Creating Reliable and Long-Lasting Batteries with the Electrolytic Manganese Dioxide Market
Polaris Market Research & Consulting, Inc.
Market Research | Industry Analysis
Manganese dioxide is an inorganic compound bearing the chemical formula MnO2. It is a solid having a black-brownish color and occurs naturally as mineral pyrolusite. Magnesium dioxide is widely used as a catalyst to oxidize dissolved iron and manganese rapidly.
Electrolytic manganese dioxide is an important element of the cathode material in modern lithium, alkaline, and sodium batteries. In this blog post, we provide an overview of electrolytic manganese dioxide and shed light on the major factors driving the electrolytic manganese dioxide market growth.
How is Electrolytic Manganese Dioxide Produced?
Manganese dioxide occurring naturally contains impurities. Also, there’s a considerable amount of manganese (III) dioxide present in naturally found manganese dioxide. Making dry-cell batteries, such as alkaline batteries and zinc-carbon batteries, requires the use of high-purity electrolytic manganese dioxide (EMD).
The production process for electrolytic manganese dioxide is similar to that of electrolytic tough pitch (ETP) copper. Here, magnesium is liquified in sulfuric acid remedy by passing current between two electrodes. This manganese oxide then gets dissolved and deposited on the cathode.
Industry Analysis
According to a new study by Polaris Market Research & Consulting, Inc. , the electrolytic manganese dioxide market was valued at USD 1.43 billion in 2022 and is expected to grow at a CAGR of 6.9%, generating an estimated revenue of USD 2.79 billion by 2032.
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Uses and Applications
Electrolytic manganese dioxide has varied applications due to its unique characteristics. It is widely used in the manufacturing of zinc-carbon and alkaline batteries. In batteries, EMD acts as a cathode product. The high capability of EMD to absorb and release electrons makes it an excellent choice for making batteries that are efficient and deliver long-lasting performance.
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In addition, EMD finds applications in water treatment processes. Here, it acts as a driver that removes impurities through oxidation. Furthermore, the conductivity and catalytic activity of EMD means it is helpful in the manufacturing of digital parts and ceramics.
Growth Drivers
The electrolytic manganese dioxide market is primarily driven by the rising use of electrolytic magnesium dioxide in electric vehicles (EV) batteries. EMD is widely used as a cathode material when manufacturing lithium-manganese-oxide (LMO) batteries. EV manufacturers often prefer LMO batteries as they have a high energy density, low cost, and long lifespan.
The introduction of strict regulations pertaining to water treatment and the need for safe drinking water are other factors driving the demand for effective water treatment technologies such as EMD-based systems. EMD is used to remove impurities and contaminants from drinking water that may result in aesthetic issues and health problems.
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Water Treatment Segment is Anticipated to Grow at the Fastest Rate
The water treatment segment is projected to witness the highest growth in the electrolytic manganese dioxide market. This is largely because EMD is often used as an electrode material in water treatment plants to remove impurities and other contaminants from water. EMD is known for its high surface density and electrical conductivity, making it an apt choice for electrochemical reactions in water treatment applications.
To Conclude
Electrolytic manganese dioxide is known for its distinct characteristics and has varied applications. EMD is used to manufacture alkaline batteries that are more environmentally friendly and offer long-lasting power. The growing demand for batteries from various sectors is expected to boost the electrolytic manganese dioxide market sales in the upcoming years.