Core Viewpoint - The announcement of the China Academy of Sciences' 2025 instrument procurement project reveals a total of 26 packages of equipment, with 19 sets of instruments awarded, amounting to 80.143 million yuan [1][2]. Summary by Sections Procurement Overview - The project began bidding on July 2, with a total budget of 115 million yuan, covering high-end research equipment such as mass spectrometers, electron microscopes, X-ray diffractometers, nuclear magnetic resonance spectrometers, and cell imaging analysis systems [2]. - As of July 29, 19 sets of instruments have been confirmed for award, totaling 80.143 million yuan [2]. Import and Domestic Instrumentation - All packages that allowed for the procurement of imported products were ultimately awarded to foreign instruments, while Guoyi Quantum secured the only package that permitted the purchase of domestic instruments [2][3]. - This indicates that domestic instruments require some policy protection to secure more orders in government procurement [3]. Detailed Package Information - The procurement includes various packages with specific instruments and their respective brands, models, quantities, and prices. For example: - Package 1: National Instrument Quantum, NCEDM-120, 1 set, 6.05 million yuan [3]. - Package 2: Thermo Scientific, Element XR, 1 set, 4.1929 million yuan [4]. - Package 3: Bruker, D8 QUEST, 1 set, 4.195 million yuan [4]. - The detailed breakdown continues for all 26 packages, highlighting the competitive landscape between domestic and foreign suppliers [4][5].

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Core Viewpoint - Suzhou Su Test Experiment Group Co., Ltd. (referred to as Su Test) reported a steady growth in its performance for the first half of 2025, with revenue reaching 991 million yuan and net profit at 117 million yuan, driven primarily by the significant growth in integrated circuit verification and analysis services, which increased by 21.01% [1][2]. Revenue and Profit Growth - For the first half of 2025, Su Test achieved operating revenue of 991 million yuan, representing a year-on-year increase of 8.09%, while the net profit attributable to shareholders rose to 117 million yuan, marking a 14.18% increase [3]. - The revenue breakdown by business segments shows: - Testing equipment business revenue of 310 million yuan, up 6.32% - Environmental and reliability testing services revenue of 487 million yuan, up 5.75% - Integrated circuit verification and analysis services revenue of 155 million yuan, up 21.01%, making it the fastest-growing segment [3]. Strategic Focus and Development - The company emphasizes a strategy of "focusing on core business, dual-wheel drive, and integration of manufacturing and services," which has led to steady performance improvement through enhanced technology research and market expansion [3]. - In the testing equipment segment, Su Test is focusing on high-end equipment development, particularly in thermal vacuum, low-pressure, and hydraulic categories, while also enhancing technical reserves for emerging industries such as new energy and commercial aerospace [4]. - The environmental and reliability testing services are expanding capabilities in space environment testing and online detection for aviation, alongside deepening collaborations with universities for technology transfer [4]. - The integrated circuit verification and analysis services have seen significant developments, including the completion of the Shenzhen laboratory expansion and the establishment of an automotive electronics reliability verification center, enhancing service capabilities in the Guangdong-Hong Kong-Macao Greater Bay Area [4].

Core Viewpoint - Chongqing University has announced procurement intentions for 30 items of scientific instruments and equipment, with a total budget of 120 million yuan, expected to be purchased between April and July 2025 [1][2]. Instrument Procurement Summary - The procurement includes high-energy linear accelerator imaging and industrial CT systems, liquid chromatography-time-of-flight mass spectrometry, variable temperature Hall effect experimental instruments, large-scale seepage erosion testing devices, environmental scanning electron microscopes, photothermal deflection spectrometers, high-speed testing machines in a wide temperature range, and micro-particle morphology characterization devices [2][3][4]. Detailed Instrument Descriptions - **Environmental Scanning Electron Microscope (ESEM)**: Capable of imaging samples with moisture or volatile components without extensive drying or coating, beneficial in biology, materials science, and geology [3]. - **Photothermal Deflection Spectrometer**: A high-sensitivity analysis tool for measuring optical absorption characteristics of materials, particularly useful for studying defects in semiconductors and nanomaterials [3]. - **High-Speed Testing Machine in Wide Temperature Range**: Designed for dynamic mechanical performance testing across extreme temperatures, crucial for evaluating material performance under varying environmental conditions [4]. Budget and Procurement Timeline - The total budget for the procurement is set at 120 million yuan, with specific allocations for various instruments, such as 5.5 million yuan for the high-energy linear accelerator imaging and industrial CT system, and 1.6 million yuan for the liquid chromatography-time-of-flight mass spectrometry [6][8]. - The expected procurement timeline is from April to July 2025, with specific delivery and installation deadlines outlined for each instrument [5][6][8]. Additional Equipment and Systems - The procurement also includes systems for organic pollutant treatment in environmental samples, Fourier transform infrared spectrometers, and high-temperature mechanical performance testing equipment, among others [8][9][10]. - The focus is on enhancing research capabilities in environmental science, materials science, and engineering applications, aligning with national "double first-class" initiatives [7][8].

