Synthesis and characterization of CIGS ink by hot injection method

Dewi, Atika Sari Puspita; Arroyid, Bagas H.; Mufti, Nandang; Diantoro, Markus; Arramel, Arramel; Nur, Hadi; Sunaryono, Sunaryono; Taufiq, Ahmad

doi:10.1063/5.0000878

Cited by 5 publications

(7 citation statements)

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“…Recent work using a non-vacuum-based route has been developed in our laboratory, namely the hot injection method. We found that by relatively simple preparation and low-cost, we have successfully grown a high-quality CIGS layer which comparable with previous work of CIGS fabricated by other techniques (Dewi et al, 2020).…”

Section: Fabrication Of Cigs-based Solar Cellssupporting

confidence: 85%

Review of CIGS-based solar cells manufacturing by structural engineering

et al. 2020

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The design and development of the next-generation power-efficient CIGS solar cells are at the research forefront due to their potential applications in renewable energy. Due to rich fundamental properties such as chemical and physical structures of the CIGS layer, cell scaffolding, and its promising applications like low cost, easy integration, and high efficiency, the CIGS-based solar cell systems are of considerable interest and received tremendous attention. In this article, we review the CIGS solar cells from the point of view of structural engineering. We explain the intrinsic parts of crystalline, optical, and electronic structures of the CIGS absorber layer up to the extrinsic part of the cell multilayer structure. For intrinsic structure, we primarily review the modification of the crystallinity or chemical composition of the CIGS and the effects that these modifications have on the physical properties such as the adjustment of the bandgap grading, effect of impurity or doping, selenization, oxidation processes, and the surface morphology and structure orientation. For extrinsic structure, the effect of substrates, electrical back contact, windows, n-buffer, grid, and antireflection layers will be discussed further, as well as the possibility of their tandem use with other solar cell thin films.

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Section: Fabrication Of Cigs-based Solar Cellssupporting

confidence: 85%

Review of CIGS-based solar cells manufacturing by structural engineering

et al. 2020

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“…From the map's color density, it can be observed that UI, ITB, UNS, and ITS are still the most productive universities. In addition, UM displayed intense publication on many aspects of SC topics, such as DSSC, thin-film, and perovskite [74,75]. Moreover, the number of PV research clusters dramatically increased, and new PV clusters have emerged from Universitas Syiah Kuala (UNSYIAH), Politeknik Negeri Lhokseumawe (PNL) Politeknik Negeri Sriwijaya (POL-SRI), Universitas Ahmad Dahlan (UAD) [76][77][78][79].…”

Section: -2020mentioning

confidence: 99%

Mapping 30 Years of Sustainability of Solar Energy Research in Developing Countries: Indonesia Case

et al. 2021

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Research into converting solar light energy into electricity using so-called photovoltaic (PV) technology or solar cells (SCs) was started a long time ago. However, most developing countries tend to lag behind. The present work delivers a bibliometric mapping analysis of 30 years of Indonesian solar energy research papers in the Scopus database. A multidisciplinary point of view is used to cover the findings comprehensively, highlighting the emerging gaps, orientation, and promising future research that will benefit many researchers, governments, and industry. Two essential keywords, “photovoltaic” and “solar cell”, were used to harvest the data. A total of 1886 documents were finally investigated. The VOSviewer was utilized as a proper complement for visualizing and analyzing the publication trends based on the keywords and authorships. Many aspects of solar research have been explored, including the basic science of semiconductors, simulation, lab-scale device fabrication, and the application of technologies and policies. The findings show that the two keywords determined the research characteristics. It also reveals that the geographical location had a remarkable impact on publication distribution. The most striking result is that a minimum of 1146 documents are centralized on Java Island. In addition, the policies related to renewable energy show a strong impact: two years after the policies were announced, the publications exhibited a two-fold increase. The results also suggest that future research should focus on the increasingly significant domestic component of silicon-based solar cells, the various multidisciplinary approaches for making PV utilization more affordable, and on shifting towards the use of perovskite solar cells. Solid national and international collaboration should be continued for the sustainability of Indonesian solar energy research.

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“…Otherwise, there are non-vacuum methods such as electrodeposition. [6], spin coating [7], and spray coating [8]. Electrodeposition is the most preferred method because it is simple, stable, low cost, does not require vacuum conditions, and has been proven capable of producing CIGS solar cells [9].…”

Section: Introductionmentioning

confidence: 99%

Optimizing Cigs Solar Cell Performance: The Impact of Counter Electrode on Electrodeposition Methods

Rahmawati,

Ismail

2024

IPR

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Copper Indium Gallium Selenium (CIGS) is a type of solar cell with great potential to be developed to meet increasing energy needs. Electrodeposition is the preferred technique for fabricating CIGS solar cells because it is simple, does not require vacuum equipment, and is low-cost. One factor influencing electrodeposition is the counter electrode, so in this research, CIGS will be fabricated using platinum wire and platinum plate as the counter electrode. Based on the XRD results of CIGS oriented at (112), (211), (220), and (312), the UV-Vis results show that the resulting CIGS has an absorbance peak of 390 nm. CIGS solar cell performance results based on photoresponse produce 0.99 s and 0.45 s when using platinum wire and plate consecutively. Both platinum wire and plate as counter electrodes in electrodeposition can produce CIGS solar cells. However, CIGS with a platinum plate as a counter electrode produces more optimal CIGS performance.

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Synthesis and characterization of CIGS ink by hot injection method

Cited by 5 publications

References 20 publications

Review of CIGS-based solar cells manufacturing by structural engineering

Review of CIGS-based solar cells manufacturing by structural engineering

Mapping 30 Years of Sustainability of Solar Energy Research in Developing Countries: Indonesia Case

Optimizing Cigs Solar Cell Performance: The Impact of Counter Electrode on Electrodeposition Methods

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