Add to ORKGGlassy carbon is a technologically important material widely used in products such as electrodes and high-temperature crucibles. However, the properties which make glassy carbon so valuable in these applications are poorly understood, since its detailed atomic structure is not known. A model for the structure of glassy carbon put forward many years ago has gained wide acceptance, but appears to suffer from serious shortcomings. In particular, it fails to account for the chemical inertness of the carbon, and for its high proportion of closed porosity. Here I show, using high-resolution transmission electron microscopy, that glassy car-bons obtained from commercial suppliers contain a high proportion of fullerene-related structures. On the ba...
Glassy carbon, in general, is made by the pyrolysis of polymeric materials and has been the subject ...
Transformation of amorphous carbon clusters into fullerenes under high temperature is studied using ...
Although the transformation from fullerene bulk into various functional carbon materials at high tem...
Microporous carbons are important in a wide variety of applications, ranging from pollution control ...
High-resolution electron microscopy is used to study the structure of two typical non-graphitizing c...
In order to accommodate an increasing demand for glassy carbon products with tailored characteristic...
Hard form of carbon obtained by collapsing C60 fullerene molecules at moderate pressure and temperat...
Glass-like carbons represent a wide family of non-graphitizing carbons, which cannot be converted i...
In this article we present the first experimental evidence confirming a global presence of Buckminst...
Summary: New carbon forms that exhibit extraordinary physicochemical properties can be generated fro...
Glassy carbon (GC) is a class of disordered carbon materials that is known to be superelastic and no...
Materials with exceptionally high contents of carbon are used in technologies with various degrees o...
The short range order in amorphous and fullerene-like carbon compounds has been characterized by sel...
Glassy carbon is a graphene-rich form of elemental carbon obtained from pyrolysis of polymers, which...
With the development of our society and modern science, enormous strides have been made in the synth...
Glassy carbon, in general, is made by the pyrolysis of polymeric materials and has been the subject ...
Transformation of amorphous carbon clusters into fullerenes under high temperature is studied using ...
Although the transformation from fullerene bulk into various functional carbon materials at high tem...
Microporous carbons are important in a wide variety of applications, ranging from pollution control ...
High-resolution electron microscopy is used to study the structure of two typical non-graphitizing c...
In order to accommodate an increasing demand for glassy carbon products with tailored characteristic...
Hard form of carbon obtained by collapsing C60 fullerene molecules at moderate pressure and temperat...
Glass-like carbons represent a wide family of non-graphitizing carbons, which cannot be converted i...
In this article we present the first experimental evidence confirming a global presence of Buckminst...
Summary: New carbon forms that exhibit extraordinary physicochemical properties can be generated fro...
Glassy carbon (GC) is a class of disordered carbon materials that is known to be superelastic and no...
Materials with exceptionally high contents of carbon are used in technologies with various degrees o...
The short range order in amorphous and fullerene-like carbon compounds has been characterized by sel...
Glassy carbon is a graphene-rich form of elemental carbon obtained from pyrolysis of polymers, which...
With the development of our society and modern science, enormous strides have been made in the synth...
Glassy carbon, in general, is made by the pyrolysis of polymeric materials and has been the subject ...
Transformation of amorphous carbon clusters into fullerenes under high temperature is studied using ...
Although the transformation from fullerene bulk into various functional carbon materials at high tem...