Battery adhesives provide strong adhesion between the active electrode material and the current collector, ensuring efficient electron transport and minimizing internal resistance, forming a protective film over the electrodes to increase stability and prevent deterioration. Adhesives help improve the mechanical stability and integrity of the battery, prevent electrode delamination and structural damage during charge-discharge cycles, and improve battery life and overall performance. Battery binders are designed to be chemically stable in the presence of battery electrolyte, minimizing adverse reactions that may affect battery performance or safety.
The adhesive's high thermal and chemical stability maintains integrity and functionality over a wide range of operating temperatures and conditions, ensuring battery life and safety, and the rapid global adoption of electric vehicles is increasing the demand for high-performance batteries. Battery adhesives are expected to find significant business opportunities in the EV market due to their improved energy density, cycle life, and thermal stability.
The increasing use of smartphones, tablets, wearables, and other portable electronics requires compact and long-life batteries, which necessitates the battery adhesive market. Battery adhesives are expected to be in high demand as they enable higher energy storage and higher safety. Grid-scale energy storage solutions are becoming increasingly important as renewable energy sources such as solar and wind are integrated into the grid, and these intermittent energy sources require an efficient energy storage system to cope with fluctuations in demand dynamics. Battery adhesives play an important role in improving the efficiency, reliability, and safety of energy storage systems.
Advances in next-generation batteries are expected to bring broad prospects for future expansion of the global battery adhesives market, which are essential for improving battery performance and safety, connecting the active materials contained in battery electrodes and providing mechanical stability.
APO Research's report on the global and Chinese battery adhesives market examines past and current growth trends and opportunities to gain valuable insights into market metrics for the period 2023-2029**. The report provides the capacity, volume, volume, value** and future trends of battery adhesives for the global and Chinese market from 2018 to 2029. Considering 2023 as the base year and 2029 as the ** year, the report also provides a compound annual growth rate (CAGR XX%) of the global and China battery adhesives market from 2023 to 2029.
The report was prepared after extensive research. The Tier 1 study involves most of the research work, and the report delves into the competitive landscape of the global and Chinese battery adhesives market, in which analysts conducted interviews with key opinion leaders, industry leaders, and opinion makers to identify the key players operating in the global and Chinese battery adhesives market, each of which has analyzed various attributes, company profiles, financials, recent developments, and SWOT are the attributes of the players in the global battery adhesives market in this report. The secondary study includes reference to the product literature, annual reports, press releases, and related documents of the key players to understand the battery adhesives market.
By classification. Lithium-ion.
Lead-acid. Nickel-cadmium.
Other. Key Players.
arkema
the lubrizol corporation
basf se
solvay s.a.
daikin industries, ltd.
zeon corporation
targray
industrial summit technology corp.
synthomer plc
trinseo s.a.
There are 11 chapters in the main body of this article, and the main contents of each chapter are as follows:
Chapter 1: Report Scope, Research Objectives, Research Methods, Data**, Data Interaction Validation;
Chapter 2: Report Definition, Statistical Scope, Industry Background, Development History, Current Situation and Trends, Global Overall Supply and Demand Status, Product Segmentation and Key Downstream Markets;
Chapter 3: Global Overall Size (Capacity, Production, Volume, Demand, Sales Revenue, etc., 2018-2029).
Chapter 4: Global Competitive Analysis of Key Manufacturers, mainly including Capacity, Production, Sales, Revenue, Market Share, Origin and Industry Concentration Analysis;
Chapter 5: Global Key Manufacturers Profile, including Company Profiles, Product Models, Sales Volume, Revenue, and Latest Developments
Chapter 6: Market Analysis by Region, including Volume, Sales Revenue, and Others;
Chapter 7: Global Sales, Revenue, and Share by Product Type;
Chapter 8: Global Sales, Revenue, and Share by App by Category;
Chapter 9: Industrial Chain, Upstream and Downstream Analysis, Sales Channel Analysis, etc.;
Chapter 10: Market Dynamics, Growth Drivers, Development Opportunities, Favorable Factors, Unfavorable and Hindering Factors, Industry Porter's Five Forces Model Analysis, etc
Chapter 11: Conclusions of the Report.