Core Viewpoint - The GC-4200 gas chromatograph developed by Dongxi Analysis has won the "Excellent Product Design Award" in the industrial category at the 2026 German Design Award, highlighting its outstanding design and performance as a notable representative of domestic products [2][10]. Group 1: Award Significance - The German Design Award is recognized globally as a benchmark in contemporary design, covering various categories such as spatial design, product design, and visual communication since its establishment in 1953 [8]. - The award is known for its stringent selection criteria, where nominations must come from the German Design Council, ensuring that nominated works are often winners of other international design awards [9]. Group 2: Product Features - The GC-4200 gas chromatograph features three core design elements: a 10-inch inclined touchscreen that supports remote control, a logo with feedback functionality, and a layered structure with asymmetric ventilation, integrating precision, usability, and intelligent control [7]. - The product is equipped with an advanced EPC gas path control system and a high-precision temperature control system, emphasizing high sensitivity, stability, and intelligence, making it suitable for diverse applications such as environmental monitoring, food safety, and pharmaceutical research [10]. Group 3: Market Impact - The recognition of the GC-4200 at the German Design Award signifies a dual breakthrough in competitiveness and brand influence for domestic gas chromatographs in the global high-end instrument market, setting an excellent benchmark for Chinese instrument companies aiming to expand internationally [10].

Core Viewpoint - The AOD ultraviolet laser direct writing lithography system launched by Yuzhiquan showcases advanced micro-nano processing capabilities, aiming to lead the international market in this technology [2][20]. Group 1: Outstanding Direct Writing Performance - The AOD system redefines the balance between precision and efficiency in precision processing [3]. - It features ultra-fine processing capabilities with a minimum feature size of 250nm, suitable for complex structures in various applications [4]. - The system includes high stability lithography processes with an automatic focusing range of 100μm, ensuring consistent focus across substrates [11][12]. - It offers flexible adaptability across multiple scenarios with multi-magnification writing heads for on-demand precision and efficiency switching [13]. Group 2: Comprehensive System Features - The AOD system boasts wide compatibility, high controllability, and expandability, with a maximum exposure area of 200×200mm² and temperature stability of ±0.1° [15][17]. - It supports various substrate types, including 9-inch wafers, with thicknesses ranging from 0.1mm to 15mm, accommodating both flexible and rigid substrates [17]. - The system allows for efficient processing modes with multi-channel expansion, enabling diverse processing capabilities [18]. Group 3: Intelligent and Flexible Processing Features - The AOD system provides programming interfaces for custom structure processing, allowing users to exceed standard format limitations [19]. - It supports script-based writing for design freedom, enabling users to generate complex arrays through parameter modifications [25]. Group 4: Broad Application Prospects - In the semiconductor manufacturing sector, the AOD system eliminates the need for masks, significantly reducing development cycles and production costs [21]. - In microfluidics and biomedical fields, it excels in high aspect ratio microchannel processing, meeting stringent requirements for precision medical devices [22]. - The system is capable of processing complex optical structures for micro-optical components and AR/VR devices, facilitating rapid development in consumer electronics [23]. Group 5: Market Position and Competitive Advantage - The successful launch of the AOD system positions Yuzhiquan as a "domestic alternative breaker," filling a technological gap in high-precision micro-nano processing equipment in China [25][26].

Core Viewpoint - The Ministry of Ecology and Environment has officially approved the establishment of a key laboratory focused on noise and vibration control in high-speed rail and urban rail transit, relying on the China Academy of Railway Sciences [1][2]. Summary by Sections Laboratory Establishment - The Ministry of Ecology and Environment has issued a letter to the China Academy of Railway Sciences, agreeing to the establishment of the "Key Laboratory for Noise and Vibration Control of High-Speed Rail and Urban Rail Transit" [2][3]. - The approval was based on a recommendation from the Beijing Ecological Environment Bureau [3]. Research Focus - The laboratory's core tasks will focus on the technological needs for controlling noise and vibration pollution in high-speed rail and urban rail transit [3]. - Specific research directions include the coupling mechanisms and propagation laws of rail transit noise and vibration, source monitoring technologies, automatic monitoring equipment development, lifecycle control strategies, and comprehensive vibration reduction and noise control technologies [3][4]. Collaboration and Talent Development - The laboratory aims to serve as a collaborative platform to promote communication and cooperation among leading units and researchers in the field [3][5]. - There is an emphasis on cultivating innovative talent in related areas [3][5]. Construction Timeline and Requirements - The construction period for the laboratory is set for two years, during which the China Academy of Railway Sciences is required to enhance research conditions and establish a "joint, open, mobile, and competitive" operational mechanism [4][5]. - The laboratory must submit annual construction reports to continuously improve its capabilities in scientific research, management decision support, and talent cultivation [5].

