Strain Engineering for Phosphorene: The Potential Application as a Photocatalyst
Publication type: Journal Article
Publication date: 2014-11-07
scimago Q1
wos Q3
SJR: 0.914
CiteScore: 6.2
Impact factor: 3.2
ISSN: 19327447, 19327455
Surfaces, Coatings and Films
Electronic, Optical and Magnetic Materials
Physical and Theoretical Chemistry
General Energy
Abstract
Phosphorene has been attracted intense interest due to its unexpected high carrier mobility and distinguished anisotropic optoelectronic and electronic properties. In this work, we unraveled strain engineered phosphorene as a photocatalyst in the application of water splitting hydrogen production based on density functional theory calculations. Lattice dynamic calculations demonstrated the stability for such kind of artificial materials under different strains. The phosphorene lattice is unstable under compression strains and could be crashed. Whereas, phosphorene lattice shows very good stability under tensile strains. Further guarantee of the stability of phosphorene in liquid water is studied by ab initio molecular dynamics simulations. Tunable band gap from 1.54 eV at ambient condition to 1.82 eV under tensile strains for phosphorene is evaluated using parameter-free hybrid functional calculations. Appropriate band gaps and band edge alignments at certain pH demonstrate the potential application of phosphorene as a sufficiently efficient photocatalyst for visible light water splitting. We found that the strained phosphorene exhibits significantly improved photocatalytic properties under visible-light irradiation by calculating optical absorption spectra. Negative splitting energy of absorbed H2O indicates the water splitting on phosphorene is energy favorable both without and with strains.
Found
Nothing found, try to update filter.
Found
Nothing found, try to update filter.
Top-30
Journals
|
5
10
15
20
25
|
|
|
Journal of Physical Chemistry C
23 publications, 5.78%
|
|
|
Physical Chemistry Chemical Physics
23 publications, 5.78%
|
|
|
Journal of Materials Chemistry A
23 publications, 5.78%
|
|
|
Applied Surface Science
15 publications, 3.77%
|
|
|
Physical Review B
11 publications, 2.76%
|
|
|
RSC Advances
10 publications, 2.51%
|
|
|
International Journal of Hydrogen Energy
10 publications, 2.51%
|
|
|
Physica E: Low-Dimensional Systems and Nanostructures
9 publications, 2.26%
|
|
|
Journal of Physics Condensed Matter
9 publications, 2.26%
|
|
|
Nanoscale
9 publications, 2.26%
|
|
|
Computational Materials Science
8 publications, 2.01%
|
|
|
Journal of Physical Chemistry Letters
8 publications, 2.01%
|
|
|
Journal of Applied Physics
6 publications, 1.51%
|
|
|
Scientific Reports
6 publications, 1.51%
|
|
|
Nanotechnology
6 publications, 1.51%
|
|
|
ACS applied materials & interfaces
6 publications, 1.51%
|
|
|
Journal of Materials Chemistry C
6 publications, 1.51%
|
|
|
Advanced Materials
5 publications, 1.26%
|
|
|
Superlattices and Microstructures
4 publications, 1.01%
|
|
|
Small Methods
4 publications, 1.01%
|
|
|
ACS Omega
4 publications, 1.01%
|
|
|
Journal of Materials Science
3 publications, 0.75%
|
|
|
2D Materials
3 publications, 0.75%
|
|
|
Journal Physics D: Applied Physics
3 publications, 0.75%
|
|
|
Physics Letters, Section A: General, Atomic and Solid State Physics
3 publications, 0.75%
|
|
|
Applied Catalysis B: Environmental
