One-step deposition by slot-die coating of mixed lead halide perovskite for photovoltaic applications

Cotella, Giovanni; Baker, Jennifer; Worsley, David; Rossi, Francesca De; Pleydell‐Pearce, Cameron; Carnie, Matthew J.; Watson, Trystan

doi:10.1016/j.solmat.2016.09.013

Cited by 169 publications

(139 citation statements)

References 36 publications

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“…[5] Despite these impressive achievements, most of the reported high efficiency devices were fabricated by spin-coating which allows to prepare small-size perovskite films using small volume of solution, although most solution is wasted during spinning. To further advance the technology toward industrial aspirations, it is highly imperative to redevelop facile and robust deposition protocols that can be used for fabrication of perovskite films via scalable printing methods.Recently, several scalable deposition techniques have been developed to prepare perovskite films, such as spray-coating, [8] doctor-blading, [9][10][11][12][13][14] slot-die coating, [2,[15][16][17] and so on. To further advance the technology toward industrial aspirations, it is highly imperative to redevelop facile and robust deposition protocols that can be used for fabrication of perovskite films via scalable printing methods.…”

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confidence: 99%

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A Generalized Crystallization Protocol for Scalable Deposition of High‐Quality Perovskite Thin Films for Photovoltaic Applications

et al. 2019

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Metal halide perovskite solar cells (PSCs) have raised considerable scientific interest due to their high cost‐efficiency potential for photovoltaic solar energy conversion. As PSCs already are meeting the efficiency requirements for renewable power generation, more attention is given to further technological barriers as environmental stability and reliability. However, the most major obstacle limiting commercialization of PSCs is the lack of a reliable and scalable process for thin film production. Here, a generic crystallization strategy that allows the controlled growth of highly qualitative perovskite films via a one‐step blade coating is reported. Through rational ink formulation in combination with a facile vacuum‐assisted precrystallization strategy, it is possible to produce dense and uniform perovskite films with high crystallinity on large areas. The universal application of the method is demonstrated at the hand of three typical perovskite compositions with different band gaps. P‐i‐n perovskite solar cells show fill factors up to 80%, underpinning the statement of the importance of controlling crystallization dynamics. The methodology provides important progress toward the realization of cost‐effective large‐area perovskite solar cells for practical applications.

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confidence: 99%

“…Recently, several scalable deposition techniques have been developed to prepare perovskite films, such as spray-coating, [8] doctor-blading, [9][10][11][12][13][14] slot-die coating, [2,[15][16][17] and so on. Among…”

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confidence: 99%

A Generalized Crystallization Protocol for Scalable Deposition of High‐Quality Perovskite Thin Films for Photovoltaic Applications

et al. 2019

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“…The results show a clear tetragonal structure (space group I4/mcm) for both perovskite films with a typical splitting of the peaks at around 28 • and 31 • seen in Figure S1 [26]. The 14.2 • peak can be used to monitor the MAPI phase, whereas the 12.7 • peak refers to the PbI 2 phase [20,26]. A more intense PbI 2 peak can be observed in drop samples compared to RbM.…”

Section: Resultsmentioning

confidence: 99%

“…The active area was defined through an aperture mask with an area of 9 mm 2 . Stability tests were performed under continuous irradiation from white light-emitting diodes (LEDs) in ambient condition (18)(19)(20)(21)(22) • C, around 50% relative humidity) at both 1 and 0.5 equivalent sun recording a complete JV curve every 15 min in the first 5 h and every 1 h for the remainder of the test. External quantum efficiency (EQE) measurements were carried out using a QE X10 system (PV Measurements) in the wavelength range between 300 and 850 nm in direct current (DC) mode with a light spot of less than 10 mm 2 .…”

Section: Characterisationmentioning

confidence: 99%

“…Small devices (up to 1 cm 2 ) can be easily prepared by this drop deposition method but large area devices, in particular both parallel and series connected modules [19,20], require both patterning and increased uniformity of layers which is more challenging using a manual approach. In fact, the drop method can result in uncontrolled and non-uniform perovskite infiltration.…”

Section: Introductionmentioning

confidence: 99%

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Homogeneous and highly controlled deposition of low viscosity inks and application on fully printable perovskite solar cells

Meroni

Mouhamad

Rossi

et al. 2017

Science and Technology of Advanced Materials

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The fully printed, hole-transporter-free carbon perovskite solar cell structure incorporating a triple mesoscopic layer has emerged as a possible frontrunner for early industrialisation. It is an attractive structure because it can be fabricated by the simple sequential screen printing and sintering of titania, zirconia, and carbon. The device is finalised by manual dropping of a perovskite precursor solution onto the carbon which subsequently infiltrates. This stage in device fabrication is inhomogeneous, ineffective for large areas, and prone to human error. Here we introduce an automated deposition and infiltration system using a robotic dispenser and mesh which delivers the perovskite precursor uniformly to the carbon surface over a large area. It has been successfully used to prepare perovskite solar cells with over 9% efficiency. Cells, prepared by this robotic mesh deposition, showed comparable performance to reference cells, made by standard drop deposition, confirming this approach to be effective and reliable. X-ray diffraction and Raman spectroscopy were used to confirm the uniformity of the deposition over a large area. ARTICLE HISTORY

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Perovskite Solar Modules: Correlation Between Efficiency and Scalability

Matteocci

Castriotta

Palma

2019

Photoenergy and Thin Film Materials

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One-step deposition by slot-die coating of mixed lead halide perovskite for photovoltaic applications

Cited by 169 publications

References 36 publications

A Generalized Crystallization Protocol for Scalable Deposition of High‐Quality Perovskite Thin Films for Photovoltaic Applications

A Generalized Crystallization Protocol for Scalable Deposition of High‐Quality Perovskite Thin Films for Photovoltaic Applications

Homogeneous and highly controlled deposition of low viscosity inks and application on fully printable perovskite solar cells

Perovskite Solar Modules: Correlation Between Efficiency and Scalability

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