EJER TECH Completes 100% Acquisition of Baimaite Instruments (Changzhou) Co., Ltd.— Wholly Owned Subsidiary Officially Renamed “EJER TECH (Changzhou) Co., Ltd.”Hangzhou, February 6, 2026 — EJER TECH Co., Ltd. (“EJER TECH”) today announced the successful completion of its 100% acquisition of Baimaite Instruments (Changzhou) Co., Ltd., along with the formal registration of a corporate name change to EJER TECH (Changzhou) Co., Ltd. This strategic integration marks a pivotal advancement in EJER TECH’s expansion within the precision instrumentation and smart equipment sector, significantly enhancing its R&D-to-manufacturing synergy across the Yangtze River Delta—a core hub of China’s advanced manufacturing ecosystem.According to official business registration records, Baimaite Instruments (Changzhou) was previously co-owned by EJER TECH and other investors. With this transaction, EJER TECH now holds full ownership and has fully integrated the entity into its unified operational and governance structure. The Changzhou facility will serve as EJER TECH’s primary manufacturing and logistics center for East China, supporting both domestic and international markets.Founded in 2010, EJER TECH is a nationally recognized technology-driven SME and a certified high-tech enterprise at both Zhejiang provincial and Hangzhou municipal levels. The company holds 16 utility model patents, 25 software copyrights, and over 30 registered trademarks. Its solutions are integral to advanced applications in semiconductors, new energy, environmental protection, scientific research, and healthcare—sectors demanding high reliability, precision, and intelligent connectivity.In recent years, EJER TECH has pursued a “Platform + Ecosystem” growth strategy, combining organic innovation with targeted acquisitions to build a diversified portfolio spanning smart instruments, IoT-enabled monitoring systems, and next-generation equipment for emerging industries.The newly rebranded EJER TECH (Changzhou) will continue to specialize in laboratory analytical instruments, thermostatic and heating systems, and environmental monitoring devices. Critically, it will now fully integrate EJER TECH’s proprietary “EJER Cloud” IoT platform, enabling real-time remote monitoring, predictive diagnostics, and data-as-a-service capabilities that align with Industry 4.0 standards.A company spokesperson noted: “Changzhou sits at the heart of southern Jiangsu’s advanced manufacturing corridor—boasting world-class infrastructure, talent, and supply chain density. Full ownership empowers us to optimize production agility, ensure quality consistency, and deliver faster, more responsive support to our clients in high-tech industries.”Industry observers view this move as the latest step in EJER TECH’s regional “R&D–Manufacturing–Service” integration strategy, following earlier investments in Suzhou and Wuhu. As China accelerates domestic substitution in critical scientific and industrial equipment, vertically integrated players with end-to-end technical capabilities are gaining strategic advantage.Going forward, EJER TECH (Changzhou) will operate as the group’s East China Manufacturing Center, scaling production of both standardized and customized systems. It will work in close coordination with EJER TECH’s Hangzhou headquarters to accelerate the development and deployment of intelligent, modular instrumentation—helping drive the modernization and self-reliance of China’s scientific and industrial testing infrastructure.Let me know if you'd like a version optimized for a specific region (e.g., U.S., EU), or formatted for distribution via PR Newswire, Business Wire, or corporate websites!

EJER TECH Completes 100% Acquisition of Anhui Kabeni New Energy Co., Ltd.— Subsidiary Rebranded as Wuhu EJER TECH Co., Ltd.January 17, 2026 – Hangzhou, China – EJER TECH announced today the successful completion of its 100% acquisition of Anhui Kabeni New Energy Co., Ltd. The acquired company has been officially renamed Wuhu EJER TECH Co., Ltd., marking a strategic milestone in EJER TECH’s expansion into the new energy and intelligent manufacturing sectors.The restructured entity, now a wholly owned subsidiary of EJER TECH, will retain its operational base in Wuhu, Anhui Province, and is set to play a pivotal role in advancing the group’s integrated capabilities across the Yangtze River Delta region.Founded in 2010, EJER TECH is a nationally recognized technology-driven enterprise based in Hangzhou, specializing in IoT solutions, environmental monitoring instruments, smart manufacturing equipment, and Class II medical devices. In recent years, the company has accelerated its nationwide footprint with subsidiaries and offices in Shanghai, Zhengzhou, Hefei, Chengdu, and other key cities. The acquisition of Anhui Kabeni New Energy follows EJER TECH’s earlier full acquisition of Kabeni Electronic Equipment (Suzhou) Co., Ltd. in 2025, underscoring its strategic focus on consolidating core technologies and industrial assets under the “Kabeni” ecosystem.Wuhu EJER TECH Co., Ltd. will concentrate on R&D and integration of new energy equipment and intelligent control systems. Leveraging EJER TECH’s proprietary “EJER Cloud” IoT platform, the subsidiary aims to deliver end-to-end solutions for data acquisition, remote operations, and energy efficiency management tailored to new energy applications.“Wuhu is a critical hub for new energy and advanced manufacturing in western Yangtze River Delta,” said a company spokesperson. “This integration strengthens our ability to offer seamless, intelligent solutions—from R&D to deployment—supporting China’s broader decarbonization goals.”Industry observers note that this move reflects EJER TECH’s dual-track strategy of technological innovation and strategic investment, positioning the company at the forefront of the convergence between smart infrastructure and clean energy.Looking ahead, EJER TECH remains committed to its mission of “technology-driven growth and innovation-led development,” with plans to further expand its global presence and provide reliable equipment and professional services to universities, research institutions, environmental protection agencies, and the semiconductor manufacturing industry.

