BCS inn i 2024 - veien videre.
Ny tråd, nye muligheter.
Tråd om BCS inn i 2024. Kurs i skrivende stund 6,60-7 kr etter nytt kvartalspresentasjon med lite substans, men heller ikke røde flagg.
Tråd om BCS inn i 2024. Kurs i skrivende stund 6,60-7 kr etter nytt kvartalspresentasjon med lite substans, men heller ikke røde flagg.
Redigert 10.05.2024 kl 09:07
Du må logge inn for å svare
Greenlook
I går kl 11:47
540
OZZY skrev Hvem er kundene til bcs ?
Ingen kunder, ingen inntjening, ingen kontrakter, ingen kommunikasjon og ingen produkt. Man kan jo lure på hvorfor man satte sparepengene her. Siste mann får slukke lyset, tipper det er FaderGem
Solid State
I går kl 14:21
464
Ikke_viktig
I går kl 17:18
391
what are coin cell battery labs for
ChatGPT
Coin cell battery labs are specialized facilities or setups used for the research, development, and testing of coin cell batteries, which are small, round, single-cell batteries commonly used in compact electronic devices like watches, calculators, hearing aids, and small medical devices. These labs focus on various aspects of coin cell battery technology, including:
Materials Research:
Investigating new materials for electrodes, electrolytes, and separators to improve battery performance, such as energy density, lifespan, and safety.
Developing and testing advanced materials like new cathode and anode materials, solid-state electrolytes, and novel separator materials.
Battery Design and Fabrication:
Designing and fabricating prototype coin cells to test new materials and battery chemistries.
Optimizing the design and manufacturing processes to enhance battery performance and reliability.
Performance Testing:
Conducting various tests to evaluate the performance of coin cells, including capacity, cycle life, charge/discharge rates, and thermal stability.
Testing batteries under different conditions to ensure they meet required standards and specifications for their intended applications.
Failure Analysis and Safety Testing:
Analyzing the failure modes of coin cell batteries to identify potential issues and improve their safety and reliability.
Conducting safety tests such as overcharge, short-circuit, and thermal runaway tests to ensure the batteries are safe for consumer use.
Electrochemical Analysis:
Performing electrochemical impedance spectroscopy (EIS), cyclic voltammetry (CV), and other electrochemical techniques to understand the behavior of battery materials and interfaces.
Investigating the electrochemical processes occurring within the battery to improve its efficiency and performance.
Prototyping and Scale-Up:
Developing scalable manufacturing processes for coin cell batteries to transition from laboratory prototypes to commercial production.
Collaborating with manufacturers to implement new technologies and materials in mass-produced coin cell batteries.
Environmental and Lifecycle Testing:
Assessing the environmental impact of coin cell batteries, including their recyclability and disposal.
Conducting lifecycle analysis to determine the overall sustainability of the battery technology.
Coin cell battery labs are crucial for advancing battery technology, enabling the development of more efficient, durable, and safer batteries for a wide range of applications.
CHATGPT svar
Så mens dere er desperate etter å få en lavere kurs så driver selskapet nå med R&D på høygir. Vi får se hvem som er inne og ute når/om/hvis de lykkes
ChatGPT
Coin cell battery labs are specialized facilities or setups used for the research, development, and testing of coin cell batteries, which are small, round, single-cell batteries commonly used in compact electronic devices like watches, calculators, hearing aids, and small medical devices. These labs focus on various aspects of coin cell battery technology, including:
Materials Research:
Investigating new materials for electrodes, electrolytes, and separators to improve battery performance, such as energy density, lifespan, and safety.
Developing and testing advanced materials like new cathode and anode materials, solid-state electrolytes, and novel separator materials.
Battery Design and Fabrication:
Designing and fabricating prototype coin cells to test new materials and battery chemistries.
Optimizing the design and manufacturing processes to enhance battery performance and reliability.
Performance Testing:
Conducting various tests to evaluate the performance of coin cells, including capacity, cycle life, charge/discharge rates, and thermal stability.
Testing batteries under different conditions to ensure they meet required standards and specifications for their intended applications.
Failure Analysis and Safety Testing:
Analyzing the failure modes of coin cell batteries to identify potential issues and improve their safety and reliability.
