Example of Journal of Photonics for Energy format
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Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format
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Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format Example of Journal of Photonics for Energy format
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open access Open Access

Journal of Photonics for Energy — Template for authors

Publisher: SPIE
Categories Rank Trend in last 3 yrs
Atomic and Molecular Physics, and Optics #75 of 192 down down by 23 ranks
Renewable Energy, Sustainability and the Environment #92 of 195 down down by 36 ranks
journal-quality-icon Journal quality:
Good
calendar-icon Last 4 years overview: 218 Published Papers | 803 Citations
indexed-in-icon Indexed in: Scopus
last-updated-icon Last updated: 10/06/2020
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Related Journals

open access Open Access

Hindawi

Quality:  
Good
CiteRatio: 3.8
SJR: 0.426
SNIP: 0.849
open access Open Access

IEEE

Quality:  
High
CiteRatio: 5.5
SJR: 0.81
SNIP: 1.008
open access Open Access

Springer

Quality:  
High
CiteRatio: 6.6
SJR: 1.392
SNIP: 1.036

Journal Performance & Insights

Impact Factor

CiteRatio

Determines the importance of a journal by taking a measure of frequency with which the average article in a journal has been cited in a particular year.

A measure of average citations received per peer-reviewed paper published in the journal.

1.538

32% from 2018

Impact factor for Journal of Photonics for Energy from 2016 - 2019
Year Value
2019 1.538
2018 2.277
2017 2.157
2016 2.287
graph view Graph view
table view Table view

3.7

3% from 2019

CiteRatio for Journal of Photonics for Energy from 2016 - 2020
Year Value
2020 3.7
2019 3.6
2018 4.2
2017 3.6
2016 2.7
graph view Graph view
table view Table view

insights Insights

  • Impact factor of this journal has decreased by 32% in last year.
  • This journal’s impact factor is in the top 10 percentile category.

insights Insights

  • CiteRatio of this journal has increased by 3% in last years.
  • This journal’s CiteRatio is in the top 10 percentile category.

SCImago Journal Rank (SJR)

Source Normalized Impact per Paper (SNIP)

Measures weighted citations received by the journal. Citation weighting depends on the categories and prestige of the citing journal.

Measures actual citations received relative to citations expected for the journal's category.

0.564

17% from 2019

SJR for Journal of Photonics for Energy from 2016 - 2020
Year Value
2020 0.564
2019 0.482
2018 0.624
2017 0.6
2016 0.698
graph view Graph view
table view Table view

0.47

17% from 2019

SNIP for Journal of Photonics for Energy from 2016 - 2020
Year Value
2020 0.47
2019 0.564
2018 0.623
2017 0.584
2016 0.715
graph view Graph view
table view Table view

insights Insights

  • SJR of this journal has increased by 17% in last years.
  • This journal’s SJR is in the top 10 percentile category.

insights Insights

  • SNIP of this journal has decreased by 17% in last years.
  • This journal’s SNIP is in the top 10 percentile category.

Journal of Photonics for Energy

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SPIE

Journal of Photonics for Energy

Approved by publishing and review experts on SciSpace, this template is built as per for Journal of Photonics for Energy formatting guidelines as mentioned in SPIE author instructions. The current version was created on 09 Jun 2020 and has been used by 784 authors to write and format their manuscripts to this journal.

Atomic and Molecular Physics, and Optics

Renewable Energy, Sustainability and the Environment

Physics and Astronomy

i
Last updated on
09 Jun 2020
i
ISSN
1947-7988
i
Impact Factor
Medium - 0.928
i
Open Access
No
i
Sherpa RoMEO Archiving Policy
Green faq
i
Plagiarism Check
Available via Turnitin
i
Endnote Style
Download Available
i
Bibliography Name
spiebib
i
Citation Type
Numbered (Superscripted)
25
i
Bibliography Example
G. E. Blonder, M. Tinkham, and T. M. Klapwijk, “Transition from metallic to tunneling regimes in superconducting microconstrictions: Excess current, charge imbalance, and supercurrent conversion,” Phys. Rev. B 25(7), 4515–4532 (1982).

Top papers written in this journal

open accessOpen access Journal Article DOI: 10.1117/1.JPE.4.040990
Transparent electrodes for organic optoelectronic devices: a review
Cao Weiran1, Jian Li2, Hongzheng Chen3, Jiangeng Xue3, Jiangeng Xue1

Abstract:

