Micro-sized thin-film solar cells via area-selective electrochemical deposition for concentrator photovoltaics application

Siopa, Daniel; Hajraoui, Khalil El; Tombolato, Sara; Babbe, Finn; Lomuscio, Alberto; Wolter, Max Hilaire; Anacleto, Pedro; Abderrafi, Kamal; Deepak, Francis Leonard; Sadewasser, Sascha; Dale, Phillip J.

doi:10.1038/s41598-020-71717-0

Cited by 11 publications

(6 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In addition, the localized photo-induced transformation represents the basic principle for direct laser beam lithography, provided that a selective solvent for the CTC is available. Such mask-less lithography processes that convert a precursor material into a micropattern of the target material without the need for photoresist deposition and lift-off have been investigated and proposed for industrial use. , Potential applications for this sustainable fabrication of micro structured layers of copper sulfide nanocrystals and other chalcogenides include thermoelectric and optoelectronic devices and solar cells and photosensors. , …”

Section: Discussionmentioning

confidence: 99%

“…26,43 Potential applications for this sustainable fabrication of micro structured layers of copper sulfide nanocrystals and other chalcogenides include thermoelectric and optoelectronic devices and solar cells and photosensors. 44,45 ■ EXPERIMENTAL DETAILS CTC nanowires of composition [Cu(tu)]Cl•1/2H 2 O were synthesized electrochemically in a three-electrode configuration, as described in earlier work. 18 We used a 0.25 mm thick platinum foil (99.9% purity, Alfa Aesar) as a working electrode, a graphite foil (Alfa Aesar) of 1 mm thickness as a counter electrode, and a standard Ag/AgCl reference electrode.…”

Section: ■ Conclusionmentioning

confidence: 99%

See 1 more Smart Citation

Photothermal Synthesis of Copper Sulfide Nanowires for Direct Lithography of Chalcogenides on a Chip

Sarma

Gutowski

Seeck

et al. 2022

ACS Appl. Nano Mater.

View full text Add to dashboard Cite

In the context of sustainability in industrial material and device production, research and development exhibit great importance to the reduction of power consumption in the form of heat. Here, we report on the thermal conversion of electrochemically synthesized nanowires of the copper thiourea complex (CTC) to copper sulfide and the effective lowering of the applied process temperature by irradiation with visible light. Our structural and spectroscopic studies revealed that copper sulfide nanocrystals start to form inside the CTC nanowires at 95 °C, which corresponds to roughly half the temperature required for complete thermal conversion (180 °C). As a result, the optical absorption of these composite nanowires increases in the visible range, suggesting the evolution of a substantial photothermal effect. When the CTC nanowires are pre-annealed to 110 °C, exposure to low-power green laser light completely transforms the CTC precursor into copper sulfide in seconds and without further external heating. This conversion is locally confined to the dimension of the laser spot, which can be focused to the micrometer size. When applied in a direct photolithography mode, this new approach opens for the design of copper sulfide-based microdevices for photovoltaics and thermoelectrics.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: ■ Conclusionmentioning

confidence: 99%

Photothermal Synthesis of Copper Sulfide Nanowires for Direct Lithography of Chalcogenides on a Chip

Sarma

Gutowski

Seeck

et al. 2022

ACS Appl. Nano Mater.

View full text Add to dashboard Cite

show abstract

“…Rather than today's large and heavy PV panels that typically cover roof tops, a more useful option would be the miniaturized micro-PV cells used in arrays, often in combination with optical elements to concentrate the sunlight (Concentrator Photovoltaics, or CPV), which are a hot current area of research [78]. These can have a lateral extension as small as 0.2 mm [79] and be very thin and light-weight, making it easy to pattern louvers with such PV cells. Most importantly, considering the scope of this article, each micro-PV cell could be attached to the louver via an LCE hinge that lifts the cell with its active side out during the day, while illuminated by light, but folds it down during night, when it cannot generate electricity anyway.…”

Section: Regulating Facades and Roofs In Response To Periodic Tempera...mentioning

confidence: 99%

Embedding intelligence in materials for responsive built environment: A topical review on Liquid Crystal Elastomer actuators and sensors

Schwartz

Lagerwall

2022

Building and Environment

View full text Add to dashboard Cite

“…Rather than today's large and heavy PV panels that typically cover roof tops, a more useful option would be the miniaturized micro-PV cells used in arrays, often in combination with optical elements to concentrate the sunlight (Concentrator Photovoltaics, or CPV), which are a hot current area of research. [62] These can have a lateral extension as small as 0.2 mm [63] and be very thin and light-weight, making it easy to pattern louvers with such PV cells. Most importantly, considering the scope of this article, each micro-PV cell could be attached to the louver via an LCE hinge that lifts the cell with its active side out during the day, while illuminated by light, but folds it down during night, when it cannot generate electricity anyway.…”

Section: Regulating Facades and Roofs In Response To Periodic Tempera...mentioning

confidence: 99%

Embedding Intelligence in Materials for Responsive Built Environment using Liquid Crystal Elastomer Actuators and Sensors

Schwartz,

Lagerwall

2021

Preprint

View full text Add to dashboard Cite

Liquid Crystal Elastomers (LCEs) are an exciting category of material that has tremendous application potential across a variety of fields, owing to their unique properties that enable both sensing and actuation. To some, LCEs are simply another type of Shape Memory Polymer, while to others they are an interesting on-going scientific experiment. In this visionary article, we bring an interdisciplinary discussion around creative and impactful ways that LCEs can be applied in the Built Environment to support kinematic and kinetic buildings and situational awareness. We focus particularly on the autonomy made possible by using LCEs, potentially removing needs for motors, wiring and tubing, and even enabling fully independent operation in response to natural environment variations, requiring no power sources. To illustrate the potential, we propose a number of concrete application scenarios where LCEs could offer innovative solutions to problems of great societal importance, such as autonomous active ventilation, heliotropic solar panels systems which can also remove snow or sand autonomously, and invisible coatings with strain mapping functionality, alerting residents in case of dangerous (static or dynamic) loads on roofs or windows, as well as assisting building safety inspection teams after earthquakes.

show abstract

Micro-sized thin-film solar cells via area-selective electrochemical deposition for concentrator photovoltaics application

Cited by 11 publications

References 47 publications

Photothermal Synthesis of Copper Sulfide Nanowires for Direct Lithography of Chalcogenides on a Chip

Photothermal Synthesis of Copper Sulfide Nanowires for Direct Lithography of Chalcogenides on a Chip

Embedding intelligence in materials for responsive built environment: A topical review on Liquid Crystal Elastomer actuators and sensors

Embedding Intelligence in Materials for Responsive Built Environment using Liquid Crystal Elastomer Actuators and Sensors

Contact Info

Product

Resources

About