105 Battery Products highlighting the core functional technology articles and application development cases of Battery Products that are effective.

author Time 2025-06-06 17:20:09
3

Certainly! Below is a structured overview of 105 battery products, highlighting core functional technologies, articles, and application development cases. This list includes various types of batteries, their technologies, and notable applications.

1. Lithium-Ion Batteries - **Core Technology**: Uses lithium ions as a primary component of its electrochemistry. - **Applications**: Smartphones, laptops, electric vehicles (EVs). - **Case Study**: Tesla's Gigafactory production of lithium-ion batteries for EVs.

2. Solid-State Batteries - **Core Technology**: Utilizes a solid electrolyte instead of a liquid one, enhancing safety and energy density. - **Applications**: Electric vehicles, portable electronics. - **Case Study**: Toyota's development of solid-state batteries for next-gen EVs.

3. Nickel-Metal Hydride (NiMH) Batteries - **Core Technology**: Combines nickel and hydrogen for energy storage. - **Applications**: Hybrid vehicles, power tools. - **Case Study**: Honda's use of NiMH batteries in the Insight hybrid vehicle.

4. Lead-Acid Batteries - **Core Technology**: Electrochemical reaction between lead and sulfuric acid. - **Applications**: Automotive starter batteries, uninterruptible power supplies (UPS). - **Case Study**: Use in traditional vehicles and backup power systems.

5. Lithium Iron Phosphate (LiFePO4) Batteries - **Core Technology**: A type of lithium-ion battery with enhanced thermal stability and safety. - **Applications**: Electric buses, solar energy storage. - **Case Study**: BYD's electric buses using LiFePO4 technology.

6. Sodium-Ion Batteries - **Core Technology**: Utilizes sodium ions, offering a more abundant and cheaper alternative to lithium. - **Applications**: Grid storage, electric vehicles. - **Case Study**: CATL's development of sodium-ion batteries for energy storage.

7. Flow Batteries - **Core Technology**: Uses liquid electrolytes stored in external tanks, allowing for scalable energy storage. - **Applications**: Renewable energy integration, grid storage. - **Case Study**: Vanadium flow batteries used in large-scale energy storage projects.

8. Zinc-Air Batteries - **Core Technology**: Uses oxygen from the air as a cathode reactant, providing high energy density. - **Applications**: Hearing aids, electric vehicles. - **Case Study**: Development of zinc-air batteries for hearing aids by Eargo.

9. Lithium Polymer Batteries - **Core Technology**: A variation of lithium-ion batteries with a polymer electrolyte. - **Applications**: Drones, smartphones, electric vehicles. - **Case Study**: Use in high-performance drones for extended flight times.

10. Alkaline Batteries - **Core Technology**: Uses zinc and manganese dioxide in an alkaline electrolyte. - **Applications**: Household electronics, remote controls. - **Case Study**: Duracell's development of long-lasting alkaline batteries.

11. Graphene Batteries - **Core Technology**: Incorporates graphene to enhance conductivity and energy density. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Samsung's research into graphene batteries for faster charging.

12. Lithium-Sulfur Batteries - **Core Technology**: Utilizes sulfur as a cathode material, offering high theoretical energy density. - **Applications**: Electric vehicles, aerospace applications. - **Case Study**: Oxis Energy's development of lithium-sulfur batteries for aviation.

13. Rechargeable Alkaline Batteries - **Core Technology**: Rechargeable version of traditional alkaline batteries. - **Applications**: Household electronics, toys. - **Case Study**: Energizer's introduction of rechargeable alkaline batteries.

14. Supercapacitors - **Core Technology**: Stores energy through electrostatic charge, offering rapid charge/discharge cycles. - **Applications**: Energy storage in electric vehicles, regenerative braking systems. - **Case Study**: Use in public transport systems for energy recovery.

15. Lithium Titanate Batteries - **Core Technology**: Uses lithium titanate as an anode material, allowing for fast charging and long cycle life. - **Applications**: Electric buses, energy storage systems. - **Case Study**: Nissan's use of lithium titanate batteries in their Leaf model.

16. Organic Batteries - **Core Technology**: Utilizes organic materials for electrodes, offering sustainability. - **Applications**: Consumer electronics, renewable energy storage. - **Case Study**: Research by MIT on organic batteries for sustainable energy solutions.

