The efficiency of the battery system in any electric vehicle (EV) determines its cost and vehicle performance. Challenges, such as range anxiety and charging time, have been a hindrance to increasing EV sales.
As a leading market intelligence firm, BIS Research strives to stay on top of the latest emerging technologies in the mobility sector, among several other industry verticals.
In the bid to do the same, BIS is conducting a deep intelligence webinar on the current paradigm shift happening for battery technologies in electric vehicles.
Here are all the details:
Webinar Topic: Emerging Battery Chemistries | Reimagining EVs Beyond Conventional Li-Ion Batteries
E-mobility | Part 2 - Battery Technology & Alternative Innovations (English)Vertex Holdings
Today, 60% of electric vehicles (EVs) are powered by lithium-ion batteries (LIBs) due to its efficiency, high power-to-weight ratio and flexibility to allow chemical alterations. As the EV industry gains steam, supply chain and design challenges are spurring battery manufacturers to explore alternatives.
Some of the alternative battery technologies include lithium-iron phosphate (LFP), lithium-sulfur battery (LSB) and sodium-ion battery (SIB). Besides LFP, LSB and SIB, solid-state batteries (SSBs) are touted as a forerunner for the next-generation battery technology.
Despite these advancements, the current speed of innovation is not accelerating fast enough to meet the demands of the rapidly growing EV sector. This presents opportunities in areas such as battery design and securing the supply chain locally via vertical integration.
As the world welcomes green mobility, commercializing battery technology will be imperative to drive global EV adoption. Given the increased push for battery development and innovation, we believe that it’s only a matter of time before supply catches up with demand.
Find out more here: https://bit.ly/3HUaf1Z
Status of Rechargeable Li-ion Battery Industry 2019 by Yole DéveloppementYole Developpement
E-mobility continues strongly driving the Li-ion battery demand.
More information on https://www.i-micronews.com/products/status-of-rechargeable-li-ion-battery-industry-2019/
E-mobility | Part 2 - Battery Technology & Alternative Innovations (English)Vertex Holdings
Today, 60% of electric vehicles (EVs) are powered by lithium-ion batteries (LIBs) due to its efficiency, high power-to-weight ratio and flexibility to allow chemical alterations. As the EV industry gains steam, supply chain and design challenges are spurring battery manufacturers to explore alternatives.
Some of the alternative battery technologies include lithium-iron phosphate (LFP), lithium-sulfur battery (LSB) and sodium-ion battery (SIB). Besides LFP, LSB and SIB, solid-state batteries (SSBs) are touted as a forerunner for the next-generation battery technology.
Despite these advancements, the current speed of innovation is not accelerating fast enough to meet the demands of the rapidly growing EV sector. This presents opportunities in areas such as battery design and securing the supply chain locally via vertical integration.
As the world welcomes green mobility, commercializing battery technology will be imperative to drive global EV adoption. Given the increased push for battery development and innovation, we believe that it’s only a matter of time before supply catches up with demand.
Find out more here: https://bit.ly/3HUaf1Z
Status of Rechargeable Li-ion Battery Industry 2019 by Yole DéveloppementYole Developpement
E-mobility continues strongly driving the Li-ion battery demand.
More information on https://www.i-micronews.com/products/status-of-rechargeable-li-ion-battery-industry-2019/
The lithium-ion batteries are first made safe for mechanical treatment, with plastics, aluminum, and copper separated and directed to their own recycling processes. Moreover, the incredible efforts are being made to develop electrode materials, electrolytes, and separators for energy storage devices to meet the needs of emerging technologies such as electric vehicles, decarbonizes electricity, and electrochemical energy storage.
E-mobility | Part 3 - Battery recycling & power electronics (English)Vertex Holdings
While electric vehicles (EV) are widely viewed as a scalable green mobility solution, running on batteries may pose an impact on the environment as battery retirement concerns arise.
New innovations are emerging across the battery value chain from raw materials and cell components to battery management and sustainability. Governments and companies worldwide are participating in battery recycling efforts to ease battery material demand and alleviate supply chain concerns. As EV adoption continues to scale, regulators are drafting new laws for battery waste management.
Read more here: https://bit.ly/36mSeft
Lithium-Ion Battery (LIB) Manufacturing Industry. Start a Li-ion Battery Production. Battery Assembling Business
Lithium is a silver-white colored soft metal that belongs to the alkali metal group. Lithium is the lightest element known and has strong electrochemical potential. It is highly reactive element making it flammable and potentially explosive when exposed to air and water and is usually stored in mineral oil to preserve it from corrosion and tarnish.
Lithium-ion batteries have become the most important application of lithium and storage technology in the areas of portable and mobile applications (e.g. laptops, cell phones, smartphones, tablets, power tools, medical devices electric bicycles and electric cars).
See more
https://goo.gl/iaLHB3
Contact us:
Niir Project Consultancy Services
An ISO 9001:2015 Company
106-E, Kamla Nagar, Opp. Spark Mall,
New Delhi-110007, India.
Email: npcs.ei@gmail.com , info@entrepreneurindia.co
Tel: +91-11-23843955, 23845654, 23845886, 8800733955
Mobile: +91-9811043595
Website: www.entrepreneurindia.co , www.niir.org
Tags
#Lithium_Ion_Battery_Assembly, #Li_Ion_Battery_Assembling, Lithium-Ion Battery, #Lithium_Ion_Batteries_Production, Manufacturing of Lithium-Ion Batteries, Lithium-Ion Battery Manufacturing, #Lithium_Ion_Battery_Assembly_Plant, Lithium Ion Battery Manufacturing Process, Lithium Ion Battery Assembly Process, Lithium Ion Battery Manufacturing Cost, How to Set up Lithium Ion Battery Plant in India, #How_to_Start_Lithium_Ion_Battery_Manufacturing_Business, Battery Manufacturing Process, Battery Manufacturing, Lithium Ion Battery Production, Lithium Ion Battery Manufacture, #Production_of_Lithium_Ion_Battery, Battery Assembly, Battery Assembly Plant, Battery Manufacturing Plant, Project Report on Lithium Ion Battery Assembly Industry, Detailed Project Report on Lithium Ion Battery Production, #Project_Report_on_Lithium_Ion_Battery_Manufacturing, Pre-Investment Feasibility Study on Lithium Ion Battery Assembly Plant, Techno-Economic feasibility study on Lithium Ion Battery Assembly Plant, #Feasibility_report_on_Lithium_Ion_Battery_Production, Free Project Profile on Lithium Ion Battery Assembly, Project profile on Lithium Ion Battery Production, #Download_free_project_profile_on_Lithium_Ion_Battery_Assembly, Lithium-Ion Battery Factory, How to Start a Battery Manufacturing Business, Cost of Setting up a Battery Manufacturing Plant, Lithium-Ion Battery Business, #Lithium_Ion_Battery_Manufacturing_Industry
High energy and capacity cathode material for li ion battriesNatraj Hulsure
Recent development in cathode materials for li-ion batteries drag the industries view towards it due to their high discharge rate compare to older ones.