Core Viewpoint - The article highlights the breakthrough of China's 90GHz oscilloscope, marking a significant advancement in high-end electronic measurement instruments and addressing the long-standing "bottleneck" in chip technology due to Western restrictions on exports [4][5][6]. Group 1: Product Launch and Significance - On October 15, 2025, Shenzhen Wanliyan Technology Co., Ltd. launched its flagship product, a 90GHz bandwidth ultra-high-speed real-time oscilloscope, achieving the highest level in China and the second globally [5]. - This oscilloscope features four channels, each independently supporting 90GHz bandwidth and a sampling rate of 200G, representing a new benchmark for domestic real-time oscilloscopes [5]. - The launch is seen as a critical breakthrough in high-end electronic measurement instruments, providing essential support for the development of next-generation communication, artificial intelligence, and aerospace technologies in China [6]. Group 2: Market Challenges - The oscilloscope market in China faces three main challenges: 1. Supply challenge: High-speed interface testing for chips below 7nm requires oscilloscopes with bandwidths above 60GHz to 90GHz, while Western products reach up to 110GHz, leaving a significant gap [9]. 2. Efficiency challenge: The exponential increase in testing complexity due to higher interface speeds is severely slowing down the R&D process [10]. 3. Experience challenge: Traditional button-based interactions are inadequate for modern engineers' needs for complex testing scenarios [11]. Group 3: Technological Innovation and User Experience - The success of the 90GHz oscilloscope is attributed to deep technological accumulation and extensive industry collaboration, involving key technologies such as processes, materials, chips, and software algorithms [13]. - The oscilloscope features a fully touch-screen design and gesture recognition capabilities, enhancing user experience and operational efficiency, akin to modern smartphones and electric vehicles [13][14]. - Feedback from users, including top institutions like Shanghai Jiao Tong University, indicates significant improvements in usability and efficiency, with some stating it "liberates testing productivity" [14]. Group 4: Industry Positioning and Market Strategy - The company emphasizes that the launch of the 90GHz product is not intended to undermine domestic competitors but to collectively enhance China's instrument and meter industry reputation [15]. - The oscilloscope provides a crucial alternative in the domestic market, especially as the Wassenaar Arrangement's restrictions on high-speed real-time oscilloscopes are set to change, while U.S. regulations remain at 60GHz [15]. - The company aims to create a long-lasting brand that can be trusted for quality and performance, similar to the evolution seen in the electric vehicle sector [15].

摘要 ： 中国科大联合武汉大学研制出微型紫外光谱仪，基于氮化镓基级联光电二极管架构，实现高精度光谱探测与多光谱成像，成本有望降至传统光谱仪的百分 之一。 特别提示 微信机制调整，点击顶部"仪器信息网" → 右上方"…" → 设为 ★ 星标，否则很可能无法看到我们的推送。 从中国科学技术大学获悉，该校教授孙海定联合中国科学院院士、武汉大学教授刘胜，成功研制出微型紫外光谱仪，并实现片上光谱成像。该 光谱成像仪 基于新型氮化镓基级联光电二极管架构，并与深度神经网络算法融合，实现了高精度光谱探测与高分辨率多光谱成像，其光谱响应 速度达到超快纳秒级。相关成果日前在线发表于《自然·光子学》。 ——会议通知—— 光谱成像技术可同时获取光谱与空间信息，在成分分析、环境监测、卫星遥感和深空探测等领域具有重要价值。传统光谱仪依赖光栅分光和机 械扫描，系统复杂、体积庞 大、价格高昂， 难以满足便携式和实时化检测需求，成为该领域发展的关键瓶颈。 中 国 科 大 、 武 大 联 合 成 功 研 制 微 型化 紫 外 光 谱 仪 芯片 微 型 紫 外 光 谱 仪 三 维 器 件 结 构 示 意 图 （ 图 源 ： 中 国 科 学 技 术 ...

