Conquering metal–organic frameworks by raman scattering techniques
J Tittel, F Knechtel, E Ploetz - Advanced Functional Materials, 2024 - Wiley Online Library
Metal–organic frameworks (MOFs) have emerged as a versatile class of materials.
Understanding the structural and chemical properties of MOFs is essential for tailoring their …
Understanding the structural and chemical properties of MOFs is essential for tailoring their …
Deep-LASI: deep-learning assisted, single-molecule imaging analysis of multi-color DNA origami structures
Single-molecule experiments have changed the way we explore the physical world, yet data
analysis remains time-consuming and prone to human bias. Here, we introduce Deep-LASI …
analysis remains time-consuming and prone to human bias. Here, we introduce Deep-LASI …
Graphene energy transfer for single‐molecule biophysics, biosensing, and super‐resolution microscopy
Graphene is considered a game‐changing material, especially for its mechanical and
electrical properties. This work exploits that graphene is almost transparent but quenches …
electrical properties. This work exploits that graphene is almost transparent but quenches …
Shrinking gate fluorescence correlation spectroscopy yields equilibrium constants and separates photophysics from structural dynamics
Fluorescence correlation spectroscopy is a versatile tool for studying fast conformational
changes of biomolecules especially when combined with Förster resonance energy transfer …
changes of biomolecules especially when combined with Förster resonance energy transfer …
Understanding forster resonance energy transfer in the sheet regime with DNA brick-based dye networks
Controlling excitonic energy transfer at the molecular level is a key requirement for
transitioning nanophotonics research to viable devices with the main inspiration coming …
transitioning nanophotonics research to viable devices with the main inspiration coming …
Spatial Precision Tailoring the Catalytic Activity of Graphene Monolayers for Designing Janus Swimmers
Graphene monolayers have interesting applications in many fields due to their intrinsic
physicochemical properties, especially when they can be postmodified with high precision …
physicochemical properties, especially when they can be postmodified with high precision …
Interplay of graphene–DNA interactions: Unveiling sensing potential of graphene materials
Graphene-based materials and DNA probes/nanostructures have emerged as building
blocks for constructing powerful biosensors. Graphene-based materials possess exceptional …
blocks for constructing powerful biosensors. Graphene-based materials possess exceptional …
Single-molecule dynamic structural biology with vertically arranged DNA on a fluorescence microscope
The intricate interplay between DNA and proteins is key for biological functions such as DNA
replication, transcription and repair. Dynamic nanoscale observations of DNA structural …
replication, transcription and repair. Dynamic nanoscale observations of DNA structural …
Combining pMINFLUX, graphene energy transfer and DNA-PAINT for nanometer precise 3D super-resolution microscopy
Abstract 3D super-resolution microscopy with nanometric resolution is a key to fully
complement ultrastructural techniques with fluorescence imaging. Here, we achieve 3D …
complement ultrastructural techniques with fluorescence imaging. Here, we achieve 3D …
Simple and portable self-powered sensor using ultrasonically dispersed graphene as an electron transfer promoter for ultra-trace atrazine monitoring
B Du, Z Zhang, G Lu, Y Feng, M Liu - ACS ES&T Water, 2023 - ACS Publications
Atrazine (ATZ) is a typical environmental endocrine disruptor that is persistent, highly
residual, and widely present in various environmental media. Thus, it is of great significance …
residual, and widely present in various environmental media. Thus, it is of great significance …