Solid electrolytes for lithium ion solid state batteries patent landscape 201...Knowmade
Report’s Key Features
• PDF with > 250 slides
• Excel file > 5,800 patents
• IP trends, including time-evolution of published patents, legal status, countries of patent filings, etc.
• Ranking of main patent assignees
• Patent categorization by type of electrolyte (polymer, inorganic, inorganic/polymer) and inorganic electrolyte materials (sulfide glass ceramics, Thio-LISICON, argyrodite, oxide glass ceramics, NASICON, perovskite, garnet, anti-perovskite, hydride)
• For each technical segment: IP dynamics, ranking of main patent assignees, newcomers, key IP players (leadership, blocking potential, portfolio strength), key patents, and recent development trends
• For each key IP player (100+ companies): Time-evolution of patenting activity, legal status of patents and countries of patent filings, patent segmentation by electrolyte material, IP strengths and weaknesses by electrolyte material
• Excel database containing all patents analyzed in this report, including technology and material segmentations
Batteries are going to be the building block of the smart future currently being envisaged. From a strategic market perspective, a compilation of current and future Li-ion technologies. It is important to understand who are current market leaders in each crucial components of the Li-ion technology and how disruptive technologies will shift the power balance.
From battery-to-precursor - Recycling of Lithium-Ion BatteriesChristian Hanisch
The use of lithium-ion batteries has grown since the market entry of portable power tools and consumer electronic devices. Soon, the need for lithium-ion batteries (LIB) will rise, when they are used in hybrid and full electric vehicles as well as in energy storage systems to enable the use of renewable energies. To prevent a future shortage of cobalt, nickel and lithium and to enable a sustainable life cycle of these technologies, new recycling processes for LIBs are needed. These new processes have to regain not only cobalt, nickel, copper and aluminum from spent battery cells, but also a significant share of lithium. Therefore, this presentation approaches unit operations and their combination to set up for efficient LIB recycling processes, especially considering the task to recover high rates of valuable materials with regard to involved safety issues. Further discussed unit operations are:
• Deactivation / Discharging of the battery
• Disassembly of battery systems (specifically for EV-Battery Systems)
• Mechanical Processes (inert crushing, sorting, sieving and thermo-mechanical separation)
• Hydro-metallurgical processes
• Pyro-metallurgical processes
A feasible way towards safer, better-performing batteries?
Conventional Li-ion battery technologies, based on flammable liquid electrolytes, are continuously improving. However, faster progress towards greater safety, higher performance, and better cost reduction is desired. A next-generation battery technology like solid-state battery, which uses solid electrodes and solid electrolytes, could potentially satisfy these objectives.
More information on : https://www.i-micronews.com/batteries-energy-mgmt/product/solid-state-battery.html
Denis will focus on the innovation roadmap in clean mobility materials, highlighting Umicore’s unique position every step along the way, over the next decades.
The recent cases of electric scooters catching fire have raised safety concerns. Sales of electric scooters have surged in the last few years, but the spate of fire incidents has cast a shadow on the promising industry. Exploding smartphones are not very common these days, yet news about them tends to appear from time to time. Batteries play important role in all electronic devices. In case of electric vehicles, they are the largest, most expensive, and important components. Unfortunately, batteries are susceptible to explode under unfavourable conditions. As a result, governments across the world are planning to introduce new quality standards for batteries used in EVs. Industry players are also reportedly working on the improvement of tech and batteries.
This report examines the global market, innovation, & patent filing trends targeted to fire/explosion proof batteries. Some of the prominent patent assignees include LG Energy Solution, Samsung SDI, Panasonic, Contemporary Amperex Technology Ltd. (CATL), BYD Co. Ltd, Bosch, Mitsubishi Electric, Sumitomo Electric, Hitachi, SK Innovation, Sony, Exide Group, Toshiba, VARTA AG, GS Yuasa, Duracell Inc., Johnson Controls, and Saft.
Several Startups such as Faradion Limited, NOHMs Technologies, Inc., Lithium Werks, Log9 Materials, Cadenza Innovation, Inc. , Gridtential Energy, Ion Storage Systems, and COnovate, Inc. are also working towards manufacturing safer batteries. Global battery market is estimated to grow to USD 173 billion globally by 2026 with a CAGR of 10.3%.
The lithium-ion batteries are first made safe for mechanical treatment, with plastics, aluminum, and copper separated and directed to their own recycling processes. Moreover, the incredible efforts are being made to develop electrode materials, electrolytes, and separators for energy storage devices to meet the needs of emerging technologies such as electric vehicles, decarbonizes electricity, and electrochemical energy storage.
E-mobility | Part 3 - Battery recycling & power electronics (English)Vertex Holdings
While electric vehicles (EV) are widely viewed as a scalable green mobility solution, running on batteries may pose an impact on the environment as battery retirement concerns arise.
New innovations are emerging across the battery value chain from raw materials and cell components to battery management and sustainability. Governments and companies worldwide are participating in battery recycling efforts to ease battery material demand and alleviate supply chain concerns. As EV adoption continues to scale, regulators are drafting new laws for battery waste management.
Read more here: https://bit.ly/36mSeft
Lithium-Ion Battery (LIB) Manufacturing Industry. Start a Li-ion Battery Production. Battery Assembling Business
Lithium is a silver-white colored soft metal that belongs to the alkali metal group. Lithium is the lightest element known and has strong electrochemical potential. It is highly reactive element making it flammable and potentially explosive when exposed to air and water and is usually stored in mineral oil to preserve it from corrosion and tarnish.
Lithium-ion batteries have become the most important application of lithium and storage technology in the areas of portable and mobile applications (e.g. laptops, cell phones, smartphones, tablets, power tools, medical devices electric bicycles and electric cars).
See more
https://goo.gl/iaLHB3
Contact us:
Niir Project Consultancy Services
An ISO 9001:2015 Company
106-E, Kamla Nagar, Opp. Spark Mall,
New Delhi-110007, India.
