Metal–Organic Framework on Superconducting NbSe2
The combination of two-dimensional (2D) materials into vertical heterostructures has
emerged as a promising path to designer quantum materials with exotic properties. Here, we …
emerged as a promising path to designer quantum materials with exotic properties. Here, we …
Floquet engineering of topological states in realistic quantum materials via light-matter interactions
Electronic states in quantum materials can be engineered by light irradiation, which is
greatly advanced by ab-initio computational predictions in realistic light-matter coupled …
greatly advanced by ab-initio computational predictions in realistic light-matter coupled …
Synthesis and local probe gating of a monolayer metal‐organic framework
Achieving large‐area uniform 2D metal‐organic frameworks (MOFs) and controlling their
electronic properties on inert surfaces is a big step toward future applications in electronic …
electronic properties on inert surfaces is a big step toward future applications in electronic …
Spin-polarized Dirac cones and topological nontriviality in a metal–organic framework Ni 2 C 24 S 6 H 12
Dirac cones in the band structure make a great contribution to the unique electronic
properties of graphene. But the spin-degeneracy of Dirac cones limits the application of …
properties of graphene. But the spin-degeneracy of Dirac cones limits the application of …
[HTML][HTML] Prediction of large gap flat Chern band in a two-dimensional metal-organic framework
Systems with a flat Chern band have been extensively studied for their potential to realize
high-temperature fractional quantum Hall states. To experimentally observe the quantum …
high-temperature fractional quantum Hall states. To experimentally observe the quantum …