Atomic force microscopy (AFM) provides a platform for high-resolution topographical imaging and the mechanical characterization of a wide range of samples, including live cells, proteins, and other biomolecules. AFM is also instrumental for measuring interaction forces and binding kinetics for protein–protein or receptor–ligand interactions on live cells at a single-molecule level. However, performing force measurements and high-resolution imaging with AFM and data analytics are time-consuming and require special skill sets and continuous human supervision. Recently, researchers have explored the applications of artificial intelligence (AI) and deep learning (DL) in the bioimaging field. However, the applications of AI to AFM operations for...
As a novel effective label-free biomarker, the mechanical properties of cells have become increasing...
The nanoscale surface analysis of microbial cells represents a significant challenge of current micr...
As a novel effective label-free biomarker, the mechanical properties of cells have become increasing...
International audienceAtomic Force Microscopy is now widely used to explore biological questions1....
International audienceNanomechanical properties of cells could be considered as cellular biomarkers....
Scanning probe microscopies allow investigating surfaces at the nanoscale, in real space and with un...
Atomic Force Microscopy (AFM) has the unique capability of probing the nanoscale mechanical properti...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
Thesis (Ph.D.)--Boston UniversityThe atomic force microscope (AFM) has a unique set of capabilities ...
in bionanotechnology Atomic force microscopy is extensively used for imaging surfaces ranging from m...
International audienceThe method presented in this paper aims to automate Bio-AFM experiments and th...
This book presents methodological and application research in detecting cellular and molecular bioph...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
High speed atomic force microscopy (HS-AFM) is, in principle, capable of yielding nanometer level de...
© Springer Nature Singapore Pte Ltd. 2018Molecular recognition at the single-cell level is an increa...
As a novel effective label-free biomarker, the mechanical properties of cells have become increasing...
The nanoscale surface analysis of microbial cells represents a significant challenge of current micr...
As a novel effective label-free biomarker, the mechanical properties of cells have become increasing...
International audienceAtomic Force Microscopy is now widely used to explore biological questions1....
International audienceNanomechanical properties of cells could be considered as cellular biomarkers....
Scanning probe microscopies allow investigating surfaces at the nanoscale, in real space and with un...
Atomic Force Microscopy (AFM) has the unique capability of probing the nanoscale mechanical properti...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
Thesis (Ph.D.)--Boston UniversityThe atomic force microscope (AFM) has a unique set of capabilities ...
in bionanotechnology Atomic force microscopy is extensively used for imaging surfaces ranging from m...
International audienceThe method presented in this paper aims to automate Bio-AFM experiments and th...
This book presents methodological and application research in detecting cellular and molecular bioph...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
High speed atomic force microscopy (HS-AFM) is, in principle, capable of yielding nanometer level de...
© Springer Nature Singapore Pte Ltd. 2018Molecular recognition at the single-cell level is an increa...
As a novel effective label-free biomarker, the mechanical properties of cells have become increasing...
The nanoscale surface analysis of microbial cells represents a significant challenge of current micr...
As a novel effective label-free biomarker, the mechanical properties of cells have become increasing...