In recent times, researchers have emphasized practical approaches for capturing
coordinated and selective guest entrap. The physisorbed nanoporous supramolecular …

Nanoporous supramolecular networks physisorbed on solid surfaces have been extensively
used to immobilize a variety of guest molecules. Host–guest chemistry in such two …

Exploring supramolecular architectures at surfaces plays an increasingly important role in
contemporary science, especially for molecular electronics. A paradigm of research interest …

By using an oriented electric field in a scanning tunneling microscope, one can locally
control the condensation of boronic acids at the liquid/solid interface. The phase transition …

By introducing an azobenzene group to the backbone of diboronic acid, we have obtained a
surface‐confined, photoresponsive single‐layer covalent organic framework with long …

Strong electric fields are known to influence the properties of molecules as well as materials.
Here we show that by changing the orientation of an externally applied electric field, one can …

The reversible formation of hydrogen bonds is a ubiquitous mechanism for controlling
molecular assembly in biological systems. However, achieving predictable reversibility in …

Host–guest chemistry in two-dimensional (2D) space, that is, physisorbed monolayers of a
single atom or a single molecular thickness on surfaces, has become a subject of intense …

A two‐dimensional surface covalent organic framework, prepared by a surface‐confined
synthesis using 4, 4′‐azodianiline and benzene‐1, 3, 5‐tricarbaldehyde as the precursors …

We report on the detection and stabilization of a previously unknown two-dimensional (2D)
pseudopolymorph of an alkoxy isophthalic acid using lateral nanoconfinement. The self …