Transparent conductive electrodes are one of the essential components for organic optoelectronic devices, including photovoltaic cells and light-emitting diodes. Indium-tin oxide (ITO) is the most common transparent electrode in these devices due to its excellent optical and electrical properties. However, the manufacturing o... Transparent conductive electrodes are one of the essential components for organic optoelectronic devices, including photovoltaic cells and light-emitting diodes. Indium-tin oxide (ITO) is the most common transparent electrode in these devices due to its excellent optical and electrical properties. However, the manufacturing of ITO film requires precious raw materials and expensive processes, which limits their compatibility with mass production of large-area, low-cost devices. The optical/electrical properties of ITO are strongly dependent on the deposition processes and treatment conditions, whereas its brittleness and the potential damage to underlying films during deposition also present challenges for its use in flexible devices. Recently, several other transparent conductive materials, which have various degrees of success relative to commercial applications have been developed to address these issues. Starting from the basic properties of ITO and the effect of various ITO surface modification methods, here we review four different groups of materials, doped metal oxides, thin metals, conducting polymers, and nanomaterials (including carbon nanotubes, graphene, and metal nanowires), that have been reported as transparent electrodes in organic optoelectronic materials. Particular emphasis is given to their optical/electrical and other material properties, deposition techniques, and applications in organic optoelectronic devices. read more read less

Topics:

Transparent conducting film (62%)62% related to the paper, Conductive polymer (53%)53% related to the paper, Carbon nanotube (51%)51% related to the paper
View PDF
191 Citations
open accessOpen access Journal Article DOI: 10.1117/1.JPE.6.022001
Pathways toward high-performance perovskite solar cells: review of recent advances in organo-metal halide perovskites for photovoltaic applications
Zhaoning Song1, Suneth C. Watthage1, Adam B. Phillips1, Michael J. Heben1

Abstract:

Organo-metal halide perovskite–based solar cells have been the focus of intense research over the past five years, and power conversion efficiencies have rapidly been improved from 3.8 to >21%. This article reviews major advances in perovskite solar cells that have contributed to the recent efficiency enhancements, including ... Organo-metal halide perovskite–based solar cells have been the focus of intense research over the past five years, and power conversion efficiencies have rapidly been improved from 3.8 to >21%. This article reviews major advances in perovskite solar cells that have contributed to the recent efficiency enhancements, including the evolution of device architecture, the development of material deposition processes, and the advanced device engineering techniques aiming to improve control over morphology, crystallinity, composition, and the interface properties of the perovskite thin films. The challenges and future directions for perovskite solar cell research and development are also discussed. read more read less

Topics:

Perovskite solar cell (69%)69% related to the paper, Perovskite (structure) (56%)56% related to the paper, Photovoltaics (56%)56% related to the paper, Photovoltaic system (52%)52% related to the paper
View PDF
185 Citations
open accessOpen access Journal Article DOI: 10.1117/1.JPE.5.057607
Recent advances in light outcoupling from white organic light-emitting diodes
Malte C. Gather1, Sebastian Reineke2

Abstract:

Organic light-emitting diodes (OLEDs) have been successfully introduced to the smartphone display market and have geared up to become contenders for applications in general illumination where they promise to combine efficient generation of white light with excellent color quality, glare-free illumination, and highly attractiv... Organic light-emitting diodes (OLEDs) have been successfully introduced to the smartphone display market and have geared up to become contenders for applications in general illumination where they promise to combine efficient generation of white light with excellent color quality, glare-free illumination, and highly attractive designs. Device efficiency is the key requirement for such white OLEDs, not only from a sustainability perspective, but also because at the high brightness required for general illumination, losses lead to heating and may, thus, cause rapid device degradation. The efficiency of white OLEDs increased tremendously over the past two decades, and internal charge-to-photon conversion can now be achieved at ∼100% yield. However, the extraction of photons remains rather inefficient (typically <30%). Here, we provide an introduction to the underlying physics of outcoupling in white OLEDs and review recent progress toward making light extraction more efficient. We describe how structures that scatter, refract, or diffract light can be attached to the outside of white OLEDs (external outcoupling) or can be integrated close to the active layers of the device (internal outcoupling). Moreover, the prospects of using top-emitting metal–metal microcavity designs for white OLEDs and of tuning the average orientation of the emissive molecules within the OLED are discussed. read more read less
View PDF
159 Citations
open accessOpen access Journal Article DOI: 10.1117/1.JPE.5.057611
Review of recent progress in multilayer solution-processed organic light-emitting diodes
Szuheng Ho1, Shuyi Liu1, Ying Chen1, Franky So1

Abstract:

Organic light-emitting diodes (OLEDs) have become a promising candidate for lighting and display applications. High efficiency OLEDs require a multilayer device architecture to provide exciton confinement and balance charge transport. Conventional OLEDs are made by vacuum process, and the manufacturing cost can be reduced by ... Organic light-emitting diodes (OLEDs) have become a promising candidate for lighting and display applications. High efficiency OLEDs require a multilayer device architecture to provide exciton confinement and balance charge transport. Conventional OLEDs are made by vacuum process, and the manufacturing cost can be reduced by solution processing. However, unlike vacuum-deposited OLEDs, solution-processed multilayer OLEDs are more challenging to make. The key for multilayer solution processing is to have the layer structure which can withstand solvents used in subsequent processing. We review the materials’ strategies to make multilayer solution-processed OLEDs. Specifically, we will discuss the use of cross-linkable organic materials, metal oxides, and orthogonal solvent systems to deposit various functional layers in an OLED. read more read less