3 publications, 0.75%
|
|
|
Materials Today Communications
3 publications, 0.75%
|
|
|
Chemical Physics Letters
3 publications, 0.75%
|
|
|
Angewandte Chemie
3 publications, 0.75%
|
|
|
5
10
15
20
25
|
Publishers
|
20
40
60
80
100
120
|
|
|
Elsevier
108 publications, 27.14%
|
|
|
Royal Society of Chemistry (RSC)
84 publications, 21.11%
|
|
|
American Chemical Society (ACS)
56 publications, 14.07%
|
|
|
Wiley
42 publications, 10.55%
|
|
|
IOP Publishing
29 publications, 7.29%
|
|
|
Springer Nature
27 publications, 6.78%
|
|
|
American Physical Society (APS)
14 publications, 3.52%
|
|
|
MDPI
12 publications, 3.02%
|
|
|
AIP Publishing
11 publications, 2.76%
|
|
|
Taylor & Francis
3 publications, 0.75%
|
|
|
The Electrochemical Society
2 publications, 0.5%
|
|
|
World Scientific
1 publication, 0.25%
|
|
|
Physical Society of Japan
1 publication, 0.25%
|
|
|
Tsinghua University Press
1 publication, 0.25%
|
|
|
Japan Society of Applied Physics
1 publication, 0.25%
|
|
|
Korean Society of Industrial Engineering Chemistry
1 publication, 0.25%
|
|
|
Pleiades Publishing
1 publication, 0.25%
|
|
|
Walter de Gruyter
1 publication, 0.25%
|
|
|
Hindawi Limited
1 publication, 0.25%
|
|
|
Institute of Electrical and Electronics Engineers (IEEE)
1 publication, 0.25%
|
|
|
Autonomous Non-profit Organization Editorial Board of the journal Uspekhi Khimii
1 publication, 0.25%
|
|
|
20
40
60
80
100
120
|
- We do not take into account publications without a DOI.
- Statistics recalculated weekly.
Are you a researcher?
Create a profile to get free access to personal recommendations for colleagues and new articles.
Metrics
398
Total citations:
398
Citations from 2025:
13
(3.27%)
Cite this
GOST |
RIS |
BibTex |
MLA
Cite this
GOST
Copy
Sa B. et al. Strain Engineering for Phosphorene: The Potential Application as a Photocatalyst // Journal of Physical Chemistry C. 2014. Vol. 118. No. 46. pp. 26560-26568.
GOST all authors (up to 50)
Copy
Sa B., Li Y., Jingshan Qi J. Q., Ahuja R., Sun Z. Strain Engineering for Phosphorene: The Potential Application as a Photocatalyst // Journal of Physical Chemistry C. 2014. Vol. 118. No. 46. pp. 26560-26568.
Cite this
RIS
Copy
TY - JOUR
DO - 10.1021/jp508618t
UR - https://doi.org/10.1021/jp508618t
TI - Strain Engineering for Phosphorene: The Potential Application as a Photocatalyst
T2 - Journal of Physical Chemistry C
AU - Sa, Baisheng
AU - Li, Yan-Ling
AU - Jingshan Qi, Jingshan Qi
AU - Ahuja, Rajeev
AU - Sun, Zhimei
PY - 2014
DA - 2014/11/07
PB - American Chemical Society (ACS)
SP - 26560-26568
IS - 46
VL - 118
SN - 1932-7447
SN - 1932-7455
ER -
Cite this
BibTex (up to 50 authors)
Copy
@article{2014_Sa,
author = {Baisheng Sa and Yan-Ling Li and Jingshan Qi Jingshan Qi and Rajeev Ahuja and Zhimei Sun},
title = {Strain Engineering for Phosphorene: The Potential Application as a Photocatalyst},
journal = {Journal of Physical Chemistry C},
year = {2014},
volume = {118},
publisher = {American Chemical Society (ACS)},
month = {nov},
url = {https://doi.org/10.1021/jp508618t},
number = {46},
pages = {26560--26568},
doi = {10.1021/jp508618t}
}
Cite this
MLA
Copy
Sa, Baisheng, et al. “Strain Engineering for Phosphorene: The Potential Application as a Photocatalyst.” Journal of Physical Chemistry C, vol. 118, no. 46, Nov. 2014, pp. 26560-26568. https://doi.org/10.1021/jp508618t.