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Solar Cell(ma) - List of Manufacturers, Suppliers, Companies and Products | IPROS GMS

Last Updated: Aggregation Period:May 06, 2026~Jun 02, 2026
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Solar Cell Product List

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Flexible single junction GaAs solar cell for ground use

Flexible single junction GaAs solar cell for ground use

Introduction of GaAs solar cells with an average mass of 112 mg (cell) and a density of 114 g/m².

The "Flexible Single Junction GaAs Solar Cell for Ground Use" has an average mass of 112 mg (cell). The size is 50×19.6 mm ±0.5, with a density of 114 g/m². The light-receiving surface dimensions are 50×17.1 mm. Additionally, the bending radius is >5 cm, and it is coated with AR (anti-reflective) coating. 【Features】 ■ Size: 50×19.6 mm ±0.5 ■ Average mass: 112 mg (cell) ■ Density: 114 g/m² ■ Light-receiving surface dimensions: 50×17.1 mm ■ Bending radius: >5 cm ■ AR coating *For more details, please refer to the PDF document or feel free to contact us.

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  • Solar power generator
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  • Solar Cell

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Ground-based triple junction GaAs solar cell

Ground-based triple junction GaAs solar cell

Ground-based triple-junction GaAs solar cell with a cell thickness of 150±20μm.

The "Triple Junction GaAs Solar Cell for Ground Use" has a cell area of 30.18 cm². The substrate material is GaInP/GaAs/Ge on a Ge substrate, and the cell thickness is 150±20 μm. The average mass is ≦86 mg/cm² (cell). Additionally, the AR coating is TiOx/Al2O3. 【Features】 ■ Substrate material: GaInP/GaAs/Ge on Ge substrate ■ Cell area: 30.18 cm² ■ Average mass: ≦86 mg/cm² (cell) ■ Cell thickness: 150±20 μm ■ AR coating: TiOx/Al2O3 *For more details, please refer to the PDF document or feel free to contact us.

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  • Solar power generator
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Materials for Perovskite Solar Cells

Materials for Perovskite Solar Cells

Methyl Ammonium Iodide that can be used as a material for solar cells.

Due to reasons such as the simplicity of the manufacturing method and the low cost of module materials, dye-sensitized solar cells and perovskite solar cells are gaining attention. In these dye-sensitized solar cells and perovskite solar cells, the differences in the manufacturing methods of titanium dioxide thin films, which is one of the main materials for the negative electrode, significantly affect the morphology of the thin films, the electronic structure of TiO2, surface states, and consequently the light-to-energy conversion efficiency. We provide this printable TiO2 paste, other oxide pastes (including n-type and p-type semiconductors), conductive carbon for the counter electrode, carbon nanotube ink, and the perovskite precursor "Methyl Ammonium Iodide (MAI)," among others. *For more details, please refer to the PDF document or feel free to contact us. *If you would like paid samples, please inquire.

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  • Other polymer materials
  • Solar power generator
  • Solar Cell

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Space-use 4-junction solar cell

Space-use 4-junction solar cell

High-efficiency four-junction GaAs solar cells suitable for use in spacecraft such as satellites.

A four-junction GaAs solar cell that can be used in spacecraft such as artificial satellites. It has improved conversion efficiency compared to the three-junction GaAs solar cells commonly used in many conventional satellites.

  • Solar power generator
  • power supply
  • Solar Cell

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Small Earth Sensor for Ultra-Small Satellites

Small Earth Sensor for Ultra-Small Satellites

A small Earth (horizon) sensor that can be used for attitude control of ultra-small satellites, CubeSats, and other small satellites.

This is a two-axis small Earth (horizon) sensor that can be used for attitude control of ultra-small satellites (CubeSats, Nano-Sats, etc.) and small satellites.

  • Sensors
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  • Solar Cell

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Reaction wheel for small satellites

Reaction wheel for small satellites

Low-cost, small reaction wheels for space use that can be utilized for attitude control of ultra-small satellites, CubeSats, and small satellites.

We sell reaction wheels that can be used for three-axis attitude control of ultra-small satellites, CubeSats, and small satellites. Additionally, we offer one-axis momentum/reaction wheels that can be used for medium to large satellites.

  • Other process controls
  • others
  • Solar Cell

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Sun Sensor ACSS for Small Satellites

Sun Sensor ACSS for Small Satellites

Sun sensors for extreme environments, reliability and accuracy of solar tracking and attitude determination.