Email: npcs.ei@gmail.com , info@entrepreneurindia.co
Tel: +91-11-23843955, 23845654, 23845886, 8800733955
Mobile: +91-9811043595
Website: www.entrepreneurindia.co , www.niir.org
Tags
#Lithium_Ion_Battery_Assembly, #Li_Ion_Battery_Assembling, Lithium-Ion Battery, #Lithium_Ion_Batteries_Production, Manufacturing of Lithium-Ion Batteries, Lithium-Ion Battery Manufacturing, #Lithium_Ion_Battery_Assembly_Plant, Lithium Ion Battery Manufacturing Process, Lithium Ion Battery Assembly Process, Lithium Ion Battery Manufacturing Cost, How to Set up Lithium Ion Battery Plant in India, #How_to_Start_Lithium_Ion_Battery_Manufacturing_Business, Battery Manufacturing Process, Battery Manufacturing, Lithium Ion Battery Production, Lithium Ion Battery Manufacture, #Production_of_Lithium_Ion_Battery, Battery Assembly, Battery Assembly Plant, Battery Manufacturing Plant, Project Report on Lithium Ion Battery Assembly Industry, Detailed Project Report on Lithium Ion Battery Production, #Project_Report_on_Lithium_Ion_Battery_Manufacturing, Pre-Investment Feasibility Study on Lithium Ion Battery Assembly Plant, Techno-Economic feasibility study on Lithium Ion Battery Assembly Plant, #Feasibility_report_on_Lithium_Ion_Battery_Production, Free Project Profile on Lithium Ion Battery Assembly, Project profile on Lithium Ion Battery Production, #Download_free_project_profile_on_Lithium_Ion_Battery_Assembly, Lithium-Ion Battery Factory, How to Start a Battery Manufacturing Business, Cost of Setting up a Battery Manufacturing Plant, Lithium-Ion Battery Business, #Lithium_Ion_Battery_Manufacturing_Industry
High energy and capacity cathode material for li ion battriesNatraj Hulsure
Recent development in cathode materials for li-ion batteries drag the industries view towards it due to their high discharge rate compare to older ones.
Solid electrolytes for lithium ion solid state batteries patent landscape 201...Knowmade
Report’s Key Features
• PDF with > 250 slides
• Excel file > 5,800 patents
• IP trends, including time-evolution of published patents, legal status, countries of patent filings, etc.
• Ranking of main patent assignees
• Patent categorization by type of electrolyte (polymer, inorganic, inorganic/polymer) and inorganic electrolyte materials (sulfide glass ceramics, Thio-LISICON, argyrodite, oxide glass ceramics, NASICON, perovskite, garnet, anti-perovskite, hydride)
• For each technical segment: IP dynamics, ranking of main patent assignees, newcomers, key IP players (leadership, blocking potential, portfolio strength), key patents, and recent development trends
• For each key IP player (100+ companies): Time-evolution of patenting activity, legal status of patents and countries of patent filings, patent segmentation by electrolyte material, IP strengths and weaknesses by electrolyte material
• Excel database containing all patents analyzed in this report, including technology and material segmentations
Batteries are going to be the building block of the smart future currently being envisaged. From a strategic market perspective, a compilation of current and future Li-ion technologies. It is important to understand who are current market leaders in each crucial components of the Li-ion technology and how disruptive technologies will shift the power balance.
From battery-to-precursor - Recycling of Lithium-Ion BatteriesChristian Hanisch
The use of lithium-ion batteries has grown since the market entry of portable power tools and consumer electronic devices. Soon, the need for lithium-ion batteries (LIB) will rise, when they are used in hybrid and full electric vehicles as well as in energy storage systems to enable the use of renewable energies. To prevent a future shortage of cobalt, nickel and lithium and to enable a sustainable life cycle of these technologies, new recycling processes for LIBs are needed. These new processes have to regain not only cobalt, nickel, copper and aluminum from spent battery cells, but also a significant share of lithium. Therefore, this presentation approaches unit operations and their combination to set up for efficient LIB recycling processes, especially considering the task to recover high rates of valuable materials with regard to involved safety issues. Further discussed unit operations are:
• Deactivation / Discharging of the battery
• Disassembly of battery systems (specifically for EV-Battery Systems)
• Mechanical Processes (inert crushing, sorting, sieving and thermo-mechanical separation)
• Hydro-metallurgical processes
• Pyro-metallurgical processes
A feasible way towards safer, better-performing batteries?
Conventional Li-ion battery technologies, based on flammable liquid electrolytes, are continuously improving. However, faster progress towards greater safety, higher performance, and better cost reduction is desired. A next-generation battery technology like solid-state battery, which uses solid electrodes and solid electrolytes, could potentially satisfy these objectives.
More information on : https://www.i-micronews.com/batteries-energy-mgmt/product/solid-state-battery.html
Denis will focus on the innovation roadmap in clean mobility materials, highlighting Umicore’s unique position every step along the way, over the next decades.
The recent cases of electric scooters catching fire have raised safety concerns. Sales of electric scooters have surged in the last few years, but the spate of fire incidents has cast a shadow on the promising industry. Exploding smartphones are not very common these days, yet news about them tends to appear from time to time. Batteries play important role in all electronic devices. In case of electric vehicles, they are the largest, most expensive, and important components. Unfortunately, batteries are susceptible to explode under unfavourable conditions. As a result, governments across the world are planning to introduce new quality standards for batteries used in EVs. Industry players are also reportedly working on the improvement of tech and batteries.
This report examines the global market, innovation, & patent filing trends targeted to fire/explosion proof batteries. Some of the prominent patent assignees include LG Energy Solution, Samsung SDI, Panasonic, Contemporary Amperex Technology Ltd. (CATL), BYD Co. Ltd, Bosch, Mitsubishi Electric, Sumitomo Electric, Hitachi, SK Innovation, Sony, Exide Group, Toshiba, VARTA AG, GS Yuasa, Duracell Inc., Johnson Controls, and Saft.
Several Startups such as Faradion Limited, NOHMs Technologies, Inc., Lithium Werks, Log9 Materials, Cadenza Innovation, Inc. , Gridtential Energy, Ion Storage Systems, and COnovate, Inc. are also working towards manufacturing safer batteries. Global battery market is estimated to grow to USD 173 billion globally by 2026 with a CAGR of 10.3%.
Beyond Lithium-Ion: The Promise and Pitfalls of BYD's Blade Batteries for El...Md. Faishal Rahaman
"Beyond Lithium-Ion: The Promise and Pitfalls of BYD's Blade Batteries for Electric Vehicles" is a review paper published in The International Conference on Energy and Green Computing (ICEGC’ 2023).
