MAPbBr₃ Single Crystal 99.9% 5 g Perovskite

$245.00

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MAPbBr₃ 99.9% 5 g single crystal, 5× deep purified for perovskite photoluminescence, carrier lifetime, and X-ray detector research. Order now.

Description

METHYLAMMONIUM LEAD TRIBROMIDE MAPbBr₃ 99.9% SINGLE CRYSTAL

RESEARCH GRADE MATERIAL

Product Overview

Methylammonium Lead Tribromide (MAPbBr₃) is a pure-phase methylammonium bromide-based perovskite single crystal with MAPbBr₃ 99.9% single crystal purity, supplied as a 5 g single crystal specimen after five deep purification cycles. This wide-bandgap bromide perovskite exhibits exceptional photoluminescence performance, making it ideally suited for perovskite photoluminescence research, photodetector development, perovskite light-emitting device fabrication, and X-ray detection applications. The single crystal form eliminates grain boundary interference, enabling intrinsic property measurements including carrier mobility determination, carrier lifetime characterization, and native defect spectroscopy. This five-times purified light-sensitive hygroscopic material delivers extremely low impurity and bulk defect density essential for fundamental photophysical mechanism investigations. Compatible with spectroscopic characterization, electrical testing, and precision experimental setups, the product demands the strictest handling protocols—inert atmosphere glovebox operation with complete moisture exclusion at all times.

Technical Specifications

PARAMETER DETAILS
Chemical Formula MAPbBr₃
Purity >99.9%
Specification 5 g Single Crystal
Purification Cycles 5× Deep Purification
Form Perovskite Single Crystal
Bandgap Characteristic Wide Bandgap
Optical Performance Excellent Photoluminescence
Storage Conditions Light-Protected, Dry, Sealed, Room Temperature; Long-Term: Inert Glovebox Recommended
Custom Configurations Other specifications are available upon request. Please contact us via email for custom orders.

Key Features & Advantages

  • Five-Times Deep Purification for Ultra-Low Defect Density: The single crystal undergoes five consecutive purification cycles, achieving >99.9% purity with extremely low impurity concentration and bulk defect density, delivering the pristine material quality required for intrinsic property measurements and high-sensitivity device applications.
  • Grain-Boundary-Free Single Crystal for Intrinsic Property Studies: The absence of grain boundaries eliminates extrinsic conduction pathways and recombination centers, enabling accurate determination of carrier mobility, carrier lifetime, and native defect spectroscopy without polycrystalline interference artifacts.
  • Wide-Bandgap Bromide Perovskite with Superior Photoluminescence: MAPbBr₃ exhibits a wide bandgap with outstanding photoluminescence quantum efficiency, making it the material of choice for perovskite light-emitting devices, X-ray scintillation detectors, and fundamental photophysical mechanism investigations.
  • Compatible with Precision Spectroscopic and Electrical Characterization: The single crystal format supports a broad range of analytical techniques including steady-state and time-resolved photoluminescence spectroscopy, space-charge-limited current measurements, and Hall effect characterization for comprehensive material property analysis.

APPLICATION SCOPE: Pure-phase perovskite single crystal for photophysical mechanism research and intrinsic property characterization. High-sensitivity photodetector and X-ray detector fabrication utilizing wide-bandgap bromide perovskite. Perovskite light-emitting device active layer with excellent photoluminescence performance. Carrier mobility, carrier lifetime, and native defect density determination via precision electrical and optical measurements. Compatible with steady-state and time-resolved photoluminescence spectroscopy, space-charge-limited current analysis, and impedance spectroscopy. Supports fundamental perovskite research in university and research institute laboratories where grain-boundary-free material is essential for accurate intrinsic property determination.
PACKAGING: This listing is for a 5 g single crystal after five deep purification cycles. The crystal is sealed under inert atmosphere within light-protective, moisture-barrier packaging. The extremely hygroscopic nature of MAPbBr₃ single crystals necessitates immediate transfer to an inert-atmosphere glovebox upon receipt. Long-term storage under inert glovebox conditions is strongly recommended. Custom specifications are available upon request. For bulk quantities or tailored configurations, please contact us via email.
IMPORTANT NOTICE: Methylammonium lead tribromide single crystals are extremely hygroscopic and undergo rapid hydrolysis upon moisture exposure. Conduct all weighing, sampling, and handling operations within an inert-atmosphere nitrogen glovebox (H₂O < 1 ppm, O₂ < 1 ppm). Seal the container immediately after each use. Wear protective gloves throughout all experimental procedures; avoid direct skin contact with the powder or crystal. This material contains lead—all experimental waste liquids and discarded crystals must be collected and disposed of in accordance with heavy metal hazardous waste regulations. Store in a light-protected, moisture-free environment. Strictly prohibit co-storage with water, alcohols, or acidic reagents. For detailed safety and handling information, consult the Safety Data Sheet prior to use.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official quotations.
EMAIL: inquiry@atomfair.com
Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

This material is extremely hygroscopic and undergoes rapid hydrolysis upon moisture exposure, requiring all handling in an inert-atmosphere glovebox. Storage must be light-protected, dry, sealed, at room temperature; long-term storage under inert glovebox is recommended, and all waste must be disposed as heavy metal hazardous waste.