Core Viewpoint - The implementation of new standards in August 2025 aims to enhance product quality and promote the standardized development and safety levels across various industries, including food safety, environmental protection, healthcare, petrochemicals, and electronics [2][5]. Summary by Categories Food Safety Standards - A total of 87 food safety standards will be implemented, covering areas such as royal jelly, feed, health food, and grain quality testing. High-performance liquid chromatography will be essential for detecting substances like hydroxymethylfurfural in royal jelly [4][6]. - Specific standards include GB/T 45625-2025 for measuring hydroxymethylfurfural in royal jelly and GB/T 17812-2025 for measuring vitamin E in feed [6][8]. Environmental Protection Standards - 20 environmental protection standards will be introduced, focusing on air quality and pollution monitoring. Techniques such as ion chromatography and gas chromatography-mass spectrometry will be utilized for analyzing particulate matter [4][9]. - Notable standards include HJ 1411-2025 for particulate matter source analysis and GB/T 32151.39-2025 for greenhouse gas emission accounting [9][10]. Healthcare Standards - 11 healthcare standards will be implemented, including guidelines for medical device adverse event risk signal investigation and management [9][10]. - Key standards include GB/T 20405.5-2025 for measuring absorbent materials for incontinence and GB/T 34750-2025 for diagnosing Glasser's disease [9][10]. Petrochemical Standards - 29 petrochemical standards will be introduced, focusing on chemical classification, labeling, and various testing methods for materials used in the industry [9][10]. - Important standards include GB/T 14666-2025 for analytical chemistry terminology and GB/T 24212-2025 for methyl naphthalene oil [9][10]. Electronics and Electrical Standards - 26 electronics and electrical standards will be implemented, addressing safety requirements and performance testing for various electronic products [9][10]. - Significant standards include GB/T 45235-2025 for measuring bisphenol A in electronic products and GB/T 22452-2025 for general specifications of borate nonlinear optical single crystal components [9][10]. Other Industry Standards - Additional standards across various sectors, including machinery, construction, and transportation, will also be implemented, contributing to the overall enhancement of industry practices and safety [9][10].

Core Viewpoint - The implementation of two new national ecological environment standards, HJ 1413-2025 and HJ 1414-2025, on August 1, 2025, will standardize the measurement of specific polysaccharides in particulate matter, enhancing the scientific and precise analysis of air quality in China [1][9]. Group 1: Ion Chromatography Method (HJ 1413-2025) - The HJ 1413-2025 standard specifies the technical requirements for measuring left-handed dextran, mannan, and galactan in particulate matter using ion chromatography [2]. - The method involves ultrasonic extraction of the sample, purification through organic and heavy metal purification columns, followed by separation using an ion chromatography column and detection via amperometric detector [2]. - Detection limits for left-handed dextran, mannan, and galactan are 0.09 mg, 0.08 mg, and 0.08 mg respectively, with measurement limits of 0.36 mg, 0.32 mg, and 0.32 mg [3]. Group 2: Derivatization/Gas Chromatography-Mass Spectrometry Method (HJ 1414-2025) - The HJ 1414-2025 standard utilizes derivatization-GC-MS technology for ultra-trace detection of the same polysaccharides in particulate matter [5]. - The method includes ultrasonic extraction or pressurized fluid extraction, followed by concentration and derivatization with methylsilyl reagent, and detection using GC-MS based on retention time and characteristic ions [5]. - Detection limits for left-handed dextran, mannan, and galactan are significantly lower, at 0.02 mg, 0.01 mg, and 0.007 mg respectively, showcasing a reduction of 1-2 orders of magnitude compared to ion chromatography [7]. Group 3: Technical Collaboration and Environmental Impact - The two standards will enhance monitoring capabilities and support precise air pollution prevention efforts by providing critical data for biomass combustion source analysis [9]. - The unified detection methods will standardize data quality across regions, improving comparability of monitoring results [9]. - The implementation of these standards is expected to contribute to the development of targeted emission reduction policies, aiding in the fight against air pollution [9].

Core Viewpoint - The article emphasizes that domestic substitution not only breaks technological monopolies but also promotes the transition of the industry from "Me too" to "Me better" and even "Me different," laying the foundation for the autonomy and controllability of China's life science equipment [1] Group 1 - The "Domestic Good Instruments" initiative has been ongoing for ten years, focusing on the principle that "user feedback is the true measure of quality," selecting over 400 high-quality and stable domestic products from thousands of candidates based on long-term user experiences [2] - The initiative has upgraded its approach to better listen to user voices through more in-depth and targeted surveys, aiming to help instrument users find the right products from a vast amount of information [2] Group 2 - Users participating in the survey have the chance to win a custom pipette glass cup, and those with valid responses will receive a reward of 15 yuan in phone credit [3][5] - The survey is crucial for gathering user insights, and participation is encouraged to enhance the quality of the research [3]

