Hydrogen adsorption study. Formation of quantum dots on graphene nanoribbons within tight-binding approach

Kvashnin A.G., Kvashnina O.P., Kvashnin D.G.
Тип документаJournal Article
Дата публикации2015-04-02
Название журналаNanotechnology
ИздательInstitute of Physics Publishing
Квартиль по SCImagoQ1
Квартиль по Web of ScienceQ2
Импакт-фактор 20213.95
ISSN09574484, 13616528
General Chemistry
General Materials Science
Electrical and Electronic Engineering
Mechanical Engineering
Mechanics of Materials
Краткое описание
Based on the tight-binding model, we investigate the formation process of quantum dots onto graphene nanoribbons (GNRs) by the sequential adsorption of hydrogen atoms onto the ribbon's surface. We define the difference between hydrogenation processes onto the surface of zigzag (ZGNR) and armchair graphene nanoribbons (AGNR) by calculating the binding energies with respect to the energy of isolated hydrogen atoms for all considered structures.
Пристатейные ссылки: 14
Цитируется в публикациях: 1
Molecular bandgap engineering of bottom-up synthesized graphene nanoribbon heterojunctions
Chen Y., Cao T., Chen C., Pedramrazi Z., Haberer D., de Oteyza D.G., Fischer F.R., Louie S.G., Crommie M.F.
Q1 Nature Nanotechnology 2015 цитирований: 333
Fluorescent graphene quantum dots with a boronic acid appended bipyridinium salt to sense monosaccharides in aqueous solution
Li Y., Zhang L., Huang J., Liang R., Qiu J.
Q1 Chemical Communications 2013 цитирований: 93
A roadmap for graphene
Novoselov K.S., Fal′ko V.I., Colombo L., Gellert P.R., Schwab M.G., Kim K.
Q1 Nature 2012 цитирований: 6271
Covalent networks through on-surface chemistry in ultra-high vacuum: state-of-the-art and recent developments
Franc G., Gourdon A.
Q1 Physical Chemistry Chemical Physics 2011 цитирований: 159
Oxygen Surface Functionalization of Graphene Nanoribbons for Transport Gap Engineering
Cresti A., Lopez-Bezanilla A., Ordejón P., Roche S.
Q1 ACS Nano 2011 цитирований: 22
Coulomb gap in graphene nanoribbons
Dröscher S., Knowles H., Meir Y., Ensslin K., Ihn T.
Q1 Physical Review B 2011 цитирований: 35
Luminscent Graphene Quantum Dots for Organic Photovoltaic Devices
Gupta V., Chaudhary N., Srivastava R., Sharma G.D., Bhardwaj R., Chand S.
Q1 Journal of the American Chemical Society 2011 цитирований: 777
Enhanced stability of hydrogen atoms at the graphene/graphane interface of nanoribbons
Ao Z.M., Hernández-Nieves A.D., Peeters F.M., Li S.
Q1 Applied Physics Letters 2010 цитирований: 43
Graphene nanoribbon band-gap expansion: Broken-bond-induced edge strain and quantum entrapment
Zhang X., Kuo J., Gu M., Bai P., Sun C.Q.
Q1 Nanoscale 2010 цитирований: 36
Disorder-induced gap behavior in graphene nanoribbons
Gallagher P., Todd K., Goldhaber-Gordon D.
Q1 Physical Review B 2010 цитирований: 165
Quantum Dot Solar Cells. Semiconductor Nanocrystals as Light Harvesters
Kamat P.V.
Q1 Journal of Physical Chemistry C 2008 цитирований: 2116
Hydrogen storage by spillover on graphene as a phase nucleation process
Lin Y., Ding F., Yakobson B.I.
Q1 Physical Review B 2008 цитирований: 141
Energy Gaps in Graphene Nanoribbons
Son Y., Cohen M.L., Louie S.G.
Q1 Physical Review Letters 2006 цитирований: 3796
Open Access
Open access
Two-dimensional atomic crystals
Novoselov K.S., Jiang D., Schedin F., Booth T.J., Khotkevich V.V., Morozov S.V., Geim A.K.
Q1 Proceedings of the National Academy of Sciences of the United States of America 2005 цитирований: 8395
Open Access
Open access
1. Kvashnin A.G., Kvashnina O.P., Kvashnin D.G. Hydrogen adsorption study. Formation of quantum dots on graphene nanoribbons within tight-binding approach // Nanotechnology. 2015. Т. 26. № 17. С. 175704.


DO - 10.1088/0957-4484/26/17/175704

UR - http://dx.doi.org/10.1088/0957-4484/26/17/175704

TI - Hydrogen adsorption study. Formation of quantum dots on graphene nanoribbons within tight-binding approach

T2 - Nanotechnology

AU - Kvashnin, Alexander G

AU - Kvashnina, Olga P

AU - Kvashnin, Dmitry G

PY - 2015

DA - 2015/04/02

PB - IOP Publishing

SP - 175704

IS - 17

VL - 26

SN - 0957-4484

SN - 1361-6528

ER -

BibTex |


doi = {10.1088/0957-4484/26/17/175704},

url = {https://doi.org/10.1088%2F0957-4484%2F26%2F17%2F175704},

year = 2015,

month = {apr},

publisher = {{IOP} Publishing},

volume = {26},

number = {17},

pages = {175704},

author = {Alexander G Kvashnin and Olga P Kvashnina and Dmitry G Kvashnin},

title = {Hydrogen adsorption study. Formation of quantum dots on graphene nanoribbons within tight-binding approach},

journal = {Nanotechnology}


Kvashnin, Alexander G, Olga P Kvashnina, and Dmitry G Kvashnin. “Hydrogen Adsorption Study. Formation of Quantum Dots on Graphene Nanoribbons Within Tight-Binding Approach.” Nanotechnology 26.17 (2015): 175704. Crossref. Web.