China is rapidly advancing its position in the global race for solid-state batteries—the next frontier in electric vehicle and energy storage technology. With semi-solid-state batteries entering mass production in 2025, Chinese companies like BYD and SVOLT are already supplying high-energy-density cells to premium EV brands in Europe.Industry data shows China’s sodium-ion battery output surged from 1.2 million units in 2019 to over 31 million in 2024—a 25-fold increase—highlighting the nation’s aggressive push toward diversified, safer, and higher-performance battery solutions.Experts note that while full solid-state commercialization remains a few years away, hybrid (semi-solid) designs are bridging the gap today. Innovations in composite electrolytes, ultra-thin separators, and AI-enabled safety monitoring are accelerating industrial readiness.Backed by strong material science capabilities, integrated supply chains, and government support under the upcoming “15th Five-Year Plan,” China aims not just to produce more batteries—but better ones—positioning itself as a global leader in the post-lithium era.News content compiled from online sources.

The global semiconductor market is entering a pivotal phase in 2025, driven by surging demand for artificial intelligence (AI), the expansion of edge computing, and sustained investments in electric vehicles (EVs) and 5G infrastructure. According to recent industry reports, the market is projected to grow at a compound annual growth rate (CAGR) of 8.5% over the next two years, reaching an estimated value of $720 billion by the end of 2025.A key catalyst for this growth is the explosive adoption of AI technologies across data centers, consumer electronics, and industrial applications. High-performance computing (HPC) chips, particularly GPUs and AI accelerators, are experiencing unprecedented demand as companies race to deploy generative AI models and enhance automation capabilities. Industry leaders such as NVIDIA, AMD, and Intel are expanding production and R&D efforts to meet this demand, while a new wave of fabless startups is emerging to innovate in specialized AI silicon.Meanwhile, the automotive semiconductor segment continues to gain momentum. With global EV sales surpassing 30 million units in 2025, the need for power management ICs, microcontrollers, and sensor technologies has intensified. Suppliers like NXP, Infineon, and STMicroelectronics are reporting strong order backlogs, signaling sustained growth in this vertical.Geopolitical dynamics remain a critical factor shaping the industry landscape. The U.S.-China tech rivalry has prompted both nations to bolster domestic semiconductor manufacturing. The U.S. CHIPS Act and China’s renewed focus on self-reliance are driving significant capital investments in foundry capacity and R&D. However, supply chain fragmentation and export controls continue to pose challenges for global collaboration.On the innovation front, advancements in advanced packaging (e.g., chiplets and 3D stacking) and the transition to next-generation process nodes—such as Intel’s 18A and TSMC’s 2nm—are enabling higher performance and energy efficiency. These technologies are expected to be critical in sustaining Moore’s Law in the post-3nm era.Despite strong fundamentals, the sector faces risks, including potential overcapacity in mature-node chips, cyclical inventory adjustments, and macroeconomic uncertainties stemming from inflation and interest rate policies.In conclusion, 2025 marks a transformative year for semiconductors, where technological innovation and strategic realignment are redefining global competitiveness.This analysis reflects only personal opinion.