Core Viewpoint - Zhejiang University of Technology has announced multiple government procurement intentions for laboratory instruments, with a total budget of 145 million yuan, covering 22 items of equipment expected to be purchased between June and August 2025 [1][2]. Summary by Categories Procurement Overview - The total budget for the procurement of laboratory instruments is 145 million yuan, with 22 items listed for purchase [2]. - The expected procurement period is from June to August 2025 [2]. Instrument Details - **Liquid Chromatography-Mass Spectrometry (LC-MS)**: Budget of 1 million yuan, aimed at achieving efficient liquid separation and accurate mass spectrometry data [4]. - **Six-Channel Fixed Bed Continuous Flow Reactor**: Budget of 600,000 yuan, designed for continuous reactions with a warranty of over one year [5]. - **Nine-Channel Fixed Bed Continuous Flow Reactor**: Budget of 800,000 yuan, similar requirements as the six-channel reactor [5]. - **Visible-Near Infrared Light Source System**: Budget of 500,000 yuan, required to provide high power and broad spectral range [5]. - **Vacuum Brazing Furnace**: Budget of 1.3 million yuan, intended for high-quality brazing in a vacuum environment [6]. - **Ultra-Wideband Seismometer System**: Budget of 1.98 million yuan, crucial for monitoring long-period seismic signals [6]. - **In-Situ Sample Rod System**: Budget of 980,000 yuan, aimed at expanding the application of transmission electron microscopy [6]. - **Tungsten Filament Scanning Electron Microscope**: Budget of 850,000 yuan, designed for ease of use and high-resolution imaging [6]. - **Human-Shaped Robot**: Budget of 650,000 yuan, focused on engineering applications [10]. - **Micro-Area Electrochemical Workstation**: Budget of 900,000 yuan, for analyzing material corrosion resistance [10]. - **600MHz NMR Spectrometer**: Budget of 12.7 million yuan, for molecular structure analysis [12]. - **High-Performance Image Processing Equipment**: Budget of 520,000 yuan, for bioinformatics research [15]. Additional Notes - The procurement includes various advanced instruments aimed at enhancing research capabilities in multiple scientific fields, including materials science, energy chemistry, and environmental monitoring [2][5][6].

Core Viewpoint - The article discusses the emergence and significance of "black lamp laboratories" in the context of environmental monitoring and automation, highlighting their potential in enhancing efficiency and accuracy in water quality analysis [2][8]. Group 1: Development and Standards - "Black lamp laboratories" have become a hot topic in the industry as scientific instruments evolve towards intelligent management, automated operation, and fully unmanned processes [2]. - The first group standard for "Intelligent Unmanned Laboratory Construction and Operation Maintenance Technical Requirements for Water Quality Monitoring" was issued in July 2024, providing a technical basis for the standardized development of this sector [2]. - Significant advancements in "black lamp laboratories" are noted in their fully automated closed-loop design, integrating various technological platforms for precise analysis of new pollutants in water environments [2]. Group 2: Live Event and Expert Participation - A live event titled "Yigafa Says" is organized by the Instrument Information Network, inviting laboratory users and instrument company representatives to discuss the digital transformation of environmental monitoring and the application of "black lamp laboratories" [2][8]. - Key speakers include industry experts such as Wang Yanjun, Chen Fan, and Chi Haipeng, who have extensive experience in environmental monitoring and laboratory automation [4][5][6]. Group 3: Discussion Topics - The live event will cover several topics, including the definition of "black lamp laboratories," the acceleration of digital transformation in environmental monitoring, interpretation of standards and future challenges, reasons for user investment in "black lamp" technologies, and future trends in technology and ecological competition [8][9].

Core Viewpoint - Nearly 500 national key laboratories have been approved or restructured, primarily led or participated in by "Double First Class" universities, with around 110 such universities involved in approximately 80% of these laboratories [1][2]. Summary by Sections Overview of National Key Laboratories - As of July 20, 2025, close to 500 national key laboratories have been established or restructured, with a significant majority led by "Double First Class" universities [2]. - Approximately 110 "Double First Class" universities are involved in the establishment or co-construction of nearly 400 national key laboratories, representing about 80% of the total [2]. List of National Key Laboratories - A detailed list of national key laboratories includes various fields such as artificial intelligence, drug development, and environmental protection, with notable institutions like Tsinghua University, Peking University, and Shanghai Jiao Tong University leading many of these initiatives [3][4][5][6][7][8][9][10][11]. Notable Institutions and Their Contributions - Tsinghua University, Peking University, and Shanghai Jiao Tong University are highlighted for their significant contributions to the number of approved key laboratories [2][3]. - Various universities and research institutes are collaborating on specialized laboratories focusing on areas such as renewable energy, advanced manufacturing, and medical research [4][5][6][7][8][9][10][11]. Implications for Research and Development - The establishment of these laboratories is expected to enhance research capabilities and foster innovation across multiple sectors, including technology, healthcare, and environmental science [2][3][4]. - The collaboration between universities and industries in these laboratories indicates a strong commitment to advancing scientific research and practical applications [5][6][7].