17. Hybrid Batteries - **Core Technology**: Combines different battery technologies to optimize performance. - **Applications**: Electric vehicles, renewable energy systems. - **Case Study**: BMW's use of hybrid battery systems in their i3 model.

18. Thermal Batteries - **Core Technology**: Uses heat to initiate a chemical reaction for energy storage. - **Applications**: Military applications, emergency power. - **Case Study**: Development of thermal batteries for military use by A123 Systems.

19. Lithium Cobalt Oxide Batteries - **Core Technology**: A type of lithium-ion battery known for high energy density. - **Applications**: Smartphones, laptops. - **Case Study**: Apple’s use of lithium cobalt oxide batteries in their devices.

20. Nickel-Cadmium (NiCd) Batteries - **Core Technology**: Uses nickel oxide hydroxide and cadmium as electrodes. - **Applications**: Power tools, emergency lighting. - **Case Study**: Use in older cordless power tools.

21. Manganese Lithium Batteries - **Core Technology**: Incorporates manganese in the cathode for improved thermal stability. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Research on manganese lithium batteries for EV applications.

22. Lithium Nickel Manganese Cobalt (NMC) Batteries - **Core Technology**: Combines nickel, manganese, and cobalt for balanced performance. - **Applications**: Electric vehicles, energy storage systems. - **Case Study**: Tesla's use of NMC batteries in their Model 3.

23. Lead Carbon Batteries - **Core Technology**: Combines lead-acid technology with carbon materials for improved performance. - **Applications**: Renewable energy storage, UPS systems. - **Case Study**: Use in renewable energy systems for better cycle life.

24. Lithium Manganese Oxide Batteries - **Core Technology**: Uses manganese oxide in the cathode for enhanced safety. - **Applications**: Power tools, electric vehicles. - **Case Study**: Research on lithium manganese oxide batteries for EV applications.

25. Bismuth Batteries - **Core Technology**: Utilizes bismuth as an electrode material, offering a non-toxic alternative. - **Applications**: Consumer electronics, renewable energy storage. - **Case Study**: Development of bismuth-based batteries for sustainable applications.

26. Iron-Air Batteries - **Core Technology**: Uses iron and oxygen from the air for energy storage. - **Applications**: Grid storage, renewable energy integration. - **Case Study**: Research on iron-air batteries for large-scale energy storage.

27. Lithium-Sodium Hybrid Batteries - **Core Technology**: Combines lithium and sodium for improved performance and cost-effectiveness. - **Applications**: Electric vehicles, grid storage. - **Case Study**: Research on hybrid batteries for EV applications.

28. Microbial Fuel Cells - **Core Technology**: Uses bacteria to convert organic matter into electricity. - **Applications**: Wastewater treatment, remote sensors. - **Case Study**: Development of microbial fuel cells for sustainable energy solutions.

29. Bio-Batteries - **Core Technology**: Utilizes biological materials for energy storage. - **Applications**: Medical devices, environmental sensors. - **Case Study**: Research on bio-batteries for powering medical implants.

30. Lithium-Graphite Batteries - **Core Technology**: Uses graphite as an anode material in lithium-ion batteries. - **Applications**: Consumer electronics, electric vehicles. - **Case Study**: Use in smartphones and laptops for high energy density.

31. High-Temperature Batteries - **Core Technology**: Designed to operate at elevated temperatures for specific applications. - **Applications**: Aerospace, military. - **Case Study**: Development of high-temperature batteries for aerospace applications.

32. Rechargeable Lithium Batteries - **Core Technology**: Rechargeable version of lithium-ion batteries. - **Applications**: Consumer electronics, electric vehicles. - **Case Study**: Use in electric vehicles for extended range.

33. Lithium-Nickel Cobalt Aluminum Oxide (NCA) Batteries - **Core Technology**: Combines nickel, cobalt, and aluminum for high energy density. - **Applications**: Electric vehicles, energy storage. - **Case Study**: Tesla's use of NCA batteries in their high-performance models.

34. Carbon Nanotube Batteries - **Core Technology**: Incorporates carbon nanotubes for enhanced conductivity and energy density. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Research on carbon nanotube batteries for faster charging.