Core Viewpoint - The article discusses the establishment of the High-end Scientific Instrument National Transfer Center in the Guangdong-Hong Kong-Macao Greater Bay Area, focusing on the transfer and transformation of high-end scientific instrument technologies from national universities [2]. Group 1: Center Overview - The center is registered with the Guangzhou Civil Affairs Bureau and is supervised by the Guangzhou Education Bureau, aiming to facilitate the transfer and transformation of high-end scientific instrument technologies from universities [2]. - It is recognized as a national regional technology transfer center approved by the Ministry of Education, specifically targeting the transfer of scientific achievements related to high-end scientific instruments [2]. Group 2: Expert Recruitment - The center is seeking to establish an expert database to enhance the efficiency of technology transfer in the field of high-end scientific instruments [2]. - Responsibilities of the experts include project evaluation, providing consulting and training services, offering identification and promotion services for achievements, and participating in industry and technology exchange activities [3]. Group 3: Expert Qualifications - Basic qualifications for experts include good health, strong political and professional ethics, and the ability to provide independent and objective professional opinions [3]. - Specific qualifications vary by category: - Technical experts should have a PhD or senior professional title and significant influence in their field [4]. - Management experts should have experience in high-level management within innovative enterprises or technology parks [4]. - Financial experts should be familiar with financial management and hold relevant senior qualifications [5]. - Intellectual property experts should have extensive knowledge of IP laws and at least five years of relevant experience [5]. Group 4: Application Process - Experts interested in joining the database must fill out specific forms and submit them via email by October 31, 2025 [6]. - The center will conduct qualification reviews and categorize experts based on their backgrounds and experiences [7].

摘要 ：近日，宁夏大学发布多批政府采购意向，仪器信息网特对其中的仪器设备品目进行梳理，统计出14项仪器设备采购意向，预 算总额达9211万元。 特别提示 微信机制调整，点击顶部"仪器信息网" → 右上方"…" → 设为 ★ 星标，否则很可能无法看到我们的推送。 近 日， 宁夏大学发布 14 项仪器设备采购意向，预算总额 9211万 元，涉及球差校正高分辨电镜 、球差校正器、能 谱仪附件、高分辨相机、 聚焦离子束电镜 等，预计采购时间 为202 5 年 3~10 月。 详细采购清单： 宁夏大学 202 5 年 3~10 月仪器设备采购 意向汇总表 | 采购 | | 预算 | 采购 | | --- | --- | --- | --- | | | 需求概况 | | | | 项目 | | 万元 | 时间 | | | 球差校正场发射透射电子显微镜主要由电子光学系统、高压系 | | | | | 统、真空系统等部分组成，另配置球差校正器、能谱仪附件、 | | | | 化学化工 | 高分辨相机等。用于材料样品的原子级高分辨形貌观察和原子 | | | | 学院—— | | | | | 球差校正 | 级成分分析。可以在极短时间内 ...