To read the full short review paper go through the ResearchGate account below: https://www.researchgate.net/profile/Md-Rahaman-106
battery technologies Graphene batteries, Aqueous magnesium batteries, Hydrogen fuel cells, Solid-state batteries, Lithium-sulfur batteries, Gold nanowire gel electrolyte batteries, Organosilicon electrolyte batteries, Zinc-manganese oxide batteries, NanoBolt lithium tungsten batteries
Working on battery anode materials, researchers at N1 Technologies, Inc.
added tungsten and carbon multi-layered nanotubes that bond to the copper anode substrate and build up a web-like nano structure.
That forms a huge surface for more ions to attach to during recharge and discharge cycles.
That makes recharging the NanoBolt lithium tungsten battery faster, and it also stores more energy.
Nanotubes are ready to be cut to size for use in any Lithium Battery design.
Business Opportunity in Manufacturing of Lithium Ion (Lifepo4) CellAjjay Kumar Gupta
Business Opportunity in Manufacturing of Lithium Ion (Lifepo4) Cell
The lithium iron phosphate battery (LiFePO4 battery) or LFP battery (lithium Ferro phosphate), is a type of lithium-ion battery using LiFePO4 as the cathode material, and a graphitic carbon electrode with a metallic backing as the anode. The energy density of LiFePO4 is lower than that of lithium cobalt oxide (LiCoO2), and also has a lower operating voltage.
For more details, click here: - https://www.entrepreneurindia.co/project-and-profile-listing.aspx?srch=Lithium%20Ion
Contact us
Niir Project Consultancy Services
An ISO 9001:2015 Company
106-E, Kamla Nagar, Opp. Mall ST,
New Delhi-110007, India.
Email: npcs.ei@gmail.com , info@entrepreneurindia.co
Tel: +91-11-23843955, 23845654, 23845886
Mobile: +91-9097075054, 8800733955
Website: www.entrepreneurindia.co , www.niir.org
Ahmad A Pesaran of the National Renewable Energy Laboratory presented to CALSTART member companies on battery technologies for plug-in electric, hybrid electric and plug-in hybrid electric vehicles in April 2011.
A global overview of the geology and economics of lithium productionJohn Sykes
Lithium demand is growing fast, driven by a wide range of battery applications, which are in turn changing the structure of
demand, the lithium supply chain and potentially raw material requirements though much still remains uncertain;
•
Geologically ‘brine’ salars and ‘hard rock’ pegmatites remain the most important lithium deposit types in terms of
production and undeveloped resources, however, there are some interesting emerging sedimentary / clay deposits and
unconventional brine concepts and lithium remains very ‘under explored’ globally;
•
Spodumene pegmatites in Australia are the fastest growing source of supply, however, long term competitiveness may be
dependent on successful downstream integration targeting the battery industry;
•
The concept of a Western Australian ‘Lithium Valley’ is possible, despite high costs, due to the number of quality mines,
proximity to Asia, and the unit reduction in freight costs associated with the low grade spodumene concentrate , in addition
to the ‘cluster effect’ of many minerals businesses, specialists and students;
•
The ‘green’ association of lithium use presents a challenge of ‘strategic coherence’ to explorers and miners impacting
decisions around exploration, mining, investors, stakeholders, and leadership;
•
But remember, we are in an unsustainable ‘lithium boom’ of high prices and high volume growth future long term growth
of the industry is reliant on structurally lower prices, and thus structurally lower costs.
What is Nanowire Battery, How it is different from lithium ion battery, Construction of Nanowire Battery, Comparison with other Energy Storage Systems, Advantages, Disadvantages, Application, Future Scope
H&D lithium ion battery for energy storage and electrical vehiclesAlan - CALB
H&D New Energy is one of pioneering manufacturers in China specializing in lithium-ion battery with more than 20 years' R&D experiences. As national demonstration base of Li-ion battery and supported by Chinese Academy of Sciences, H&D New Energy holds its core technologies of high automatically production of secondary lithium-ion battery cell, battery module, BMS and battery pack. The LFP 90 Ah Battery from H&D is designed with special internal laminated structure, which gives better heat dissipation, greater safety, higher energy density, larger capacity with limited size and extraordinary longer cycle life. H&D New Energy provides its green energy solutions, such as energy storage from wind turbines, hydropower, biomass and solar panels for residential application and industrial application and electrical vehicles industry, including passenger cars, commercial vehicles, electrical truck, low speed car, electrical cargo van, electrical vessel, electrical yachts, unmanned plane, etc. Energy storage will play an increasingly important role in the transformation to a fully sustainable and clean supply of energy and H&D is dedicated to working with her global customers on the revolution of World’s renewable energy.
The global sustainable steel market is projected to reach $795.8 billion by 2031 from $327.3 billion in 2021, growing at a CAGR of 8.97% during the forecast period 2022-2031. The growth in the global sustainable steel market is expected to be driven by stringent government regulations, carbon neutrality targets, energy and cost efficiency owing to the use of recycled steel, and a significant increase in steel demand with the scarcity of raw materials and energy.
Cybersecurity in Automotive Connected Vehicles and Growing Security Vulnerabi...BIS Research Inc.
• Agenda:
o To evaluate various security vulnerabilities in connected vehicles.
o To analyze the initiatives taken and regulations implemented to address security vulnerabilities.
o To analyze the various types of cybersecurity solutions being developed or offered for the security of connected vehicles.
o To evaluate the major players in the ecosystem.
Report Preview is available at: https://bisresearch.com/industry-report/global-automotive-cybersecurity-market.html
BIS Research conducted a webinar on Carbon Neutral Data Center PracticesBIS Research Inc.
Agenda:
To evaluate various emerging trends in Data center industry.
To analyze the initiatives taken and regulations implemented to increase sustainable practices.
To analyze the various types of technologies currently deployed.
To evaluate the major players in the ecosystem.
Speaker Profiles:
Name: JD Enright, Sr.
Designation: Chief Operating Officer
Company: TMGcore Inc.
Experienced and dedicated business professional with 29 years working with DOD, Multinational Private and Public sector organizations. Primary focus on developing and executing Strategic Step-Up Growth initiatives in Emerging Markets, and Technologies. Specialized leadership in developing improved business operations to include Financial and Operational efficiencies. Implementation of next generation HPC Platforms, Global Blockchain Development Strategies, Biotechnology, Viral Cell and Gene Therapies and Market Intelligence Assimilation for public applications.
Webinar by BIS Research on Precision Oncology BiomarkersBIS Research Inc.