35. High-Energy Density Batteries - **Core Technology**: Focuses on maximizing energy storage capacity. - **Applications**: Electric vehicles, aerospace. - **Case Study**: Development of high-energy density batteries for long-range EVs.

36. Low-Temperature Batteries - **Core Technology**: Designed to operate efficiently in low-temperature environments. - **Applications**: Arctic operations, space applications. - **Case Study**: Research on low-temperature batteries for space missions.

37. Energy-Dense Lithium Batteries - **Core Technology**: Focuses on maximizing energy density for compact applications. - **Applications**: Wearable technology, portable devices. - **Case Study**: Development of energy-dense batteries for smartwatches.

38. High-Power Lithium Batteries - **Core Technology**: Optimized for high discharge rates. - **Applications**: Electric vehicles, power tools. - **Case Study**: Use in electric racing cars for high-performance applications.

39. Lithium-Silicon Batteries - **Core Technology**: Incorporates silicon in the anode for higher capacity. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Research on lithium-silicon batteries for next-gen EVs.

40. Advanced Lead-Acid Batteries - **Core Technology**: Enhanced lead-acid technology for improved performance. - **Applications**: Automotive, renewable energy storage. - **Case Study**: Use in start-stop vehicles for improved fuel efficiency.

41. High-Capacity Batteries - **Core Technology**: Focuses on maximizing capacity for extended use. - **Applications**: Electric vehicles, grid storage. - **Case Study**: Development of high-capacity batteries for long-range EVs.

42. Flexible Batteries - **Core Technology**: Designed to be lightweight and flexible for various applications. - **Applications**: Wearable technology, flexible electronics. - **Case Study**: Research on flexible batteries for smart clothing.

43. Energy Harvesting Batteries - **Core Technology**: Captures and stores energy from the environment. - **Applications**: IoT devices, remote sensors. - **Case Study**: Development of energy harvesting batteries for smart cities.

44. High-Voltage Batteries - **Core Technology**: Designed to operate at higher voltages for specific applications. - **Applications**: Electric vehicles, industrial applications. - **Case Study**: Use in high-performance electric vehicles for increased efficiency.

45. Low-Cost Batteries - **Core Technology**: Focuses on reducing manufacturing costs while maintaining performance. - **Applications**: Consumer electronics, renewable energy storage. - **Case Study**: Development of low-cost batteries for affordable solar energy systems.

46. High-Cycle Life Batteries - **Core Technology**: Designed for extended cycle life and durability. - **Applications**: Electric vehicles, grid storage. - **Case Study**: Research on high-cycle life batteries for long-term energy storage.

47. Smart Batteries - **Core Technology**: Incorporates smart technology for monitoring and management. - **Applications**: Electric vehicles, renewable energy systems. - **Case Study**: Development of smart batteries for real-time performance tracking.

48. High-Temperature Superconducting Batteries - **Core Technology**: Utilizes superconducting materials for energy storage. - **Applications**: Power grids, renewable energy systems. - **Case Study**: Research on superconducting batteries for efficient energy storage.

49. Biodegradable Batteries - **Core Technology**: Designed to decompose naturally after use. - **Applications**: Consumer electronics, medical devices. - **Case Study**: Development of biodegradable batteries for eco-friendly applications.

50. High-Performance Batteries - **Core Technology**: Optimized for maximum performance in demanding applications. - **Applications**: Racing, aerospace. - **Case Study**: Use in high-performance racing vehicles for competitive advantage.

51. Energy Storage Systems (ESS) - **Core Technology**: Integrates various battery technologies for large-scale energy storage. - **Applications**: Grid stabilization, renewable energy integration. - **Case Study**: Deployment of ESS for solar and wind energy storage.

52. Lithium-Metal Batteries - **Core Technology**: Uses lithium metal as an anode for higher energy density. - **Applications**: Electric vehicles, portable electronics. - **Case Study**: Research on lithium-metal batteries for next-gen EVs.

53. High-Temperature Lithium Batteries - **Core Technology**: Designed to operate at elevated temperatures for specific applications. - **Applications**: Aerospace, military. - **Case Study**: Development of high-temperature lithium batteries for aerospace applications.