Conducting safety tests such as overcharge, short-circuit, and thermal runaway tests to ensure the batteries are safe for consumer use.
Electrochemical Analysis:
Performing electrochemical impedance spectroscopy (EIS), cyclic voltammetry (CV), and other electrochemical techniques to understand the behavior of battery materials and interfaces.
Investigating the electrochemical processes occurring within the battery to improve its efficiency and performance.
Prototyping and Scale-Up:
Developing scalable manufacturing processes for coin cell batteries to transition from laboratory prototypes to commercial production.
Collaborating with manufacturers to implement new technologies and materials in mass-produced coin cell batteries.
Environmental and Lifecycle Testing:
Assessing the environmental impact of coin cell batteries, including their recyclability and disposal.
Conducting lifecycle analysis to determine the overall sustainability of the battery technology.
Coin cell battery labs are crucial for advancing battery technology, enabling the development of more efficient, durable, and safer batteries for a wide range of applications.
CHATGPT svar
Så mens dere er desperate etter å få en lavere kurs så driver selskapet nå med R&D på høygir. Vi får se hvem som er inne og ute når/om/hvis de lykkes
Redigert i går kl 17:20
Du må logge inn for å svare
Ikke_viktig
I går kl 17:22
387
Så kan vi ta med den siste milestone de kom med:
We are proud to announce that our newly developed battery lab has successfully fabricated its first reference test cells! This significant achievement is a testament to our team's dedication and hard work in our ongoing efforts to innovate, conduct R&D, and optimize our green carbon products.
This milestone marks a new chapter in our journey toward advancing our green carbon products into next generation battery chemistries.
A big thank you to everyone involved in making this happen.
Lykke til...
We are proud to announce that our newly developed battery lab has successfully fabricated its first reference test cells! This significant achievement is a testament to our team's dedication and hard work in our ongoing efforts to innovate, conduct R&D, and optimize our green carbon products.
This milestone marks a new chapter in our journey toward advancing our green carbon products into next generation battery chemistries.
A big thank you to everyone involved in making this happen.
Lykke til...
FaderGem
I går kl 19:07
343
Eller du får se FaderGem vandrende i midten, hånd i hånd med Mor Blydt Svendsen og Awilco, i slow motion glise fra øre til øre da gjennombruddet kommer.
Lysbryteren får du leke med så mye du vil for min del.
Lysbryteren får du leke med så mye du vil for min del.
OZZY
I går kl 20:03
308
https://www.nordnet.no/market/stocks/17395516-quantum-scape-a
https://www.nordnet.no/market/stocks/17646555-solid-power-a
Fremtidens batteri ?
Disse firmaene har forsket på dette i MANGE år. Nå kommer resultatet
https://www.nordnet.no/market/stocks/17646555-solid-power-a
Fremtidens batteri ?
Disse firmaene har forsket på dette i MANGE år. Nå kommer resultatet
Redigert i går kl 20:08
Du må logge inn for å svare
Heggøyen
I går kl 20:37
282
Måtte Odd fyre av en heidundrandes NEWSWEB melding nå som mange har solgt. Da skal man få løpe fort etter.
Solid State
I dag kl 03:05
176
SOLGT ? Noen har også kjøpt ? ……….. eller….
Ingen har kjøpt pga den nye teknologien UTEN men pga uvitenhet.
Ingen har kjøpt pga den nye teknologien UTEN men pga uvitenhet.
Redigert i dag kl 03:07
Du må logge inn for å svare
Ikke_viktig
I dag kl 08:54
102
If your goals is to manufacture next generation battery materials why would you need a battery lab?
ChatGPT
If your goal is to manufacture next-generation battery materials, having a battery lab is essential for several reasons:
Material Characterization:
To thoroughly understand the properties of new materials, such as their electrochemical behavior, conductivity, stability, and interaction with other components of the battery.
Prototype Development:
To fabricate prototype batteries using the new materials and assess their real-world performance. This helps in transitioning from theoretical concepts and lab-scale materials to practical, usable battery components.
Performance Evaluation:
To conduct comprehensive performance testing of batteries made with the new materials. This includes evaluating metrics like energy density, power density, cycle life, charge/discharge rates, and overall efficiency.