Precision oncology biomarkers are essential tools for tailoring cancer treatment to individual patients, as they provide insights into tumor biology and guide the selection of targeted therapies.
BIS conducted a deep intelligence webinar on the state-of-the-art technologies and emerging strategies used through the precision oncology biomarkers.
Direct-to-Customer Wellness | A Webinar on the Growing Need for Personalized ...BIS Research Inc.
Direct-to-consumer (DTC) wellness testing industry witnessed a strong emphasis on consumer health and wellness, instigating industry stakeholders to discover new revenue streams.
As a leading market intelligence firm, BIS Research strives to stay on top of the latest emerging trends in the healthcare sector, among several other industry verticals. In the bid to do the same, BIS is conducting a deep intelligence webinar on the increasing focus of DTC wellness programs in the healthcare sector.
Read Related Reports Overview at:
https://bisresearch.com/industry-report/global-direct-to-consumer-genetic-testing-market.html
https://bisresearch.com/industry-report/us-dtc-wellness-testing-market.html
Webinar on AI in Medical Diagnosis with Emerging TechnologiesBIS Research Inc.
Artificial Intelligence (AI) is a rapidly growing field that has the potential to revolutionize the way medical diagnosis is performed. AI systems use advanced algorithms to analyze large amounts of data, such as medical images, patient histories, and lab results, to identify patterns and make predictions about patient outcomes.
In medical diagnosis, AI can be used in a variety of ways, including medical imaging, disease diagnosis, personalized treatment planning, and early disease detection. By leveraging the power of AI, healthcare providers can make faster and more accurate diagnoses, resulting in better patient outcomes.
Agenda:
The main agenda of this webinar is to understand and explore the following:
• Policy implications related to AI and digital transformation in healthcare.
• Initiatives taken and regulations implemented to address cybersecurity concerns.
• Major factors driving and hindering the growth of AI in medical devices diagnosis.
• Major players in the ecosystem
AI-Enabled Imaging Solutions Market - A Global Market Report by BIS ResearchBIS Research Inc.
The global AI-enabled medical imaging solutions market was valued at $1,854.5 million in 2022 and is anticipated to reach $18,356.5 million by 2032, witnessing a CAGR of 25.76% during the forecast period 2022-2032. you can get more info to visit this link..
https://bisresearch.com/industry-report/global-ai-enabled-medical-imaging-solutions-market.html
The global demand for achieving the net zero emission target by 2050 has pushed governments all over to adapt and adopt advanced carbon removal technologies to go carbon negative.
It is, indeed, an important topic of discussion, because a carbon free environment is the need of the hour to save our planet. And, therefore, BIS Research is glad to announce its upcoming webinar on this particular subject.
Agenda:
The main agenda of this webinar is to understand and explore the following:
• Primary sources of carbon emissions and associated environmental issues
• Carbon dioxide removal – key technology and adoption scenario
• Carbon dioxide removal (CDR): trends and key market developments
• Carbon dioxide removal as a credible solution
• Conclusion and future outlook
Webinar on Biomanufacturing 4.0 – A New Era in Cell and Gene Therapy DevelopmentBIS Research Inc.
Agenda of the Webinar:
Cell and Gene Therapy Biomanufacturing Market: Trends and Key Developments
Awaited Technologies in the Cell and Gene Therapy Development
Regulatory Scenario – GMP/cGMP Guidelines
Biomanufacturing 4.0 - Adoption Scenario
Conclusion and Future Outlook
Sub-Orbital Testing Services Market Future Growth and Business Opportunities ...BIS Research Inc.
Sub-orbital platforms are increasing access to the near space-like environment for end users such as government agencies, research institutions, and commercial players.
The competitive landscape of the sub-orbital testing services market consists of several organic and inorganic strategies followed by the key players to increase their market share.
The space industry is continuously innovating and developing advanced technologies with the objective of enhancing space capabilities. The industry is gearing up to develop vehicles that entail a major feature, i.e., reusability.
Request for the sample of the report at: https://bisresearch.com/requestsample?id=1442&type=download
TOC - Global Military Robotic and Autonomous Systems (RAS) Market.pdfBIS Research Inc.
The robotic and autonomous system (RAS) is a multidisciplinary scientific and technological domain for implementing complex systems with cognitive capabilities.
RAS in military is being rigorously introduced and used in combat training. This has boosted the capabilities of armed units and subunits. The advent of artificial intelligence (AI) and its integration with military RAS has the potential to change future warfare.
Growing demand to increase warfighter lethality and remove soldiers from dangerous situations is propelling the global military RAS market.
Request for the sample of the report at: https://bisresearch.com/requestsample?id=1442&type=download
UAV Propulsion System Market Analysis, Statistics, Regional, and Forecast to ...BIS Research Inc.
UAV propulsion system manufacturers have also been inclined to counter the environment and other government regulations by developing sustainable propulsion, i.e., steps toward fossil-free aviation fuels and ion propulsion are a few of such significant innovations.
UAVs can be powered by a variety of different types of engines, including piston engines, turbine engines, Wankel engines, and electric and solar-powered engines.
The global UAV propulsion system market has witnessed a high growth rate in the last five to six years owing to its widespread applications across various industries, which were further bolstered by the COVID-19 pandemic.
Publication of BIS Research on UAV Propulsion System market has some great insights for UAV Propulsion Systems. Get free sample here: https://bisresearch.com/requestsample?id=1443&type=download
Fleet Management Market Trends, Key Players, Industry Analysis and Forecast 2...BIS Research Inc.
A fleet management system, which includes hardware, software and service, has the ability to make decisions for fleet managers and fleet businesses easily.
The ongoing research and development activities in this market are experiencing product launches of fleet management system for fleet owners, fleet managers, or businesses that utilize fleet management on a daily basis.
BIS Research has a new publication on Fleet Management, view free sample here : https://bisresearch.com/requestsample?id=1444&type=download
Agenda:
The main agenda of this webinar is to understand and explore the following:
• LoRaWAN adoption in agricultural applications as well as understanding the trends and key market developments.
• The significance of LoRaWAN in the field of IoT
• A comparative analysis between LoRaWAN and other IoT networks in terms of technology and capabilities.
• The impact of LoRaWAN on the operations of the agriculture industry and common use cases.
• The impact of the implementation of LoRaWAN technology on stakeholders in the agriculture ecosystem.
• The potential challenges that LoRaWAN might face in the future.
• The competitiveness of the market for LoRaWAN technology.
Augmented Reality in Agriculture Analysis and Statistics from 2022-2027BIS Research Inc.
