Add to ORKGCarbon is a versatile element forming a wide variety of allotropic forms and nanostructures, in which sp-, sp2-, and sp3-hybridization give rise to linear, planar and three-dimensional systems. In addition, other more exotic and low dimensional phases have been found and produced, including quasi-zero- and quasi-one-dimensional systems as fullerenes, carbon clusters, nanodiamonds, nanotubes, and truly 2D materials like graphene and related systems, whose peculiar properties are of great interest in the fields of physics, chemistry, nanoscience, and nanotechnology, materials science and engineering. Here, we focus on linear carbon structures as functional building blocks for novel sp-sp2 hybrid carbon structures, including 2D crystal...
Carbon materials with full sp2-hybridized bonding, e.g. zero-dimensional (0D) fullerenes, 1D carbon ...
The structural transformation of various carbon nanomaterials, such as fullerene, carbon nanotube (C...
<p>The invention of carbon and its allotropes have transformed the electronic and optoelectronic ind...
Carbon is a versatile element forming a wide variety of allotropic forms and nanostructures, in whi...
Besides graphite and diamond, the solid allotropes of carbon in sp2 and sp3 hybridization, the possi...
This review provides a discussion of the current state of research on linear carbon structures and r...
It’s been more than 40 years since research on the possible existence of the third allotropic form o...
Linear strings of sp(1)-hybridized carbon atoms are considered as a possible phase of carbon since d...
International audienceThe hybridizations of the carbon atom are textbook examples for different type...
Carbon is a unique and very versatile element which is capable of forming different architectures at...
The role of carbon-based devices in post-silicon nanoelectronics is gaining a rapidly increasing imp...
Carbon is found in nature in a huge variety of allotropic forms and recent research in materials sci...
Carbon materials are distinguished by their unusual variety of structures. They allow the realizatio...
Carbon nanostructures, or nanocarbons (CNSs), i.e. the low-dimensional nanomaterials that comprise 0...
The element carbon possesses various stable and metastable allotropes; some of them have been applie...
Carbon materials with full sp2-hybridized bonding, e.g. zero-dimensional (0D) fullerenes, 1D carbon ...
The structural transformation of various carbon nanomaterials, such as fullerene, carbon nanotube (C...
<p>The invention of carbon and its allotropes have transformed the electronic and optoelectronic ind...
Carbon is a versatile element forming a wide variety of allotropic forms and nanostructures, in whi...
Besides graphite and diamond, the solid allotropes of carbon in sp2 and sp3 hybridization, the possi...
This review provides a discussion of the current state of research on linear carbon structures and r...
It’s been more than 40 years since research on the possible existence of the third allotropic form o...
Linear strings of sp(1)-hybridized carbon atoms are considered as a possible phase of carbon since d...
International audienceThe hybridizations of the carbon atom are textbook examples for different type...
Carbon is a unique and very versatile element which is capable of forming different architectures at...
The role of carbon-based devices in post-silicon nanoelectronics is gaining a rapidly increasing imp...
Carbon is found in nature in a huge variety of allotropic forms and recent research in materials sci...
Carbon materials are distinguished by their unusual variety of structures. They allow the realizatio...
Carbon nanostructures, or nanocarbons (CNSs), i.e. the low-dimensional nanomaterials that comprise 0...
The element carbon possesses various stable and metastable allotropes; some of them have been applie...
Carbon materials with full sp2-hybridized bonding, e.g. zero-dimensional (0D) fullerenes, 1D carbon ...
The structural transformation of various carbon nanomaterials, such as fullerene, carbon nanotube (C...
<p>The invention of carbon and its allotropes have transformed the electronic and optoelectronic ind...