Add to ORKGAtomic force microscopy (AFM) has a wide range of applications and is rapidly growing in research and development. This powerful technique has been used to visualize surfaces both in liquid or gas media. It has been considered as an effective tool to investigate the surface structure for its ability to generate high-resolution 3D images at a subnanometer range without sample pretreatment. In this paper, the use of AFM to characterize the membrane roughness is presented for commercial and self-prepared membranes for specific applications. Surface roughness has been regarded as one of the most important surface properties, and has significant effect in membrane permeability and fouling behaviour. Several scan areas were used to compare surfac...
Recent studies have shown that membrane surface morphology and structure influence permeability, rej...
Recent studies have shown that membrane surface morphology and structure influence permeability, rej...
© 2016, Pleiades Publishing, Ltd.The surface morphology of polymeric membranes as organic–inorganic ...
roughness. In this study, the possibility of using an atomic force microscopy to analyse the surface...
Membrane surface roughness alters the surface area accessible to foulants and may influence macrosco...
The use of atomic force microscopy (AFM) has been increasingly used in recent years in academic rese...
Determination of the surface roughness by AFM is crucial to the study of particle fouling in nanofil...
The thickness and roughness of the functional layer in thin film composite membranes (TFCMs) are imp...
Surface roughness is a parameter widely reported when characterising membrane surfaces, due to its e...
Atomic Force Microscopy (AFM), a recently developed technique, has proved to be a specially useful t...
Membrane topography of living cells has been considered as an effective parameter that reflects cell...
The membrane distillation (MD) process is an emerging and under-developed technique, which is curren...
International audienceAtomic force microscopy (AFM) was developed in the 1980s following the inventi...
In this chapter we will discuss contributions which can be made to the study and characterization of...
The structural characteristics of polymer track-etched membranes (TM) were obtained by atomic force ...
Recent studies have shown that membrane surface morphology and structure influence permeability, rej...
Recent studies have shown that membrane surface morphology and structure influence permeability, rej...
© 2016, Pleiades Publishing, Ltd.The surface morphology of polymeric membranes as organic–inorganic ...
roughness. In this study, the possibility of using an atomic force microscopy to analyse the surface...
Membrane surface roughness alters the surface area accessible to foulants and may influence macrosco...
The use of atomic force microscopy (AFM) has been increasingly used in recent years in academic rese...
Determination of the surface roughness by AFM is crucial to the study of particle fouling in nanofil...
The thickness and roughness of the functional layer in thin film composite membranes (TFCMs) are imp...
Surface roughness is a parameter widely reported when characterising membrane surfaces, due to its e...
Atomic Force Microscopy (AFM), a recently developed technique, has proved to be a specially useful t...
Membrane topography of living cells has been considered as an effective parameter that reflects cell...
The membrane distillation (MD) process is an emerging and under-developed technique, which is curren...
International audienceAtomic force microscopy (AFM) was developed in the 1980s following the inventi...
In this chapter we will discuss contributions which can be made to the study and characterization of...
The structural characteristics of polymer track-etched membranes (TM) were obtained by atomic force ...
Recent studies have shown that membrane surface morphology and structure influence permeability, rej...
Recent studies have shown that membrane surface morphology and structure influence permeability, rej...
© 2016, Pleiades Publishing, Ltd.The surface morphology of polymeric membranes as organic–inorganic ...