Optimization and Refinement:
To optimize the composition and fabrication processes of the new materials to maximize their performance and compatibility within the battery system. Iterative testing and modification are often necessary to refine materials and processes.
Failure Analysis and Safety Testing:
To identify potential failure modes and safety issues associated with the new materials. Understanding how new materials behave under various conditions (e.g., overcharging, high temperatures) is crucial for ensuring the safety and reliability of the final battery product.
Integration with Existing Technologies:
To test how new materials integrate with existing battery technologies and components. Compatibility with current manufacturing processes and standards is key to practical implementation.
Benchmarking Against Standards:
To compare the performance of batteries with new materials against industry standards and existing technologies. This helps in demonstrating the advantages of the new materials and in making a compelling case for their adoption.
Environmental and Lifecycle Analysis:
To assess the environmental impact, recyclability, and overall sustainability of the new materials throughout the battery's lifecycle. This is increasingly important for meeting regulatory requirements and consumer expectations.
Collaboration and Scale-Up:
To collaborate with industry partners and scale up the production of new materials. Demonstrating the effectiveness of materials in a controlled lab environment is a critical step before moving to pilot and commercial-scale production.
Regulatory Compliance and Certification:
To ensure that batteries using new materials comply with relevant regulations and certification requirements. Rigorous testing in a lab setting is necessary to meet these standards and gain market approval.
In summary, a battery lab provides the necessary infrastructure and expertise to rigorously test, refine, and validate new battery materials, ensuring they are viable for practical applications and can be successfully integrated into commercial battery technologies.
ChatGPT
If your goal is to manufacture next-generation battery materials, having a battery lab is essential for several reasons:
Material Characterization:
To thoroughly understand the properties of new materials, such as their electrochemical behavior, conductivity, stability, and interaction with other components of the battery.
Prototype Development:
To fabricate prototype batteries using the new materials and assess their real-world performance. This helps in transitioning from theoretical concepts and lab-scale materials to practical, usable battery components.
Performance Evaluation:
To conduct comprehensive performance testing of batteries made with the new materials. This includes evaluating metrics like energy density, power density, cycle life, charge/discharge rates, and overall efficiency.
Optimization and Refinement:
To optimize the composition and fabrication processes of the new materials to maximize their performance and compatibility within the battery system. Iterative testing and modification are often necessary to refine materials and processes.
Failure Analysis and Safety Testing:
To identify potential failure modes and safety issues associated with the new materials. Understanding how new materials behave under various conditions (e.g., overcharging, high temperatures) is crucial for ensuring the safety and reliability of the final battery product.
Integration with Existing Technologies:
To test how new materials integrate with existing battery technologies and components. Compatibility with current manufacturing processes and standards is key to practical implementation.
Benchmarking Against Standards:
To compare the performance of batteries with new materials against industry standards and existing technologies. This helps in demonstrating the advantages of the new materials and in making a compelling case for their adoption.
Environmental and Lifecycle Analysis:
To assess the environmental impact, recyclability, and overall sustainability of the new materials throughout the battery's lifecycle. This is increasingly important for meeting regulatory requirements and consumer expectations.
Collaboration and Scale-Up:
To collaborate with industry partners and scale up the production of new materials. Demonstrating the effectiveness of materials in a controlled lab environment is a critical step before moving to pilot and commercial-scale production.
Regulatory Compliance and Certification:
To ensure that batteries using new materials comply with relevant regulations and certification requirements. Rigorous testing in a lab setting is necessary to meet these standards and gain market approval.
In summary, a battery lab provides the necessary infrastructure and expertise to rigorously test, refine, and validate new battery materials, ensuring they are viable for practical applications and can be successfully integrated into commercial battery technologies.
Ikke_viktig
I dag kl 08:55
101
How far are you in this process if you issue a news about reaching a milestone where you have created reference test cells
ChatGPT
Issuing a news update about reaching a milestone where you have created reference test cells suggests that you have made significant progress in the development process of next-generation battery materials. Here's what this typically indicates about your current status:
Material Development and Validation:
You have successfully developed and synthesized new battery materials that show promise based on initial laboratory tests.