The global semiconductor industry is experiencing a nuanced phase of recovery and transformation in 2025, marked by a rebound in demand after a prolonged inventory correction, escalating geopolitical competition, and surging investments in artificial intelligence (AI) and advanced computing technologies.After a challenging 2023 and early 2024 characterized by oversupply and weakened consumer electronics demand, the market is showing signs of stabilization. According to recent data from Gartner and SEMI, global semiconductor revenues are projected to grow by approximately 12% in 2025, driven primarily by renewed demand in data centers, automotive electronics, and industrial applications.AI Fuels Demand for Advanced ChipsThe most significant driver of growth continues to be the explosive expansion of AI. Data centers are increasingly deploying high-performance computing (HPC) chips, particularly GPUs and AI accelerators, to support large language models and generative AI applications. Companies like NVIDIA, AMD, and emerging players in the AI chip space are reporting strong order volumes, with lead times extending for cutting-edge logic chips.This demand has intensified competition in the foundry sector, where TSMC remains the dominant player in advanced node manufacturing (below 5nm). Samsung and Intel Foundry are aggressively investing to close the technology gap, with Intel committing over $100 billion to expand its U.S. and European fabs under the CHIPS and Science Act and EU Chips Act, respectively.Memory Market Rebounds StronglyThe memory segment, particularly DRAM and NAND flash, is witnessing a robust recovery. After severe price declines in 2023, major suppliers such as Samsung, SK Hynix, and Micron reduced output, leading to a supply crunch in early 2025. As a result, memory prices have surged by over 30% quarter-on-quarter, benefiting manufacturers’ margins. The revival is fueled by inventory rebuilding in smartphones, PCs, and servers, as well as increased storage requirements for AI training and inference.Geopolitical Fragmentation and Supply Chain ResilienceDespite the positive momentum, the industry faces significant headwinds from geopolitical tensions. U.S. export controls on advanced semiconductor technology to China continue to reshape global supply chains. In response, China is accelerating its domestic semiconductor capabilities, with SMIC advancing to 7nm process nodes for certain applications and significant state-backed investments in equipment and materials.However, challenges remain in areas such as extreme ultraviolet (EUV) lithography and advanced packaging, where foreign technology still dominates. The push for self-reliance has led to a surge in Chinese fabless design companies and domestic equipment suppliers, though full technological independence remains a long-term goal.Outlook: Cautious Optimism with Structural ShiftsAnalysts project that while the cyclical upswing will support growth through 2025, long-term industry dynamics are being reshaped by structural forces: the convergence of AI, 5G/6G, electric vehicles, and edge computing. Sustainability and supply chain transparency are also becoming critical considerations for major OEMs.“While the semiconductor cycle is turning upward, the era of easy growth is over,” said Dr. Lisa Chen, Senior Analyst at TechInsights. “Companies must now navigate a more fragmented, capital-intensive, and geopolitically sensitive landscape. Innovation, collaboration, and resilience will define the winners.”In conclusion, the semiconductor industry stands at a pivotal juncture—balancing short-term recovery with long-term strategic transformation. As the backbone of the digital economy, its evolution will continue to shape the future of technology across every sector.

Friday, May 9, 2025 — EuropeRecent reports highlight that European lawmakers and industry groups are advocating for a "Chips Act 2.0", aiming to further bolster the region's semiconductor development. This push comes amidst concerns that the original objectives set by the EU's formal chip strategy in 2022 may not be met, necessitating significant reforms and upgrades.The EU's ambition to achieve 20% of global chip production by 2030 appears increasingly out of reach, according to the latest assessments. The EU Chips Act, enacted in 2022 and effective from 2023, ambitiously targeted raising the EU’s share of the global semiconductor market from 10% to 20% by the end of this decade, including the domestic production of advanced chips at 2 nanometers and below. To accomplish these goals, the act planned to mobilize €43 billion in public and private investments, with €33 billion coming from the EU budget and the remainder from member states and the private sector.Despite these initiatives, which have already attracted major semiconductor manufacturing projects such as Intel’s €33 billion investment in two new wafer fabs and a joint venture between TSMC and Bosch focusing on mature 28nm technology, several challenges persist. These include funding shortfalls, technological gaps, heavy reliance on imported raw materials, and high energy costs. Consequently, some projects have been delayed or even canceled.Adding to these concerns, the European Court of Auditors (ECA) has projected that, at the current pace, the EU might only reach 11.7% of the global semiconductor market by 2030. In response, discussions around the Chips Act 2.0 are underway, with proposals suggesting a need for €20 billion in grants across the entire semiconductor supply chain, alongside strategic adjustments to support innovation in high-performance computing, AI, and quantum technologies.Industry experts argue for a renewed semiconductor strategy with clear, achievable, and time-bound goals, backed by appropriate funding measures and regulatory adjustments when necessary. There is also an emphasis on leveraging Europe’s strengths, like ASML’s leadership in EUV lithography and Zeiss’s advancements in optical systems, to enhance its position in the global semiconductor landscape.Furthermore, the trend towards collaborative efforts within the EU is becoming more pronounced, with nine countries forming the "Semicon Coalition" to boost self-sufficiency in chip production and strengthen their global standing. This coalition focuses on advancing technology sovereignty, enhancing supply chain resilience, and fostering innovation competitiveness.Despite the hurdles, through legislative enhancements, innovative approaches, and increased cooperation, Europe aims to build a resilient ecosystem that supports the sustainable growth of its semiconductor industry. It is important to note that the perspectives presented in this news article are for reference only and represent personal opinions.