온라인 바카라 사이트 Target 4 Areas and Focus Themes

Toward the realization of a carbon-neutral society, there is attention on green hydrogen that is manufactured through water electrolysis using renewable energy without emitting carbon dioxide.
According to the International Energy Agency, the global hydrogen market is expected to grow to annual scale of several trillion yen by 2030. The Korean government has also positioned hydrogen as a key energy carrier toward achi
Currently, water electrolysis using proton exchange membranes is the mainstream. Cost is an issue as it requires catalysts that use rare metals such as platinum. In recent years, there is attention on watch affordable metal catalysts, such as nickel, are used and efficient production is possible. It is looked upon as a potential next-generation hydrogen production technology.
However, durability was an issue for practical application as anion exchange membranes are used for long periods of time under high temperatures and alkalic conditions. At the Institute of Science Tokyo, an anion exchange membrane with developed using material design based on analyzing the deterioration mechanism. Nippon Kayaku is using our polymer material molecular design and synthesis technology nurtured through functional materials and our Polatechno 온라인 바카라 사이트’s precision film processing technology to collaborate with the Institute of Science membranes from the aspects of establishing the process and achieving mass production.
Full-scale market expansion is expected from 2030 onward, and we plan to start providing domestic manufacturers with development samples for demonstration from 2025. Through this initiative, we will achieve a hydrogen society and the strengthening of competitiveness of industries in Japan.

In recent years, there has been a rapid increase in fires from lithiumion batteries found in smartphones, mobile battery packs, electricassist bicycles, and such. According to statistics from Tokyo Fire Department, therewere be caused by lithium-ion batteries in the five-year period from 2019 to 2023. This growing trend is becoming a severe social issue.
Lithium-ion battery fires are difficult to extinguish using common methods such as cutting off oxygen and spraying water due to reasons including the generation of flammable gases within the battery, combustion at high temperatures reignition after extinguishing.
At Nippon Kayaku, we have developed an innovative fire-extinguishing component using the expertise of the Safety Systems 온라인 바카라 사이트, such as the handling of pyrotechnics and other reactive substances and extrusion processing technology for manufactis fireextinguishing component specifically for lithium-ion batteries, automatically reacting with high heat and instantaneously releasing effective fire-extinguishing agents. The negative catalytic effect of the released potassium radicals can quickly extinguish the flames of a flames of a effectively preventing the fire from spreading to other battery cells and peripheral devices.
Amid progress in the full-scale adoption of electric vehicles and mandatory collection of lithium-ion batteries, safe handling and processing techniques will become increasingly important. Significantly improving the safety of lithium-ion batteries will be an important solution meeting these social requirements.

Toward achieving carbon neutrality by 2050, the world is currently facing the major issue of moving away from dependence on fossil fuels. To address this issue, we saw great potential in the unique zeolite catalyst i. FY2024, we invested in iPEACE223 and embarked on full-scale joint research and development.
iPEACE223 develops an innovative catalyst and process for high-efficiency, low-cost production of propylene—a raw material for plastics and synthetic fibers—from bioethanol, a fuel additive that is widely used world significantly contribute to decarbonization across the supply chain as a fuel and as a raw material for acrylic acids and methacrylic acids, which are also part of our 온라인 바카라 사이트.
The greatest feature of iPEACE223’s technology is that it can produce propylene from ethylene in one step with extremely high efficiency using its unique zeolite catalyst. Besides solving the issue of methods, it can limit energy-equivalent CO2 emissions to about one-third compared to petroleum-based processes.
We are advancing practical application of this innovative technology by combining the innovative catalyst and plant design technologies of iPEACE223 with the catalyst development and industrialization expertise of Nippon Kayaku. We are accelerating3 as well as stable supply. Nippon Kayaku will continue to promote research and development that provides green materials as options for all aspects of life.