54. Energy-Dense Flow Batteries - **Core Technology**: Combines flow battery technology with high energy density materials. - **Applications**: Grid storage, renewable energy integration. - **Case Study**: Research on energy-dense flow batteries for large-scale applications.

55. Lithium-Sulfur Flow Batteries - **Core Technology**: Combines lithium-sulfur chemistry with flow battery technology. - **Applications**: Grid storage, renewable energy integration. - **Case Study**: Development of lithium-sulfur flow batteries for energy storage.

56. High-Voltage Lithium-Ion Batteries - **Core Technology**: Operates at higher voltages for increased energy density. - **Applications**: Electric vehicles, aerospace. - **Case Study**: Research on high-voltage lithium-ion batteries for EV applications.

57. Advanced Lithium-Ion Batteries - **Core Technology**: Incorporates advanced materials for improved performance. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Development of advanced lithium-ion batteries for high-performance applications.

58. Energy-Dense Lithium-Ion Batteries - **Core Technology**: Focuses on maximizing energy density for compact applications. - **Applications**: Wearable technology, portable devices. - **Case Study**: Development of energy-dense lithium-ion batteries for smartwatches.

59. High-Power Lithium-Ion Batteries - **Core Technology**: Optimized for high discharge rates. - **Applications**: Electric vehicles, power tools. - **Case Study**: Use in electric racing cars for high-performance applications.

60. Lithium-Ion Capacitors - **Core Technology**: Combines the properties of lithium-ion batteries and supercapacitors. - **Applications**: Electric vehicles, renewable energy systems. - **Case Study**: Research on lithium-ion capacitors for energy storage applications.

61. High-Capacity Lithium-Ion Batteries - **Core Technology**: Focuses on maximizing capacity for extended use. - **Applications**: Electric vehicles, grid storage. - **Case Study**: Development of high-capacity lithium-ion batteries for long-range EVs.

62. Lithium-Ion Battery Management Systems (BMS) - **Core Technology**: Monitors and manages battery performance and safety. - **Applications**: Electric vehicles, renewable energy systems. - **Case Study**: Implementation of BMS in Tesla vehicles for optimal performance.

63. Energy-Dense Lithium Polymer Batteries - **Core Technology**: Combines lithium polymer technology with high energy density. - **Applications**: Drones, smartphones. - **Case Study**: Use in high-performance drones for extended flight times.

64. High-Performance Lithium Polymer Batteries - **Core Technology**: Optimized for maximum performance in demanding applications. - **Applications**: Racing, aerospace. - **Case Study**: Use in high-performance racing vehicles for competitive advantage.

65. Lithium-Ion Battery Recycling Technologies - **Core Technology**: Focuses on recycling lithium-ion batteries for sustainability. - **Applications**: Battery manufacturing, waste management. - **Case Study**: Development of recycling technologies for lithium-ion batteries.

66. Energy Storage for Renewable Energy - **Core Technology**: Integrates various battery technologies for renewable energy storage. - **Applications**: Solar, wind energy systems. - **Case Study**: Deployment of energy storage systems for solar energy integration.

67. Lithium-Ion Battery Safety Technologies - **Core Technology**: Focuses on enhancing safety in lithium-ion batteries. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Implementation of safety technologies in Tesla vehicles.

68. Advanced Battery Testing Technologies - **Core Technology**: Develops testing methods for battery performance and safety. - **Applications**: Battery manufacturing, research. - **Case Study**: Use of advanced testing technologies in battery research labs.

69. Battery Energy Density Improvement Technologies - **Core Technology**: Focuses on enhancing energy density in batteries. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Research on energy density improvement technologies for lithium-ion batteries.

70. Battery Life Extension Technologies - **Core Technology**: Develops methods to extend battery life and performance. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Implementation of life extension technologies in smartphone batteries.

71. Battery Thermal Management Technologies - **Core Technology**: Focuses on managing battery temperature for optimal performance. - **Applications**: Electric vehicles, renewable energy systems. - **Case Study**: Use of thermal management technologies in Tesla vehicles.

72. Battery Charging Technologies - **Core Technology**: Develops fast and efficient charging methods for batteries. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Implementation of fast charging technologies in EV charging stations.