AR depicts superimposing visual, audio, or other sensory data onto the physical world to improve one's experience. It is one of the most popular technological trends in today’s times. AR images can be displayed on a variety of devices, including eyeglasses and goggles, headsets, and heads-up displays such as helmet visors. As more smartphones, tablets, and other handheld devices that support AR are becoming available globally, the most popular way to use AR is on these devices in a variety of apps and games.
Although AR is used to visually communicate information, it is the integration of AR with other technologies that make it possible to adapt to precision farming and visual-based operations. Hence, farmers can utilize AR in combination with other technologies such as artificial intelligence (AI), big data, and the Internet of Things (IoT) to manage the rising food demand.
Get Augmented Reality in Agriculture report overview at: https://bisresearch.com/industry-report/ar-agriculture-market.html
Smart Harvest Market Generated Opportunities, Future Scope 2022-2027BIS Research Inc.
The growth in the global smart harvest market is expected to be driven by increasing smart farming practices among farmers, labor shortage, and growing government support for promoting the use of smart tech in the agriculture industry. Supported by government policies and technological developments, farmers and growers across the globe are expected to increase the implementation of smart harvest technologies. Moreover, the smart harvest market is witnessing several upcoming trends and opportunities, further propelling growth in the industry.
Get the PDF document on the technical aspects of Smart Harvest Market at: https://bisresearch.com/requestsample?id=1386&type=download
Precision Pest Management Market Leading Players, Development and Demand Fore...BIS Research Inc.
While farmers are losing crops due to pests, they have pressure to increase food production to feed the growing world population.
Precision pest management (PPM) is very important to avoid destruction caused by pests and to increase productivity. PPM helps to detect pests early with the help of crop monitoring so they can be controlled early to avoid further losses. The availability of advanced technologies and equipment has made agriculture automation more prevalent in developed countries.
To know more about the in-depth insights on precision pest management market, get PDF document: https://bisresearch.com/requestsample?id=1404&type=download
Agriculture Drones and Robots Market Growth Opportunity, Trends, Demand Analy...BIS Research Inc.
Agriculture drones and robots offer multiple benefits over conventional farming equipment, which is another factor driving the demand for these products in the agriculture industry. The adoption of agriculture drones and robots in commercial farms offers huge cost-saving opportunities.
Request for the Sample of the Report at: https://bisresearch.com/requestsample?id=1425&type=download
Next-Generation Automotive Lighting Industry to See Significant Growth During...BIS Research Inc.
Since the inception of automotive vehicles amongst the masses, automotive lighting has witnessed significant growth owing to the growing safety apprehensions revolving around vehicles.
The rapid technical progress in the automotive lighting field shows that basic light sources based on incandescent and gas-release bulbs have shifted to modern-day technologies such as light-emitting diodes (LEDs), laser technology, and organic light-emitting diodes (OLEDs).
Get the Sample of the Report containing the information on various technical aspects at: https://bisresearch.com/requestsample?id=1435&type=download
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
💥 Speed, accuracy, and scaling – discover the superpowers of GenAI in action with UiPath Document Understanding and Communications Mining™:
See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
This is a hands-on session specifically designed for automation developers and AI enthusiasts seeking to enhance their knowledge in leveraging the latest intelligent document processing capabilities offered by UiPath.
Speakers:
👨🏫 Andras Palfi, Senior Product Manager, UiPath
👩🏫 Lenka Dulovicova, Product Program Manager, UiPath
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
Kubernetes & AI - Beauty and the Beast !?! @KCD Istanbul 2024Tobias Schneck
As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
Search and Society: Reimagining Information Access for Radical FuturesBhaskar Mitra
The field of Information retrieval (IR) is currently undergoing a transformative shift, at least partly due to the emerging applications of generative AI to information access. In this talk, we will deliberate on the sociotechnical implications of generative AI for information access. We will argue that there is both a critical necessity and an exciting opportunity for the IR community to re-center our research agendas on societal needs while dismantling the artificial separation between the work on fairness, accountability, transparency, and ethics in IR and the rest of IR research. Instead of adopting a reactionary strategy of trying to mitigate potential social harms from emerging technologies, the community should aim to proactively set the research agenda for the kinds of systems we should build inspired by diverse explicitly stated sociotechnical imaginaries. The sociotechnical imaginaries that underpin the design and development of information access technologies needs to be explicitly articulated, and we need to develop theories of change in context of these diverse perspectives. Our guiding future imaginaries must be informed by other academic fields, such as democratic theory and critical theory, and should be co-developed with social science scholars, legal scholars, civil rights and social justice activists, and artists, among others.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
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Emerging Battery Chemistries – Reimagining EVs beyond Conventional Li-Ion Batteries
Electric Vehicle Battery: Current Trends and Future Potential
Trends
➢ Solid-State Batteries
➢ Nickel-Rich Cathodes
➢ Dry Electrode Manufacturing to
Reduce Battery Costs
➢ Emergence of Lithium Iron
➢ Phosphate Batteries
Growth Factors
➢ Increasing Demand for Electric
Vehicles
➢ Reduction in Cost of Electric
➢ Vehicle Batteries
➢ Increased Investments and
Collaborations
➢ Government Policies and
Regulations
Business Challenges
➢ Procurement Concerns Over
Raw Materials
➢ Environmental Concerns
➢ Related to EV Batteries
➢ Concerns Over Battery
Safety
Opportunities
➢ Sustainable and Low-Carbon
Materials
➢ Innovations in Battery
➢ Chemistries
➢ Recycling and Circular Economy
in EV Batteries
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Emerging Battery Chemistries – Reimagining EVs beyond Conventional Li-Ion Batteries
Electric Vehicle Battery: Key Developments and Industry Players
Key Industry Players in Electric Vehicle Battery Market
Company Date Description
Samsung
SDI
May 2022
Samsung SDI collaborated with Stellantis to set
up a battery gigafactory in Indiana, U.S.
CATL March 2023
CATL began series production of its upgraded
third generation cell-to-pack (CTP) battery
system named Qilin.
LG Energy
Solutions
January 2023
LG Energy Solutions and Honda Motor Co.
formed a joint venture named L-H Battery
Company to set up lithium-ion battery cell
factory in Ohio, U.S.
Nissan February 2023
Nissan announced its target to start the
production of liquid-free, low-cost solid-state
batteries by 2025.
Solid
Power
January 2023
BMW announced the start of the next phase of
joint research and development with Solid
Power for the development of automotive solid-
state batteries.
