Zeolite Crystals Embedded Nanotextured Coating with Hydrophobic Surface: An Innovation Toward Next Generation Solar Cover Glass for Efficient Light‐Harvesting

Das, Indranee; De, Goutam

doi:10.1002/admi.201500848

Cited by 8 publications

(9 citation statements)

References 42 publications

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“…For zeolite A, T–O–T vibration mode is registered close to 489 cm −1 [34]. Small amplitude peaks at 689 cm −1 and 558 cm −1 are related to the presence of four and six-member double rings of zeolite, respectively [35].…”

Section: Resultsmentioning

confidence: 99%

Antireflection Enhancement by Composite Nanoporous Zeolite 3A–Carbon Thin Film

et al. 2019

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A straightforward and effective spin-coating technique at 120 °C was investigated for the deposition of a thin nanoporous layer with antireflection properties onto glass and indium tin oxide (ITO) coated glass. A mixture of zeolite 3A powder and high iodine value vegetable oil was deposited, creating a carbonic paste with embedded nanoporous grains. Experimental results evidenced excellent broadband antireflection over the visible-near-infrared wavelength range (450–850 nm), with a diffuse reflectance value of 1.67% and 1.79%. Structural and optical characteristics stabilized over time. The results are promising for the accessible and cost-effective fabrication of an antireflective surface for optoelectronic devices.

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Section: Resultsmentioning

confidence: 99%

Antireflection Enhancement by Composite Nanoporous Zeolite 3A–Carbon Thin Film

et al. 2019

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“…When NaOH concentrations of over 3 M are used, previous studies [74] have also shown the presence of hydroxy sodalite. With a decrease in degree crystallinity, higher alkalinity promotes the formation of impurities and the decomposition of zeolite [75].…”

Section: Hydrothermal Synthesis Of Zeolitementioning

confidence: 99%

One-shot of the hydrothermal route for synthesis of zeolite LTA using kaolin

Sazali

Harun

2022

Preprint

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The zeolite LTA (Z-LTA) was successfully produced from synthesis kaolin and well-crystallized using a hydrothermal method. The kaolin was heated in the furnace for 4 hours at temperatures of 500, 600, 700, and 800 0C, resulting in a metakaolinization process that transformed it into an amorphous state. The Z-LTA mixture was obtained by dissolving metakaolin in a sodium hydroxide (NaOH) solution without adding any other silica or alumina sources. Before going through the hydrothermal synthesis process, the solution mixture was aged for 24 hours. The crystal morphology and degree crystallinity (%) of Z-LTA were evaluated using the various molarity (M) of sodium hydroxide (NaOH) and crystallization time (hr). The degree crystallinity of the Z-LTA increases from 62.83% to 86.8% when the molarity of NaOH is increased from 0.5M to 1M but does not increase when the molarity of NaOH is increased to 1M and 2M (80.77% and 67.78%), respectively. The degree crystallinity (%) Z-LTA based on molarity proceeded with the various crystallization time (hr) factors. 1M NaOH with 9hr give highest degree crystallinity (88.45%) compared to other time, 12hr (86.16 %), 16hr (87.11%), 24hr (86.80%) and 30hr (86.59%) respectively. The structure of crystal morphology with the presence of Na, Al, O, and Si was clearly seen in SEM images of the Z-LTA at a 1M NaOH, 9hr crystallization time (Z-LTA, 1M 9hr). The particle size of (Z-LTA, 1M 9hr) is smaller, which is 0.329 µm compared to kaolin, 0.497 µm. Under low alkali conditions, the hydrothermal process has been shown to be successful in generating high crystallinity from natural kaolin. As a result, by using simple chemical methods, this technology still makes low-cost commercial items from natural materials.

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“…The generation of solar power as a renewable energy source is highly important in society for a variety of applications. [1][2][3][4][5][6][7][8] In the current scenario, the development of Si solar cells or photovoltaic cells that convert direct sunlight into electric energy is drawing increasing attention because it prevents environmental pollution. Solar cell modules are normally fabricated by sandwiching an Si solar cell between a back sheet and a cover glass (front sheet) and sealing them with a resin material.…”

Section: Introductionmentioning

confidence: 99%

“…As the cover glass is exposed to open air, dust particles may adhere to it, reducing its transparency and thus decreasing the conversion efficiency of the solar cell module. [1][2][3] To maintain the conversion efficiency of the solar cell at a desirable level, the cover glass must be coated with a protective, hard and hydrophobic layer with low reflective properties. The use of mesoporous silica with a relatively ordered pore structure as a coating layer has been proven to achieve better light conversion efficiency with easy cleaning and maintenance.…”

Section: Introductionmentioning

confidence: 99%

“…As the cover glass is exposed to open air, the dust particles may be adhered thereon reducing its transparency rendering decrease in conversion efficiency of the solar cell module. [1][2][3] To keep maintain the conversion efficiency of solar cell up to a desirable level, the cover glass needs to be coated with a protective, hard and hydrophobic layer with low reflective properties.…”

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confidence: 99%

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