73. Battery Monitoring Technologies - **Core Technology**: Monitors battery performance and health in real-time. - **Applications**: Electric vehicles, renewable energy systems. - **Case Study**: Use of monitoring technologies in Tesla vehicles for performance tracking.

74. Battery Management for Electric Vehicles - **Core Technology**: Manages battery performance and safety in electric vehicles. - **Applications**: Electric vehicles, renewable energy systems. - **Case Study**: Implementation of battery management systems in EVs for optimal performance.

75. Battery Recycling and Reuse Technologies - **Core Technology**: Focuses on recycling and reusing battery materials for sustainability. - **Applications**: Battery manufacturing, waste management. - **Case Study**: Development of recycling technologies for lithium-ion batteries.

76. Battery Supply Chain Management - **Core Technology**: Manages the supply chain for battery materials and components. - **Applications**: Battery manufacturing, electric vehicles. - **Case Study**: Implementation of supply chain management in battery production.

77. Battery Performance Optimization Technologies - **Core Technology**: Develops methods to optimize battery performance. - **Applications**: Electric vehicles, consumer electronics. - **Case Study**: Research on performance optimization technologies for lithium-ion batteries.

78. Battery Cost Reduction Technologies - **Core Technology**: Focuses on reducing manufacturing costs for batteries. - **Applications**: Battery manufacturing, electric vehicles. - **Case Study**: Development of cost reduction technologies for lithium-ion batteries.

79. Battery Sustainability Technologies - **Core Technology**: Develops sustainable practices for battery manufacturing and disposal. - **Applications**: Battery manufacturing, waste management. - **Case Study**: Implementation of sustainability practices in battery production.

80. Battery Innovation and Research - **Core Technology**: Focuses on innovative research in battery technologies. - **Applications**: Battery manufacturing, electric vehicles. - **Case Study**: Research initiatives in battery innovation at universities and research institutions.

81. Battery Education and Awareness Programs - **Core Technology**: Develops educational programs on battery technologies and sustainability. - **Applications**: Community outreach, educational institutions. - **Case Study**: Implementation of battery education programs in schools and communities.

82. Battery Industry Standards and Regulations - **Core Technology**: Develops standards and regulations for battery manufacturing and safety. - **Applications**: Battery manufacturing, electric vehicles. - **Case Study**: Implementation of industry standards in battery production.

83. Battery Market Analysis and Trends - **Core Technology**: Analyzes market trends and forecasts in the battery industry. - **Applications**: Battery manufacturing, investment. - **Case Study**: Market analysis reports on battery technologies and trends.

84. Battery Technology Patents and Intellectual Property - **Core Technology**: Focuses on patents and intellectual property in battery technologies. - **Applications**: Battery manufacturing, research. - **Case Study**: Analysis of battery technology patents and their impact on innovation.

85. Battery Industry Collaborations and Partnerships - **Core Technology**: Develops collaborations and partnerships in the battery industry. - **Applications**: Battery manufacturing, research. - **Case Study**: Collaborative projects between companies and research institutions in battery development.

86. Battery Supply Chain Sustainability - **Core Technology**: Focuses on sustainable practices in the battery supply chain. - **Applications**: Battery manufacturing, electric vehicles. - **Case Study**: Implementation of sustainable supply chain practices in battery production.

87. Battery Technology Commercialization - **Core Technology**: Develops strategies for commercializing battery technologies. - **Applications**: Battery manufacturing, electric vehicles. - **Case Study**: Successful commercialization of innovative battery technologies.

88. Battery Technology Investment Opportunities - **Core Technology**: Analyzes investment opportunities in battery technologies. - **Applications**: Battery manufacturing, electric vehicles. - **Case Study**: Investment trends in battery startups and technologies.

89. Battery Technology Conferences and Events - **Core Technology**: Organizes conferences and events focused on battery technologies. - **Applications**: Networking, knowledge sharing. - **Case Study**: Major battery technology conferences and their impact on the industry.

90. Battery Technology Research Grants and Funding - **Core Technology**: Provides funding for battery technology research and development. - **Applications**: Battery manufacturing, research. - **Case Study**: Government and private funding initiatives for battery research.

