[HTML][HTML] Polymer bioconjugates: Modern design concepts toward precision hybrid materials
The conjugation of synthetic polymers with various biomolecules provides an easy access to
biohybrid materials which combine advantages from both the synthetic world and Nature …
biohybrid materials which combine advantages from both the synthetic world and Nature …
Hydrophobic interaction: a promising driving force for the biomedical applications of nucleic acids
The comprehensive understanding and proper use of supramolecular interactions have
become critical for the development of functional materials, and so is the biomedical …
become critical for the development of functional materials, and so is the biomedical …
Self-assembled extended π-systems for sensing and security applications
VK Praveen, B Vedhanarayanan, A Mal… - Accounts of Chemical …, 2020 - ACS Publications
Conspectus Molecules and materials derived from self-assembled extended π-systems
have strong and reversible optical properties, which can be modulated with external stimuli …
have strong and reversible optical properties, which can be modulated with external stimuli …
Hierarchical nanomaterials via biomolecular self-assembly and bioinspiration for energy and environmental applications
Bioinspired synthesis offers potential green strategies to build highly complex nanomaterials
by utilizing the unique nanostructures, functions, and properties of biomolecules, in which …
by utilizing the unique nanostructures, functions, and properties of biomolecules, in which …
Peptide-directed assembly of single-helical gold nanoparticle superstructures exhibiting intense chiroptical activity
Chiral nanoparticle assemblies are an interesting class of materials whose chiroptical
properties make them attractive for a variety of applications. Here, C18-(PEPAuM-ox) 2 …
properties make them attractive for a variety of applications. Here, C18-(PEPAuM-ox) 2 …
DNA nanostructures and DNA‐functionalized nanoparticles for cancer theranostics
In the last two decades, DNA has attracted significant attention toward the development of
materials at the nanoscale for emerging applications due to the unparalleled versatility and …
materials at the nanoscale for emerging applications due to the unparalleled versatility and …
Enantioselective light harvesting with perylenediimide guests on self‐assembled chiral naphthalenediimide nanofibers
Self‐assembling molecular systems often display amplified chirality compared to the
monomeric state, which makes the molecular recognition more sensitive to chiral analytes …
monomeric state, which makes the molecular recognition more sensitive to chiral analytes …
[HTML][HTML] DNA-inspired oligomers: from oligophosphates to functional materials
M Vybornyi, Y Vyborna, R Häner - Chemical Society Reviews, 2019 - pubs.rsc.org
To exert its role of a functional polymer, DNA relies on a molecular self-assembly process
that is driven by the interactions of only four units placed in a defined order. Extending the …
that is driven by the interactions of only four units placed in a defined order. Extending the …
Impact of positional isomerism on pathway complexity in aqueous media
I Helmers, B Shen, KK Kartha… - Angewandte Chemie …, 2020 - Wiley Online Library
Pathway complexity has become an important topic in recent years due to its relevance in
the optimization of molecular assembly processes, which typically require precise sample …
the optimization of molecular assembly processes, which typically require precise sample …
Two‐dimensional supramolecular polymerization of DNA amphiphiles is driven by sequence‐dependent DNA‐chromophore interactions
M Ghufran Rafique, JM Remington… - Angewandte Chemie …, 2023 - Wiley Online Library
Abstract Two‐dimensional (2D) assemblies of water‐soluble block copolymers have been
limited by a dearth of systematic studies that relate polymer structure to pathway mechanism …
limited by a dearth of systematic studies that relate polymer structure to pathway mechanism …