Solar RRL was launched in 2017 and rapidly became a top journal for the publication of Research Articles and Reviews covering all aspects of solar energy conversion. The Editors'' Choice articles were handpicked by the editorial team of Solar RRL to showcase the very best that the journal has to offer. The articles represent the key topics that the journal
Thin Film Solar Cells. In article number 2200150, Weibo Yan, Hao Xin, and co-workers fabricated high quality CuInS 2 precursor films from N,N-dimethylformamide molecular precursor solution by doctor-blading in ambient air. CuIn(S,Se) 2 solar cells with a power conversion efficiency of 12.54% on a small area and 8.43% on 1 cm 2 level have been
Armin Aberle, National University of Singapore Joel W. Ager III, Lawrence Berkeley National Laboratory Rolf Brendel, Institute for Solar Energy Research Hamelin Annalisa Bruno, Nanyang Technological University, Singapore Wallace C. H. Choy, The University of Hong Kong Juan-Pablo Correa-Baena, Georgia Institute of Technology, Atlanta Marika Edoff, Uppsala University
At the economy, 1,791 solar panels were installed, with a power of 94,145 kW and a total annual production of 190,818,386 kW (190.81 GW). In addition, contracts were signed with another 1,670 users for the installation of 17,272 kW. Latest Montenegro Business News now available in app.
Perovskite Solar Cells. In article number 2400216, Feng Hong, Fei Xu, and co-workers report a dual doping strategy with CaCl 2 and InCl 3 additives to improve the phase stability and photoelectric properties of CsPbI 2 Br films. Thus, the unencapsulated dual doping perovskite solar cell exhibits high humidity storage and long-term optical stability, remaining
Launching in 2017 from Wiley: Solar RRL publishes top-quality Rapid Research Letters, Full Papers, Review Articles, and Progress Reports related to all aspects of solar energy conversion. This dynamic panel discusses the ways they''ve removed barriers in the early stages of the student journey and made schools more accessible to all
Solar Concentrator. In article number 2400273, Peter Jomo Walla and co-workers developed a highly efficient luminescent solar concentrator with photostable nanoparticles. Pools of nanodots harvest sunlight and funnel it to aligned nanorods, which emit light in distinct directions, greatly reducing reabsorption and escape cone losses.
Most Accessed 08/2024. Yihao Wang, Leiping Duan, Meng Zhang, Ziv Hameiri, Xu Liu, Yang Bai, Xiaojing Hao PTAA as Efficient Hole Transport Materials in Perovskite Solar Cells: A Review [Review] Sol. RRL 2022, vol. 6, eLoc. 2200234; Yuchao Zhang, Sisi Wang, Li Wang, Zhenyu Sun, Yuan-Chih Chang, Ran Chen, Catherine Chan, Kuninori Okamoto, Yiwei Ao, Dongliang Wang,
Photoelectrochemical Water Splitting. In article number 2400518, Eun Duck Park, Jong Hyeok Park, Oh Shim Joo, and co-workers introduce a CuInS 2 photoelectrode synthesized by a scalable wet chemical spin-coating technique. Ag doping greatly spurred the grain growth of CuInS 2, resulting in high photoelectrochemical activity.Bias-free water splitting
Solar RRL. Volume 6, Issue 3 2100545. Review. Development and Challenges of Metal Halide Perovskite Solar Modules. Yuanhang Cheng, Herein, the motivation for developing perovskite solar modules and the challenges to fabricate large-area perovskite solar cells with high efficiency are discussed. The important thin-film processing methods
Improvements in solar panel efficiency and battery capacity, as well as the use of new materials, are likely to lead to the advancement of solar power bank technology in the future. RESEARCH GAP Despite the growing popularity of solar power banks, there is a lack of comprehensive studies on the effectiveness and limitations of these devices. While
If you want a multiple-panel image to have a specific layout, upload an image file containing all the panels in the layout you desire (e.g., Figure_1.tif). Remember that the maximum width of an image is 17.8 cm, or about 2100 pixels. Should I label the individual panels in
A small molecule and polymer chains effectively passivate defects at the interfaces and in the bulk, respectively, in a lead halide perovskite solar cell. By decoupling the effect of each passivation, their respective roles in achieving high efficiency (22.32%), fill factor (80%), and stability (ISOS D-I and D-II) for the solar cells are shown.
The government recently reduced the value-added tax on the sales, installation, and imports of solar panels from 21% to 7%. Recent law amendments also simplified the procedure for solar power plants up to 1 MW. It is an additional impetus for the development of solar projects in Montenegro, which is set to boost solar power production by
The Government of Montenegro issued the urban planning and technical requirements for the construction of a photovoltaic park at seven locations in Lastva and Ubli near the country''s historic capital of Cetinje. RES
This work explores the realization of nonpatterned photovoltaic windows based on large-area luminescent solar concentrator panels, which reduce the number of solar cells for active. These windows achieve 38.5% visible transmittance, maintaining an electrical efficiency compatible with the literature ones.
Solar RRL. Early View 2400616. Perspective. Design Guidelines for Building and Infrastructure Integrated Photovoltaic Modules. Nikoleta Kyranaki, Corresponding Author. Solar Energy, Solar Technologies and Applications, TNO Energy and Materials Transition, 5656 Eindhoven, The Netherlands.
2024 - Volume 8, Solar RRL. Volume 8, Issue 13. July 2024. Volume 8, Issue 12. June 2024. Volume 8, Issue 11. June 2024. Volume 8, Issue 10. May 2024. Efficiency Updates are Research Articles that report latest significant
Three companies have announced hundreds of millions of euros in investments in Montenegro. They intend to build three solar power plants and a wind farm in Rožaje, Šavnik and Cetinje. The country recently reduced the
As for Montenegro, news has lately surfaced about several huge investments, mostly via the urban planning and technical requirements. There are still no utility-scale solar power plants in the country. CWP Europe plans to install a solar power plant called Montechevo with a total capacity of 400 MW in Cetinje.
A section would be placed in the cadastral municipality of Lastva, which RES Montenegro Group is also eyeing for its own project. Sunrise Europe, based in the seaside town of Kotor, intends to set up a solar park with a peak capacity of 220 MW in Šavnik while the company Obnovljivi izvori energije is preparing to build a 225 MW facility in Cetinje.
Montenegro recently lowered the value-added tax for solar panels. EPCG has a program called Solari for rooftop solar panels for households and companies. RES Montenegro Group got the urban planning and technical requirements for a photovoltaic system with a connection capacity of up to 506 MW.
The Government of Montenegro issued the urban planning and technical requirements for the construction of a photovoltaic park at seven locations in Lastva and Ubli near the country’s historic capital of Cetinje. RES Montenegro Group has determined that the potential connection capacity is 506 MW and estimated the annual output at up to 750 GWh.
RES Montenegro Group received the urban planning and technical requirements for a photovoltaic facility with a connection capacity of up to 506 MW. The project in Cetinje is the biggest in Montenegro and one of the largest ones in Southeastern Europe. The company Montenegro Investment and Holdings achieved the same milestone for a 12.5 MW facility.
The location spans 769 hectares. Lukasz Dudka is the majority owner of RES Montenegro Group, with 52%, while Dariusz Piotr Mańkowski holds a 25% stake. The remaining coowners are Żaklina Wojnowska-Gruszka; Podgorica-based firm Consultant Group, controlled by Aleksandar Ražnatović, who is the authorized representative; and Radosław Paulewicz.