The Advanced Coarse Sun Sensor (ACSS) is an innovative solution for space missions that require precise solar tracking and attitude determination. Its analog interface and built-in redundancy ensure continuous operation even under the most demanding conditions. Key features include: - Operating temperature range from -55°C to 105°C, accommodating extreme space environments - Exceptional radiation resistance of 200 kRad (gamma) and 8e11 10 MeV (protons), ensuring long-term functionality - Rugged mechanical design tested for durability against shocks up to 2000 g and 600 cycles at -55 to 105ºC - Compliance with ECSS-E-ST-20-07C and MIL-STD-461F standards, demonstrating suitability for space missions - Over 2500 units in orbit since 2019, highlighting its reliability and performance The advanced technology and mass production capability of ACSS make it an ideal choice for demanding LEO, MEO, and GEO missions, providing unparalleled reliability and radiation resistance.

  • Sensors
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Mobile solar cell "Violetta Solar Gear VS01"

Mobile solar cell "Violetta Solar Gear VS01"

This is a solar charger for AA and AAA rechargeable nickel-metal hydride batteries, mobile phones, and portable AV devices.

Product Overview This is a pocket-sized universal portable solar power system that can charge AA and AAA batteries, as well as supply power to various small mobile devices such as mobile phones, PDAs, and portable AV equipment. It is the original mobile solar cell that has won the Good Design Award and the Special Award from the Small and Medium Enterprise Agency in 2001, known for its long life and long-selling history. Main Features It can charge two rechargeable nickel-metal hydride batteries "Violetta" in AA or AAA size (sold separately) simultaneously using solar power. Additionally, if you connect multiple units with a "DC power cable" (sold separately), you can achieve rapid charging. By attaching a "USB power adapter" (sold separately) and connecting it to mobile devices such as mobile phones, PDAs, and portable AV equipment with a DC input of 4V to 6V using commercially available USB charging cables, you can charge the batteries of those devices. If you pre-charge the rechargeable nickel-metal hydride batteries "Violetta," you can use them even when there is no sunlight. You can also supply power to mobile devices with a DC input of 3V by connecting them with a "DC power cable." If you pre-charge the rechargeable nickel-metal hydride batteries "Violetta," you can use them even when there is no sunlight.

  • Charger
  • Solar Cell

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Silicon solar cells for CubeSat

Silicon solar cells for CubeSat

Silicon solar cells for CubeSats

We provide silicon solar cells that can be used for ultra-small satellites, CubeSats. The size of the solar cells is approximately 60 x 20 mm.

  • Solar power generator
  • power supply
  • Solar Cell

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Solar sensor for ultra-small satellites

Solar sensor for ultra-small satellites

Two-axis ultra-compact solar sensor developed for ultra-small satellites such as CubeSats.

This is a two-axis solar sensor for ultra-small, lightweight, high-performance miniature satellites such as CubeSats. This solar sensor features a solar sensor mounted on a chip and is manufactured using MEMS technology. The field of view (FOV) is +/-60°.

  • Sensors
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  • Solar Cell

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Concentrator-type triple-junction GaAs solar cell (3C44C 10mm)

Concentrator-type triple-junction GaAs solar cell (3C44C 10mm)

GaAs solar cells using InGaP/GaInAs/Ge on Ge substrate.

The "Concentrator Type 3-Junction GaAs Solar Cell (3C44C 10mm)" has an effective cell area of 10mm × 10mm = 100mm². The substrate material is InGaP/GaInAs/Ge on a Ge substrate, with dimensions of 10.1 × 10.5mm ± 0.1mm. The cell thickness is 190 ± 20μm. Additionally, the bonding methods include welding, soldering, and adhesive bonding. 【Design and Mechanical Characteristics (Excerpt)】 ■ Substrate Material: InGaP/GaInAs/Ge on Ge substrate ■ AR Coating: TiOx/Al2Ox ■ Dimensions: 10.1 × 10.5mm ± 0.1mm ■ Effective Cell Area: 10mm × 10mm = 100mm² ■ Cell Thickness: 190 ± 20μm *For more details, please refer to the PDF document or feel free to contact us.

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  • Solar power generator
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  • Solar Cell

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Concentrator type 3-junction GaAs solar cell (3C44C 5.5mm)

Concentrator type 3-junction GaAs solar cell (3C44C 5.5mm)

Introduction of a 5.6×6.0mm±0.1mm concentrated type 3-junction GaAs solar cell!

The "Concentrator Type 3-Junction GaAs Solar Cell (3C44C 5.5mm)" has an effective cell area of 5.5mm × 5.5mm = 30.25mm². The substrate material is InGaP/GaInAs/Ge on a Ge substrate, with dimensions of 5.6 × 6.0mm ± 0.1mm. The cell thickness is 190 ± 20μm. Additionally, the bonding methods include welding, soldering, and adhesive bonding. 【Design and Mechanical Characteristics (Excerpt)】 ■ Substrate Material: InGaP/GaInAs/Ge on Ge substrate ■ AR Coating: TiOx/Al2Ox ■ Dimensions: 5.6 × 6.0mm ± 0.1mm ■ Effective Cell Area: 5.5mm × 5.5mm = 30.25mm² ■ Cell Thickness: 190 ± 20μm *For more details, please refer to the PDF document or feel free to contact us.