Core Insights - Tsinghua University has announced procurement intentions for 28 items of scientific instruments, with a total budget of 104 million yuan, expected to be purchased between August and October 2025 [2][3]. Procurement Overview - The total procurement amount for scientific instruments by Tsinghua University in 2025 has exceeded 2.27 billion yuan, with various procurement intentions announced throughout the year [4]. - Specific procurement intentions include: - 18.3 million yuan for various instruments in August 2025 - 21.3 million yuan for spectrometers and confocal microscopes in July 2025 - 10 million yuan for scanning electron microscopes and lithography machines in June 2025 - 14.8 million yuan for other instruments in June 2025 - 37 million yuan for additional instruments in May 2025 [4]. Instrument Details - Key instruments included in the procurement: - Cold Field Emission Scanning Electron Microscope (CFE-SEM): A high-resolution scanning electron microscope utilizing a cold field emission source [4]. - High-Resolution Transmission Electron Microscope (HRTEM): Capable of observing atomic-level structures with a resolution of 0.05-0.1 nm, essential for materials science and nanotechnology [6]. - Low Temperature Strong Magnetic Field Multifunctional Probe Microscope System: Integrates low-temperature environments and strong magnetic fields for advanced research in condensed matter physics and quantum materials [7]. Detailed Procurement List - A detailed procurement list includes various systems and their respective budgets: - Micro-CT for small animals: 3.8 million yuan - Dilution refrigerator: 5 million yuan - Local automatic sampling analysis system: 3.8 million yuan - Multifunctional probe microscope system: 5.2 million yuan - Etching machine: 2.8 million yuan - Electron beam exposure machine: 16 million yuan [8][10]. Additional Instruments - Other notable instruments include: - 3D visualization systems for pathology and anatomy education, with budgets ranging from 3.3 million to 4.4 million yuan [10]. - Automated antibody cloning and expression evaluation systems, with budgets of 3.87 million and 2.72 million yuan respectively [10]. Summary of Procurement Intentions - The procurement intentions reflect a significant investment in advanced scientific research capabilities, indicating Tsinghua University's commitment to enhancing its research infrastructure and capabilities in various scientific fields [9][10].

Core Insights - The inquiry value of the Instrument Information Network increased by 39% quarter-on-quarter in Q3 2025, with stable demand in the top 10 categories, and a slight decrease in the proportion of domestic demand [2][4][7] Inquiry Value and Demand Categories - In Q3 2025, the overall inquiry value increased by 39%, with industrial enterprises accounting for the largest share, followed by universities. Industrial enterprises had a higher volume of inquiries, while universities had a higher value per inquiry [4][6] - The top 10 categories of instruments remained largely unchanged from Q2, indicating stable demand for major instrument types. The categories included gas chromatographs, infrared spectrometers, and centrifuges among others [6][4] Domestic vs. Imported Demand - The proportion of inquiries specifying domestic products was 16%, while imported products accounted for 6%. There was a 3 percentage point decrease in the demand for domestic products and a corresponding increase for imported products, reflecting a temporary fluctuation within the broader trend of domestic substitution [7][4] Offline Activities and Market Engagement - The Q3 buyer service team of the Instrument Information Network organized a "Ten Thousand Miles" event in Shijiazhuang, collaborating with local partners to engage with pharmaceutical companies, universities, and testing institutions. This initiative aimed to understand the application and challenges of domestic testing equipment [10][9] Membership and Platform Services - The Instrument Information Network offers a membership service called "Yixin Tong," which provides manufacturers with dedicated websites and extensive exposure to over 25 million professional users, enhancing product visibility and brand empowerment [13][14]

Core Viewpoint - The article highlights the appointment of Chen Ying as the new Party Secretary and Director of the China Quality Inspection and Testing Research Institute, indicating a significant leadership change within the organization [2][3]. Leadership Changes - Chen Ying has officially been promoted from Vice President to Party Secretary and Director of the China Quality Inspection and Testing Research Institute [2][3]. - Other key leadership positions include: - Fang Zhiqiang: Party Committee Member and Vice President - Jiang Jiadong: Vice President - Guo Jihuan: Party Deputy Secretary and Discipline Inspection Secretary - Lin Xiangmei: Vice President - Yao Zehua: Vice President [5]. Chen Ying's Background - Chen Ying is a leading expert in agricultural products and food quality safety, holding a doctorate and serving as a second-level researcher and doctoral supervisor [7]. - She has received numerous accolades, including being a representative at the 18th National Congress of the Communist Party of China, a national "high-level talent special support plan" innovation leading talent, and a recipient of the State Council government special allowance [7]. - Chen has been involved in various national and international projects, publishing over 200 papers and holding 49 authorized invention patents [8]. Institute's Responsibilities - The China Quality Inspection and Testing Research Institute is responsible for innovating quality inspection systems and evaluating technology for quality enhancement projects [9]. - The institute conducts research on inspection and testing technology standards and methods across various sectors, including industrial and consumer goods, food, and agricultural products [9].