Key Developments in Electric Vehicle Battery Market
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Emerging Battery Chemistries – Reimagining EVs beyond Conventional Li-Ion Batteries
Electric Vehicle Battery: Investments and Key Minerals
Announced EV and EV Battery Manufacturing Investments
By Company, till 2022
Mineral Share in an Average Electric Vehicle Battery
Source: Atlas EV Hub
95
77
70
50
46
40
36
35
34
33
0 20 40 60 80 100
Volkswagen
Hyundai
Toyota
Ford
Mercedes Benz
Honda
Stellantis
Tesla
General Motors
CATL
($Billion)
28.10%
18.90%
15.70%
10.80%
10.80%
5.40%
4.30%
3.20% 2.70%
Graphite
Aluminum
Nickel
Copper
Steel
Manganese
Cobalt
Lithium
Iron
Source: Transport & Environment
25. ❑ In 1964, Russian Astrophysicist Nikolai Kardashev developed models for
different types of civilizations based on how much energy is consumed
and produced (Type 1 - 10⁴TW, Type 2 - 10¹⁴TW, Type 3 - 10²⁴TW).
❑ Later, the model was extended up to Type 7 by Sci-Fi writers, integrating
British theoretical physicist Freeman Dyson’s “Dyson spheres” all the
way into Type 7.
❑ In 2021, global energy production capacity was 11.05TW (0.11% of what
is needed to become Type 1). Fossil Fuels account for 4.4TW, and
Renewables and ESS account for 3.2TW of the 11.05TW.
HISTORY
26. ❑ American physical chemist Gilbert Newton Lewis (1875 – 1946), the
father of Li-Ion batteries, developed the first Li-Ion based energy
storage solution in 1912.
❑ Though his invention changed the world, he never won the Nobel
prize despite being nominated 41 times.
HISTORY
27. ❑ In 1976, British chemist Michael Stanley Whittingham patented the
first viable lithium-based battery. The low weight, high-energy
density nature of his battery, coupled with its capability to work at
room temperature, was considered a breakthrough.
❑ In 2019, Whittingham was jointly awarded the Nobel Prize in
Chemistry alongside John Bannister Goodenough from the U.S. and
Akira Yoshino from Japan for their contributions to Lithium-ion
battery technology.
HISTORY
29. ➢ New & environmentally favorable chemistries
➢ Less CapEx intensive & quicker electrode pasting
➢ Less CapEx intensive cell assemblies
➢ Shorter formations
➢ Application-based BMS & module design
➢ Application-based electrode metrics
DEVELOPMENTS
Development of next-generation batteries is driven by:
30. ➢ Total Addressable Market (TAM)
➢ The TAM for batteries is significant and growing
rapidly, driven by rising EV penetration, technology
trends and environmental concerns.
2030
2020
264 GWh
$50bn TAM
2020
2025
2030
2025
1.2 TWh
$125bn TAM
2030
2.3 TWh
$180bn TAM
Solid-State is expected to open up
new market opportunities driving
upside to TAM
THE BATTERY DECADE
31. Powering the future
✓ Founded in 2016 in Carson City, Nevada
✓ Goal of becoming the industry leader in Lithium-Sulfur (Li-S) and Solid State battery technology
✓ Exclusive license to the University of California Berkeley Lab’s Li-S battery intellectual property
✓ Strong foundation through continued research to amass a large patent portfolio, trade secrets, and manufacturing expertise
✓ Multidisciplinary team of 33 (including 4 PhDs) in the U.S.
✓ Deep expertise in materials synthesis, design & prototyping, operations, and battery cells
✓ Invested ~$20 million to date, plan to invest $30+ million more in the next 3 years to improve product and scale up
ABOUT US
32. NexTech is in a prime position to bring Li-S technology to market
NexTech’s Lithium-Sulfur batteries will disrupt many markets:
▪ NexTech will enter the market as the only company to have produced cells with more than 400Wh/Kg and
400Wh/L gravimetric and volumetric energy densities respectively
▪ $60/KWh (2026 target) BOM at commercial production levels
▪ Successfully completed UN38.3 certification of current cell designs
▪ Build Pilot Plant in the next 18 months to increase the production capacity and produce additional cell designs
NexTech’s Li-S batteries offer a unique and superior value proposition due to:
▪ Lower cost with simplified manufacturing processes
▪ Weight advantage
▪ Improved safety profile with better performance
Approach
Target
Markets
Value
Proposition
STRATEGIC GOALS
▪ Electrification of transportation
▪ Electrification of agricultural machines
▪ Drones/eVTOLs
▪ Replacement for current lead acid batteries
▪ Electrification of Industrial machines
▪ Grid Storage
33. ✓ Manufacturing: Li-S cells have a similar
structure & construction to Li-ion.
NexTech uses off-the-shelf manufacturing
equipment.
✓ Anode: NexTech uses a lithium-metal
anode with a proprietary manufacturing
process to facilitate high yield cell
assembly.
✓ Cathode: NexTech’s cathode consists
mainly of sulfur and graphene, without the
scarce, heavy, and expensive metals Li-ion
uses. Crucially, there is no oxygen in the
reaction, meaning no potential for thermal
runaway.
✓ Electrolyte: NexTech’s proprietary
electrolyte is the key to achieving the
highest cycle life in the Li-S market
segment.
✓ IP Protection: NexTech may elect to
manufacture and distribute our unique
cathode material and its proprietary
electrolyte to licensed OEMs or JVs,
thereby creating a recurring and
sustainable revenue stream.
Off-the-shelf
commodity
electrolyte
N xT ch’s
proprietary electrolyte
prevents polysulfide
shuttling & lithium
dendrites
Current
collector
(Al)
Current
collector
(Al)
Cu
Li
NexTech Li-S
Production Cells
can deliver:
Energy >350 Wh/kg
BOM Cost <$60/kWh
Typical NMC 811
Li-ion cell:
Energy ~275 Wh/kg
Cost >$120/kWh
Copper current
collector with a
graphite anode
showing lithium
ions in matrix
Lithium metal
anode treated
with a
proprietary
manufacturing
process
Dense cathode consisting of
nickel, manganese, cobalt,
and oxygen
Proprietary cathode blend consists primarily of sulfur and proprietary
graphene, both lightweight and abundant. No oxygen = no thermal runaway
TECHNOLOGY
34. NexTech’s competitors have not
overcome these common
commercialization issues
POLYSULFIDE
SHUTTLE
POLYSULFIDE
CONVERSION
INSULATION
OF S8 AND Li2S
LITHIUM
DENDRITE
FORMATION
✓ Proprietary electrolyte additives, and charge
profile dramatically reduce dendrite
formation
✓ Proprietary electrolyte will not dissolve
polysulfides
✓ Enables Li2S SEI layer to protect lithium
✓ Proprietary electrolyte does not allow
polysulfides to dissolve, which minimize the
shuttling effect
✓ Proprietary cathode design increases sulfur
conductivity, which eliminates insulation issues
✓ Demonstrated in high performance applications (10C)
✓ Industry experts
acknowledge NexTech’s
active materials (cathode)
are best in class.