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  • Solar power generator
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Lithium iron phosphate ion battery cell

Lithium iron phosphate ion battery cell

High safety, low risk of thermal runaway, excellent high-temperature resistance, and long-lasting lithium-ion battery.

Lithium iron phosphate (LiFePO4) batteries are considered to be the safest lithium-ion batteries currently available. The strong bond between phosphorus (P) and oxygen (O) in the cathode material, lithium iron phosphate, makes it difficult for the structure to collapse even if there is heat generation inside the battery, thus reducing the risk of thermal runaway. Additionally, LiFePO4 batteries are suitable for outdoor high-temperature scenarios, such as direct sunlight on solar streetlights. After 2000 charge-discharge cycles, discharging to 2V at 0.2C, the discharge capacity remains above 80%, making it a long-lasting battery. Moreover, the main material is iron, which lowers manufacturing costs compared to other batteries, and in recent years, it has gained increasing popularity among automotive and energy storage system (ESS) manufacturers. There is no memory effect, and the battery capacity does not decrease with repeated shallow charging and discharging; it can be topped up at any time, making it highly practical.

  • Lithium-ion battery
  • Solar Cell

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Solar sensor for small satellites, ACSS

Solar sensor for small satellites, ACSS

High radiation-resistant two-axis ultra-compact solar sensor developed for small artificial satellites.

This is a high-radiation-resistant two-axis solar sensor for ultra-small, lightweight, high-performance small satellites. It has hundreds of on-orbit achievements from 2019 to the present.

  • Sensors
  • Other optical parts
  • Solar Cell

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Small Satellite Solar Sensor 2

Small Satellite Solar Sensor 2

A solar sensor that has a proven track record in numerous small satellites.

This is a solar sensor that can be used for attitude control of numerous artificial satellites. We offer low-cost, high-performance solar sensors that can also be utilized in small satellites.

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Solar sensors for CubeSats and other ultra-small satellites.

Solar sensors for CubeSats and other ultra-small satellites.

Small solar sensor developed for ultra-small satellites (such as CubeSats).

This is a solar sensor for ultra-small, lightweight, high-performance micro artificial satellites, such as CubeSats. This solar sensor can convert the analog output (0 to 250mV) into 0 to 5V by inputting it into another signal processing device or control device.

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Next, the attached layer flexible thin-film solar cell "Haru-PV".

Next, the attached layer flexible thin-film solar cell "Haru-PV".

This is a construction project that involves directly attaching flexible solar cells to the roofs and walls of existing buildings and structures without the need for a new location.

Ultra-lightweight flexible PV + special processing of the adhesive layer = Haru -PV ◎ Features - Eliminates the need for frames, piles, and bonding materials. - By eliminating the above materials, it reduces component CO2 emissions and transportation costs. - Lighter than conventional panels, with no risk of shattering. 【Are you facing these issues?】 - Want to install solar panels but cannot secure enough space. - Want to install solar panels on curved surfaces. - Do not want to damage the surface where solar panels will be installed. We propose solar power generation utilizing existing structures in a country with limited flat installation areas. *For more details, please download the materials or contact us.

  • Solar power generator
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High-performance perovskite solar cells fabricated at high speed and low temperature.

High-performance perovskite solar cells fabricated at high speed and low temperature.

High performance, self-organization, passivation, solution process, anti-solvent free, high durability, surface free energy, p-i bulk film formation.

Perovskite refers to a type of crystal structure composed of halogen elements such as lead or tin combined with iodine or bromine, along with organic alkyl ammonium ions. The perovskite structure is used as the light-absorbing layer in perovskite solar cells. The perovskite layer, which can be formed easily and at low temperatures through a solution process, has a thickness of 0.3 μm, which is about 1/500th the thickness of single and multicrystalline silicon solar cells that typically range from 150 to 200 μm, making it resource-efficient. By utilizing the electrostatic interactions between poly-electrolytes and nanoparticles, as well as self-assembled monolayers of phosphoric compounds, it becomes possible to fabricate high-performance perovskite solar cells quickly and easily on textured transparent conductive films at low temperatures. Additionally, by adding fluorine-based materials with low surface free energy to the perovskite precursor and simply applying and heating it, the materials can spontaneously segregate to the perovskite surface, allowing for passivation of the perovskite surface. This leads to enhanced performance of the solar cells and promises improved durability.

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