Prototype Fabrication:
You have fabricated prototype reference test cells using these new materials. This involves assembling these materials into a functioning battery cell format, which is a critical step towards practical application.
Initial Performance Testing:
You have conducted preliminary performance tests on these reference test cells to validate their basic electrochemical properties and functionality. This includes measuring parameters like capacity, energy density, charge/discharge rates, and initial cycle life.
Proof of Concept:
You have demonstrated proof of concept that the new materials can be used to create functional battery cells, which is a major milestone in the development process.
Benchmarking:
You have likely conducted some benchmarking against existing battery technologies to showcase the potential advantages of your new materials.
Internal Validation:
Internal validation of the reference test cells has been completed, providing confidence that the new materials work as intended in a complete cell configuration.
Next Steps After Creating Reference Test Cells
Extended Testing and Optimization:
Conduct more extensive performance testing over a larger number of cycles and under various conditions to better understand the long-term stability and performance characteristics of the new materials.
Optimize the composition and fabrication process based on these tests to further enhance performance.
Scale-Up Experiments:
Begin scaling up the production of the new materials to produce larger quantities for further testing and potential pilot-scale production.
Safety and Reliability Testing:
Perform detailed safety and reliability tests, including thermal stability, abuse tests, and failure mode analysis to ensure the new materials are safe for commercial use.
Collaboration and Pilot Production:
Collaborate with industry partners to integrate the new materials into larger format cells and modules.
Initiate pilot production runs to test the manufacturing scalability and process integration.
Regulatory and Certification Processes:
Prepare for regulatory compliance and certification processes, ensuring that the new materials and battery cells meet all necessary standards and regulations for commercialization.
Commercialization Strategy:
Develop a commercialization strategy, including identifying potential markets, applications, and partnerships to bring the new battery technology to market.
Creating reference test cells is a significant milestone that indicates a solid foundation for further development, testing, and eventual commercialization of your next-generation battery materials.
ChatGPT
Issuing a news update about reaching a milestone where you have created reference test cells suggests that you have made significant progress in the development process of next-generation battery materials. Here's what this typically indicates about your current status:
Material Development and Validation:
You have successfully developed and synthesized new battery materials that show promise based on initial laboratory tests.
Prototype Fabrication:
You have fabricated prototype reference test cells using these new materials. This involves assembling these materials into a functioning battery cell format, which is a critical step towards practical application.
Initial Performance Testing:
You have conducted preliminary performance tests on these reference test cells to validate their basic electrochemical properties and functionality. This includes measuring parameters like capacity, energy density, charge/discharge rates, and initial cycle life.
Proof of Concept:
You have demonstrated proof of concept that the new materials can be used to create functional battery cells, which is a major milestone in the development process.
Benchmarking:
You have likely conducted some benchmarking against existing battery technologies to showcase the potential advantages of your new materials.
Internal Validation:
Internal validation of the reference test cells has been completed, providing confidence that the new materials work as intended in a complete cell configuration.
Next Steps After Creating Reference Test Cells
Extended Testing and Optimization:
Conduct more extensive performance testing over a larger number of cycles and under various conditions to better understand the long-term stability and performance characteristics of the new materials.
Optimize the composition and fabrication process based on these tests to further enhance performance.
Scale-Up Experiments:
Begin scaling up the production of the new materials to produce larger quantities for further testing and potential pilot-scale production.
Safety and Reliability Testing:
Perform detailed safety and reliability tests, including thermal stability, abuse tests, and failure mode analysis to ensure the new materials are safe for commercial use.
Collaboration and Pilot Production:
Collaborate with industry partners to integrate the new materials into larger format cells and modules.
Initiate pilot production runs to test the manufacturing scalability and process integration.
Regulatory and Certification Processes:
Prepare for regulatory compliance and certification processes, ensuring that the new materials and battery cells meet all necessary standards and regulations for commercialization.
Commercialization Strategy:
Develop a commercialization strategy, including identifying potential markets, applications, and partnerships to bring the new battery technology to market.
Creating reference test cells is a significant milestone that indicates a solid foundation for further development, testing, and eventual commercialization of your next-generation battery materials.