NEXTECH IS SOLVING THESE ISSUES
Issues
Limiting
Li-S
Commercialization
✓ LISA European consortium
results validated that
NexTech’s cathodes and
cells exceed all other
suppliers’ results.
Improve cycle life to meet customer expectations
35. Electrode manufacturing Cell assembly Cell finishing
Conventional Lithium-ion cell
Nextech’s Lithium-sulfur cells
Sealing Degassing
Packaging Filling
Welding
Stacking /
winding
Formation Aging Testing Sorting
Mixing Drying
Coating Calendering
Cathode
Anode
Solvent recovery
Slitting
Mixing Coating Drying Calendering Slitting
-------------------------------- 9 days ----------------------------------
Filling &
sealing
Formation
& Testing
Coating
& Drying
2 days
Cathode
Anode
Mixing Calendering
Slitting
Slitting
Stacking /
winding
Packaging Welding Sorting
Li-S production requires - half the steps of Li-Ion - half the equipment and - half the time
Not required for Li-S
X
X Not required for Li-S
FACTORY PROCESS FLOW COMPARISON
36. MATERIAL LITHIUM-ION LITHIUM-SULFUR NOTES
Lithium Lithium carbonate Lithium metal
Ioneer & Albemarle contracted for lithium
WW lithium production is a major investment
area, costs expected to drop
Scarce metals Cobalt, nickel, manganese None
Normally expensive and big cost
spike recently
Other
materials
Toxic solvents (NMP)
Sulfur, carbon, graphene,
H₂O solvent
Contracted graphene supplier
Social issues
Conflict metals from the
Congo, Russia, and Indonesia
Readily available
minerals
Reduced reliance on
China supply chains
Electrolyte Standard formula Proprietary formula
In-house manufacturing and
product supply control
Li-S materials will be lower cost and easier to source.
MANAGING THE SUPPLY CHAIN
37. 10
3
10
2
6
3
5
8
3
3
10
10
- 20 40 60 80
Contingency
Other capex
Cost of reactor lines
Casting
Assembly machines
Pouching/can
Formation channels
Handling + automated packaging
ERP & Control
DI Water Treatment and disposal
Dryroom + Dehumidifiers
Building fitup
Total Li-S Gigafactory cost
Millions
LI-SULFUR CELL MANUFACTURING IS 2-3 X LESS CAPEX INTENSIVE THAN LI-ION
2.5 GWh Li-S Gigafactory capex breakdown, in million $
73
Li-S directly eliminates at least 36% of capex compared
to a typical GWh-scale Li- Ion production plant
Receiving
Materials preparation
Electrode coating
Calendering
Materials handling
Electrode slitting
Vacuum drying
Control laboratory
Cell assembly in dry room
Filling and Celling in dry
room
Formation cycling and
testing
Module and pack
assembly
Rejected cell and scrap
18%
Typical Capex
breakdown for
Li-ion facility
10% 11%
12%
1%
2%
2%
2%
2%
5%
29%
Formation
cycling and
testing
considerably
reduced
Sealing and
drying
eliminated
Data from Argonne National Lab and Solid Power
5%
CAPEX
38. LI-SULFUR CELL MANUFACTURING IS 2-3 X LESS CAPEX INTENSIVE THAN LI-ION
170
150
136
128
126
114
114
107
106
61
30
xx
Category 2
Category 3
Category 4
2017-18 2019-20 2021-22 2023-24
Cell capex efficiency, in million $/GWh
Data from Bloomberg NEF, FREYR
▪ Manufacturing of lithium-sulfur cells avoids some
of the most challenging and lengthy steps of the
production process, especially at the finishing stage
▪ This lean manufacturing process eliminates the need
for some of the most expensive capex, such as the
anode pasting equipment, some sealing
equipment, formation cycling, and testing equipment
▪ In addition, NexTech can use existing warehouse space
due to lack of solvent recovery/hazmat systems,
reducing building construction capex
▪ Overall, NexTech intends to develop its Gigafactory at
much lower capital cost, reducing the breakeven point to
~800MWh to 1.2GWh.
CAPEX
40. INDEX
• Need for new battery technology
• Solid State battery (SSBs)
• Working of SSBs
• Energy Density of SSBs
• Different types of SSBs
• Current Challenges
• Interface Instability
• Future Scopes
41. Need for New battery technology
• Liquid electrolyte li ion batteries -
limited scope
• Even with using Silicon anodes, the
expected increase is not enough
• Safety of batteries is compromised
42. Dendrite growth in lithium battery leads to failure.
Source: SLAC National Laboratory, Stanford University
Dendrites
46. Why do SSBs have more Energy density?
• Lithium
metal(3800mAh/g) vs
Graphite(372mAh/g)
Anodes.
• Higher density of Li
ion availability ->
higher energy
density.
55. Source: Roland Zenn; orovel.com
Solid state batteries from a) Solid power b) Quantumscape c)
SES Power and d) Factorial
a b
c d
Industrial developments in Solid-State Batteries
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Emerging Battery Chemistries – Reimagining EVs beyond Conventional Li-Ion Batteries
Key Takeaways
Transition from Conventional Li-ion to New Chemistries
Several Upcoming Technology Trends
Better Performance than Conventional Li-ion
Cost-Effective Production Advantages
Emerging Companies in Battery Chemistry Ecosystem
Increasing Investments in EV Batteries
Evolving End Users Needs and New EV Models
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Emerging Battery Chemistries – Reimagining EVs beyond Conventional Li-Ion Batteries
Electric Vehicle and Energy: Research Production
Plan (2022 and 2023)
Recently Published Reports
▪ Immersion Cooling Fluids Market for EVs
▪ Stationary Energy Storage Market
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▪ Battery Manufacturing Equipment Market
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▪ Sulfur-Based Battery Market
▪ EV Charging Management Software Platform Market
Upcoming Reports
▪ Global Lithium-Ion Battery Recycling Market
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▪ Global Electric Vehicles Battery Market
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System (BTMS) and Charging System for Electric Vehicles
For more information about any report please click on the report name, and please visit https://bisresearch.com/ for any other queries and report details
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