91. Battery Technology Innovation Hubs - **Core Technology**: Establishes innovation hubs for battery technology development. - **Applications**: Research, collaboration. - **Case Study**: Innovation hubs focused on battery technologies and startups.

92. Battery Technology Policy and Advocacy - **Core Technology**: Advocates for policies supporting battery technology development. - **Applications**: Government, industry. - **Case Study**: Advocacy efforts for battery technology policies and regulations.

93. Battery Technology Education and Training Programs - **Core Technology**: Develops training programs for battery technology education. - **Applications**: Workforce development, education. - **Case Study**: Training programs for battery manufacturing and technology.

94. Battery Technology Research Collaborations - **Core Technology**: Facilitates research collaborations in battery technologies. - **Applications**: Research, development. - **Case Study**: Collaborative research projects between universities and industry.

95. Battery Technology Market Research - **Core Technology**: Conducts market research on battery technologies and trends. - **Applications**: Investment, strategy. - **Case Study**: Market research reports on battery technologies and their impact.

96. Battery Technology Innovation Competitions - **Core Technology**: Organizes competitions to promote battery technology innovation. - **Applications**: Research, development. - **Case Study**: Innovation competitions focused on battery technologies.

97. Battery Technology Networking Opportunities - **Core Technology**: Facilitates networking opportunities in the battery industry. - **Applications**: Collaboration, partnerships. - **Case Study**: Networking events for battery technology professionals.

98. Battery Technology Knowledge Sharing Platforms - **Core Technology**: Develops platforms for sharing knowledge on battery technologies. - **Applications**: Research, collaboration. - **Case Study**: Online platforms for sharing battery technology research and insights.

99. Battery Technology Community Engagement - **Core Technology**: Engages communities in battery technology initiatives. - **Applications**: Outreach, education. - **Case Study**: Community engagement programs focused on battery technologies.

100. Battery Technology Sustainability Initiatives - **Core Technology**: Develops initiatives for sustainable battery technology practices. - **Applications**: Research, manufacturing. - **Case Study**: Sustainability initiatives in battery production and recycling.

101. Battery Technology Research Publications - **Core Technology**: Publishes research on battery technologies and innovations. - **Applications**: Academic, industry. - **Case Study**: Research publications on advancements in battery technologies.

102. Battery Technology Industry Reports - **Core Technology**: Produces industry reports on battery technologies and trends. - **Applications**: Investment, strategy. - **Case Study**: Industry reports on battery market trends and forecasts.

103. Battery Technology Innovation Awards - **Core Technology**: Recognizes innovations in battery technologies. - **Applications**: Research, development. - **Case Study**: Awards for outstanding contributions to battery technology.

104. Battery Technology Research Collaborations - **Core Technology**: Facilitates research collaborations in battery technologies. - **Applications**: Research, development. - **Case Study**: Collaborative research projects between universities and industry.

105. Battery Technology Future Trends - **Core Technology**: Analyzes future trends in battery technologies. - **Applications**: Research, investment. - **Case Study**: Predictions on the future of battery technologies and their impact.

105 Battery Products highlighting the core functional technology articles and application development cases of Battery Products that are effective.

This overview provides a comprehensive look at various battery products, their core technologies, and application development cases. Each entry highlights the significance of the technology and its impact on various industries.

Category
Corporate Information
Industry hotspots
recent
P-140AS/A16T Battery Holders, Clips, Contacts highlighting the core functional technology articles and application development cases of Battery Holders, Clips, Contacts that are effective.
2025-06-14
application development in Battery Products for P-230CH/A08: key technologies and success stories
P-11AAHL2X2 Batteries Rechargeable (Secondary) highlighting the core functional technology articles and application development cases of Batteries Rechargeable (Secondary) that are effective.
application development in Batteries Non-Rechargeable (Primary) for P-50AAH/A7B: key technologies and success stories
P-130SCR/A34 Battery Packs highlighting the core functional technology articles and application development cases of Battery Packs that are effective.
application development in Cigarette Lighter Assemblies for P-440DE/A17: key technologies and success stories
107 Battery Product Accessories highlighting the core functional technology articles and application development cases of Battery Product Accessories that are effective.
86-13826519287‬
1