S
Suchismita Saha
Researcher at University of Siegen
Publications - 12
Citations - 295
Suchismita Saha is an academic researcher from University of Siegen. The author has contributed to research in topics: Supramolecular chemistry & Hydrogen bond. The author has an hindex of 7, co-authored 12 publications receiving 193 citations. Previous affiliations of Suchismita Saha include Folkwang University of the Arts.
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Journal ArticleDOI
(Nano)mechanical Motion Triggered by Metal Coordination: from Functional Devices to Networked Multicomponent Catalytic Machinery
TL;DR: Metal coordination has a manifold of rewards, putting it primo loco in opportunities for putting nanomechanical systems into action, and its strength and dynamics can be properly modulated and fine-tuned by the choice of metal, redox state, and ligand.
Journal ArticleDOI
Rotating Catalysts Are Superior: Suppressing Product Inhibition by Anchimeric Assistance in Four-Component Catalytic Machinery.
TL;DR: Three distinct four-component supramolecular nanorotors, prepared by varying the rotator's structure and keeping all other components constant, exhibit rotational frequencies that differ by almost 2 orders of magnitude, demonstrating the ability of the rotating catalysts to displace the product more efficiently from the active site at higher speed.
Journal ArticleDOI
Influence of Rotator Design on the Speed of Self-Assembled Four-Component Nanorotors: Coordinative Versus Dispersive Interactions
TL;DR: Density functional theory computational results suggest that not only coordinative Npy → [Cu(phen)]+ interactions but also dispersive attraction influence the barrier of rotation.
Journal ArticleDOI
Reversible Multicomponent AND Gate Triggered by Stoichiometric Chemical Pulses Commands the Self-Assembly and Actuation of Catalytic Machinery.
TL;DR: The present work demonstrates the operation of a reversible supramolecular gate, i.e., an ensemble of various components linked by chemical communication, which is triggered by stoichiometric chemical inputs and by obeying the AND truth table delivers a stoichiomet chemical signal.
Book ChapterDOI
From Self-Sorting of Dynamic Metal–Ligand Motifs to (Supra)Molecular Machinery in Action
TL;DR: In this article, the utility of properly designed metal-ligand-binding motifs to furnish self-sorted mononuclear heteroleptic complexes, their sophisticated use in multicomponent supramolecular assemblies and devices and finally even the cutting-edge self sorting of multidevice machinery in action is described.