  • Moisture Sensitivity: Moisture exposure must be strictly excluded to prevent rapid hydrolysis of the MAPbBr3 single crystal.
  • Glovebox Requirement: All handling operations must be performed in an inert-atmosphere nitrogen glovebox with H2O and O2 below 1 ppm.
  • Container Sealing: The container must be immediately sealed after each use to maintain inert atmosphere.
  • Lead Waste Disposal: Waste materials containing lead must be collected and disposed in accordance with heavy metal hazardous waste regulations.
  • Long-Term Storage: Long-term storage under inert glovebox conditions is strongly recommended to preserve material integrity.

Upon receipt, immediately transfer the sealed package to an inert-atmosphere glovebox to prevent moisture exposure. All subsequent handling, weighing, and sampling must be conducted within the glovebox with strict moisture and oxygen control.

Required Equipment: Inert-atmosphere nitrogen glovebox, Protective gloves, Sealed moisture-barrier container

  1. Transfer to Glovebox
    Immediately transfer the sealed package to an inert-atmosphere glovebox for initial inspection.
  2. Perform Operations Inside Glovebox
    Perform all weighing, sampling, and handling operations only inside the glovebox with H2O and O2 below 1 ppm.
  3. Seal Container
    Seal the container immediately after each use to prevent moisture ingress.
  4. Wear Protective Gloves
    Wear protective gloves throughout all experimental procedures to avoid skin contact with lead-containing material.
  5. Store Properly
    Store the crystal in a light-protected, moisture-free environment, preferably inside the glovebox for long-term storage.
  6. Dispose Waste
    Collect and dispose of all experimental waste containing lead as heavy metal hazardous waste according to regulations.
  7. Consult Safety Data Sheet
    Consult the Safety Data Sheet prior to use for detailed handling and safety information.

How does the 99.9% purity and five-times deep purification of MAPbBr3 single crystals affect carrier mobility and lifetime measurements compared to lower-purity polycrystalline films?

The 99.9% purity achieved through five deep purification cycles results in extremely low impurity and bulk defect density, enabling accurate intrinsic property measurements. The single-crystal format eliminates grain boundaries, which removes extrinsic conduction pathways and recombination centers, allowing reliable determination of carrier mobility and lifetime without polycrystalline interference artifacts.

What are the critical compatibility requirements for integrating MAPbBr3 single crystals into photodetector or X-ray detector fabrication workflows?

MAPbBr3 single crystals are extremely hygroscopic and undergo rapid hydrolysis upon moisture exposure, necessitating all handling within an inert-atmosphere glovebox (H₂O < 1 ppm, O₂ < 1 ppm). The material must be stored in light-protected, moisture-free conditions and strictly prohibited from co-storage with water, alcohols, or acidic reagents. Additionally, because the material contains lead, all experimental waste and discarded crystals must be collected and disposed of as heavy metal hazardous waste.

What specific infrastructure and handling precautions are necessary for long-term storage of MAPbBr3 single crystals?

Long-term storage in an inert glovebox is strongly recommended. The crystal is sealed under inert atmosphere within light-protective, moisture-barrier packaging and should be stored at room temperature in a dry, sealed environment. For all weighing, sampling, and handling, a nitrogen glovebox with H₂O and O₂ below 1 ppm is required, and the container must be sealed immediately after each use to prevent moisture ingress.

This 5 g MAPbBr₃ single crystal (99.9% purity, five-times deep purification) provides a grain-boundary-free platform for intrinsic photophysical studies and high-sensitivity device fabrication, but demands strict inert-atmosphere handling and lead-compliant waste disposal due to extreme hygroscopicity and toxicity.

Positive

  • Ultra-low defect density from 5× purification: Five consecutive deep purification cycles yield >99.9% purity with extremely low impurity and bulk defect density, enabling accurate intrinsic property measurements and high-sensitivity device performance.
  • Grain-boundary-free single crystal structure: Absence of grain boundaries eliminates extrinsic conduction pathways and recombination centers, allowing reliable determination of carrier mobility, carrier lifetime, and native defect spectroscopy without polycrystalline artifacts.

Trade-offs

  • Extreme moisture sensitivity requires glovebox: MAPbBr₃ undergoes rapid hydrolysis upon moisture exposure; all handling must occur in an inert-atmosphere glovebox (H₂O < 1 ppm, O₂ < 1 ppm) with immediate container sealing and long-term storage under inert conditions.
  • Lead content mandates hazardous waste protocols: Lead-containing material requires collection and disposal of all experimental waste in compliance with heavy metal hazardous waste regulations, plus strict prohibition of co-storage with water, alcohols, or acidic reagents.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

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