Add to ORKG© 2020 Elsevier B.V. High-resolution atomic force microscopy (AFM) of biomacromolecules is a valuable method for structural studies in biology. Traditionally, the surfaces used for AFM imaging of individual molecules are limited to mica, graphite, and glass. Because these substrates have certain shortcomings, new or modified surfaces that improve the quality of AFM imaging are highly desirable. Here, we describe an improved substrate for imaging of individual biomacromolecules with high-resolution AFM based on graphite surfaces coated by physical adsorption. We provide a detailed methodology, including the chemical structure, synthesis, characterization and the use of a substance that modifies the surface of freshly cleaved graphite, making...
Understanding the morphologies of molecules and particles has played a key role in understanding key...
Atomic force microscopy (AFM)-based methods have matured into a powerful nanoscopic platform, enabli...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
One of the key innovations in biomolecular science over the past 50 years has been the ability to di...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
Many biologists have dreamt of physically touching and manipulating the biomolecules they were inves...
Atomic force microscopy is an emerging tool for investigating the biomolecular aspects of cellular i...
In the past 25 years the atomic force microscope (AFM) has become a true enabling platform in the li...
Imaging of nano-sized particles and sample features is crucial in a variety of research fields. For ...
Our current understanding of microbial surfaces owes much to the development of electron microscopy ...
Atomic force microscopy (AFM) is a class of high-resolution scanning probe microscopy (SPM) for non-...
International audienceA recurrent interrogation when imaging soft biomolecules using atomic force mi...
The application of atomic force microscopy (AFM) for functional imaging and manipulating biomolecule...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
Progress towards rapid and simple characterization of biomolecular samples by scanning probe microsc...
Understanding the morphologies of molecules and particles has played a key role in understanding key...
Atomic force microscopy (AFM)-based methods have matured into a powerful nanoscopic platform, enabli...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
One of the key innovations in biomolecular science over the past 50 years has been the ability to di...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
Many biologists have dreamt of physically touching and manipulating the biomolecules they were inves...
Atomic force microscopy is an emerging tool for investigating the biomolecular aspects of cellular i...
In the past 25 years the atomic force microscope (AFM) has become a true enabling platform in the li...
Imaging of nano-sized particles and sample features is crucial in a variety of research fields. For ...
Our current understanding of microbial surfaces owes much to the development of electron microscopy ...
Atomic force microscopy (AFM) is a class of high-resolution scanning probe microscopy (SPM) for non-...
International audienceA recurrent interrogation when imaging soft biomolecules using atomic force mi...
The application of atomic force microscopy (AFM) for functional imaging and manipulating biomolecule...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
Progress towards rapid and simple characterization of biomolecular samples by scanning probe microsc...
Understanding the morphologies of molecules and particles has played a key role in understanding key...
Atomic force microscopy (AFM)-based methods have matured into a powerful nanoscopic platform, enabli...
Optical microscopy uses the interactions between light and materials to provide images of the micros...