Electron states in boron nitride nanocones

Abstract: We apply first-principles calculations to study the electronic structure of boron nitride nanocones with disclinations of different angles θ = nπ/3. Nanocones with odd values of n present antiphase boundaries that cause a reduction of the work function of the nanocones, relative to the bulk BN value, by as much as 2 eV. In contrast, nanocones with even values of n do not have such defects and present work functions that are very similar to the BN bulk value. These results should have strong consequences for th… Show more

“…Although not very realistic, this model is very useful to show the appearance of global phenomena, related to topology rather than to local geometry induced by the defect. In recent years, these defects particularly disclinations, have attracted a substantial interest on nanostructures 7–9.…”

Influence of the electric field on a particle in a space with a disclination

“…Although not very realistic, this model is very useful to show the appearance of global phenomena, related to topology rather than to local geometry induced by the defect. In recent years, these defects particularly disclinations, have attracted a substantial interest on nanostructures 7–9.…”

Influence of the electric field on a particle in a space with a disclination

“…Work done with SIESTA has spanned many aspects of nanotube science: vibrational properties [239][240][241], electronic states [242][243][244][245][246] (including the effect of lattice distortions on the electronic states [247][248][249][250]), elastic and plastic properties [251][252][253][254], and interaction with other atomic and molecular species [255][256][257][258][259]. Boron nitride nanotubes have also received some attention [260,261].…”

Computing the Properties of Materials from First Principles with SIESTA

“…[6][7][8] However, to date, the obtained nanocones are still restricted to a very few members such as carbon, nitride, metal and the oxide systems due to the difficulty in preparation. [9][10][11][12][13][14][15][16][17][18][19][20][21] Traditionally, these cone-like structures are prepared by chemical vapor deposition (CVD), photolithography or electron beam (e-beam) lithography. However, these methods are quite time consuming and expensive.…”

Controlled Synthesis of CdClOH Sub‐nanocones by Low‐temperature Solution Process and Their Transformation into CdS Hollow Sub‐nanocones