Topics:

OLED (51%)51% related to the paper
View PDF
122 Citations
open accessOpen access Journal Article DOI: 10.1117/1.3529412
Organic light-emitting-diode lighting overview

Abstract:

For organic light-emitting-diode (OLED) lighting to be successful, it is critical that it be properly positioned in the marketplace. It is also critical that both the performance and cost be competitive against other lighting technologies in the selected marketplace. This presentation gives an overview of OLED lighting techno... For organic light-emitting-diode (OLED) lighting to be successful, it is critical that it be properly positioned in the marketplace. It is also critical that both the performance and cost be competitive against other lighting technologies in the selected marketplace. This presentation gives an overview of OLED lighting technology from these perspectives. It shows that OLED lighting products should be positioned as luminaires and not light bulbs, which affects both the performance and price expectations. Laboratory OLED devices already demonstrated efficacies that are more than competitive against luminaires based on other lighting technologies. There is potential for substantial further improvement in efficacy. The greatest opportunities come from light-extraction efficiency improvements and from an improved blue emitting system. There has been great recent progress in the OLED device lifetime. To be acceptable as luminaires, however, OLED may need even more lifetime improvements. Not all the improvements need to come from OLED technology improvement, however. We discuss other means to effectively improve the lifetime of OLED lighting panels and show why there is optimism that, with volume production, OLED lighting can be competitive against other luminaires even on the first-cost read more read less

Topics:

Smart lighting (63%)63% related to the paper, Solid-state lighting (52%)52% related to the paper
View PDF
103 Citations
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Frequently asked questions

1. Can I write Journal of Photonics for Energy in LaTeX?

Absolutely not! Our tool has been designed to help you focus on writing. You can write your entire paper as per the Journal of Photonics for Energy guidelines and auto format it.

2. Do you follow the Journal of Photonics for Energy guidelines?

Yes, the template is compliant with the Journal of Photonics for Energy guidelines. Our experts at SciSpace ensure that. If there are any changes to the journal's guidelines, we'll change our algorithm accordingly.

3. Can I cite my article in multiple styles in Journal of Photonics for Energy?

Of course! We support all the top citation styles, such as APA style, MLA style, Vancouver style, Harvard style, and Chicago style. For example, when you write your paper and hit autoformat, our system will automatically update your article as per the Journal of Photonics for Energy citation style.

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Sign up for our free trial, and you'll be able to use all our features for seven days. You'll see how helpful they are and how inexpensive they are compared to other options, Especially for Journal of Photonics for Energy.

5. Can I use a manuscript in Journal of Photonics for Energy that I have written in MS Word?

Yes. You can choose the right template, copy-paste the contents from the word document, and click on auto-format. Once you're done, you'll have a publish-ready paper Journal of Photonics for Energy that you can download at the end.

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After writing your paper autoformatting in Journal of Photonics for Energy, you can download it in multiple formats, viz., PDF, Docx, and LaTeX.

12. Is Journal of Photonics for Energy's impact factor high enough that I should try publishing my article there?

To be honest, the answer is no. The impact factor is one of the many elements that determine the quality of a journal. Few of these factors include review board, rejection rates, frequency of inclusion in indexes, and Eigenfactor. You need to assess all these factors before you make your final call.

13. What is Sherpa RoMEO Archiving Policy for Journal of Photonics for Energy?

SHERPA/RoMEO Database

We extracted this data from Sherpa Romeo to help researchers understand the access level of this journal in accordance with the Sherpa Romeo Archiving Policy for Journal of Photonics for Energy. The table below indicates the level of access a journal has as per Sherpa Romeo's archiving policy.

RoMEO Colour Archiving policy
Green Can archive pre-print and post-print or publisher's version/PDF
Blue Can archive post-print (ie final draft post-refereeing) or publisher's version/PDF
Yellow Can archive pre-print (ie pre-refereeing)
White Archiving not formally supported
FYI:
  1. Pre-prints as being the version of the paper before peer review and
  2. Post-prints as being the version of the paper after peer-review, with revisions having been made.

14. What are the most common citation types In Journal of Photonics for Energy?

The 5 most common citation types in order of usage for Journal of Photonics for Energy are:.

S. No. Citation Style Type
1. Author Year
2. Numbered
3. Numbered (Superscripted)
4. Author Year (Cited Pages)
5. Footnote

15. How do I submit my article to the Journal of Photonics for Energy?

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16. Can I download Journal of Photonics for Energy in Endnote format?

Yes, SciSpace provides this functionality. After signing up, you would need to import your existing references from Word or Bib file to SciSpace. Then SciSpace would allow you to download your references in Journal of Photonics for Energy Endnote style according to Elsevier guidelines.

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