• No se han encontrado resultados

Nitrogen carbon graphite like semiconductor synthesized from uric acid

N/A
N/A
Protected

Academic year: 2020

Share "Nitrogen carbon graphite like semiconductor synthesized from uric acid"

Copied!
41
0
0

Texto completo

Loading

Figure

Fig. 2.  IR spectra of uric acid (UA) and its pyrolysis products obtained at 450 °C, 550 191
Fig. 5. X-ray diffraction patterns of CN450, CN550, CN600-1, and CN600-2.
Fig.  6.  Thermogravimetric  curves  of  CN450, CN550, CN600-1, and CN600-2.  Inset:
Fig.  7.  UV-visible Kubelka-Munk,  F(R), spectra of CN450, CN550, CN600-1, and 308
+7

Referencias

Documento similar

In this chapter, we investigate the emergence of discrete Landau levels in the band structure of a honeycomb lattice under the effect of a gauge field.. We first comment the basis

To link our INT I-band observations to our INT r-band ob- servations, we obtained a set of r-band out-of-transit frames on July 29, 2010, in order to measure the change in

17,18 Contrary to graphene, the band gap in ML-MDS separating the valence and conduction bands is naturally large and due to the absence of inversion symmetry in ML-MDS the

Band structure of Sb(111) films of various thicknesses. The shaded areas indicate projected bulk band regions. Reproduced with permission.. a) Optical micrograph showing up to

The ground-state band in 32 Mg, in particular the observed change in moment of inertia between the ground state and 6 + state, is well reproduced by large-scale shell-

The background is normalized to the SM expectation; the uncertainty band (shown as a hatched band in the stack plot and a green band in the ratio plot) includes statistical

Calculated energy splittings E(I )-E(I − 2) in MeV in the ground band of 44 Ti as a function of the strength of the (a) isoscalar pairing interaction and of the (b) isovector

In the Supporting Information we include density functional theory calculations of thickness dependent bandgap, density functional theory calculations of the band structure with