Scaling: From Small Series to High-Throughput - innome<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/innome.de\/en\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/\" \/>\n<meta property=\"og:locale\" content=\"en_GB\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Scaling: From Small Series to High-Throughput - innome\" \/>\n<meta property=\"og:description\" content=\"Scaling: From Small Series to High-Throughput In the ever-evolving landscape of life sciences, the ability to scale from small batch production to high-volume throughput is pivotal for researchers and manufacturers. The dynamics of laboratory plasticware production, particularly for multiwell plates and cell culture vessels, demand a keen understanding of scaling intricacies. This article dissects the journey from design-by-prototype to scaled industrial production, addressing challenges and offering insights into maintaining quality and consistency in high-throughput scenarios. Bridging the Gap: From Development to Manufacture Advanced Product Development for Laboratory Plastics The development of laboratory plastics, such as multiwell plates, is not merely about crafting a product; it\u2019s about anticipating the demands of high-throughput applications. Key elements like Design-for-Manufacturing (DFM), material selection, and prototyping strategies play significant roles. Each component of the development phase shapes the trajectory toward scalable success. Utilizing design-for-manufacturing (DFM) principles ensures efficiency from the onset. Material choices such as polystyrene (PS), polypropylene (PP), and cyclic olefin copolymer (COC) directly influence product performance. Surface treatments, tailored for specific applications \u2014 from tissue culture (TC) treatments to specialty coatings \u2014 enhance biological and optical compatibility. Prototyping strategies serve as crucial checkpoints, illustrating the transition from concept to practical, scalable applications. Tooling & Scaling: From Prototype to Production Scaling in laboratory plasticware manufacturing hinges on the seamless transition through various stages of production. This includes early prototypes, pilot tooling, and ultimately, full industrial-scale tooling. Mastery of each phase ensures reproducibility, scalability, and robust processing necessary for large-scale manufacturing. The journey begins with prototypes that test design efficacy and manufacturing feasibility. Pilot tooling acts as a bridge, refining design and operations for pre-series production. Full-scale industrial tooling is executed with stringent controls to meet dimensional accuracy and process reliability. Continue reading to explore more advanced insights and strategies. ```html Quality Assurance in High-Throughput Production Maintaining Integrity and Reliability As laboratory plasticware production scales up, maintaining product quality becomes increasingly challenging. Quality assurance strategies must be robust, incorporating in-line and post-production testing to ensure each product adheres to strict specifications. Employing statistical process control (SPC) methods throughout the manufacturing process is crucial for identifying defects early and minimizing waste. Implement real-time monitoring systems to capture data on critical production parameters, thus enabling rapid response to deviations. Automation and Smart Manufacturing The Role of Technology in Scaling Automation plays a pivotal role in scaling manufacturing operations in the life sciences sector. As production scales, leveraging cutting-edge technologies\u2014such as robotics and machine learning\u2014can enhance efficiency and precision. For instance, implementing automated quality checks and robotic handling ensures constant throughput without compromising on quality, significantly reducing the potential for human error. Integrate digital twins to simulate production processes, allowing for real-time adjustments and predictive maintenance. Managing Supply Chain Complexities Ensuring Smooth Operations As production scales, ensuring a robust supply chain becomes imperative. This involves strategizing material procurement and logistics to align with production timelines. Consider the case of a multinational biotechnology firm that optimized its supply chain by using advanced analytics to predict and mitigate potential disruptions, ensuring a consistent flow of raw materials like polymers and reagents vital for production. Develop strategic partnerships with suppliers to foster reliability and adaptability in your supply chain. Environmental Considerations and Sustainability Adopting Green Manufacturing Practices Increased production rates often lead to increased environmental footprints. Therefore, incorporating sustainable practices is not only beneficial for compliance but also enhances brand reputation. Recycling and waste reduction initiatives are vital. Implementing closed-loop recycling systems for plastic waste, such as reusing production scraps, illustrates an effective strategy for reducing environmental impact. Invest in energy-efficient machinery and optimize processes to reduce carbon emissions. Regulatory Compliance and Standards Navigating Complex Requirements Scaling production in the life sciences domain must align with stringent regulatory standards, such as ISO 13485 for medical device quality management systems. Ensuring compliance at every stage of manufacturing is paramount. For example, continuous documentation and adherence to FDA guidelines are critical for products marketed in the U.S., thereby avoiding costly recalls and safeguarding company reputation. Engage regularly with regulatory experts to remain abreast of any changes in compliance requirements. Scalability and Flexibility: Dual Mandates Balancing Demands for Large-Scale Operations Achieving scalability without losing application-specific flexibility is crucial. Consider a company specializing in custom labware solutions that implemented modular production lines capable of quick reconfigurations to meet specific client needs. This approach has allowed them to maintain a competitive edge by offering customized solutions alongside standard high-throughput products. Design manufacturing processes with scalability in mind but retain the agility to switch production lines as required. Investing in Workforce and Skills Cultivating a Skilled Team for Success The human element remains integral to successfully scaling production. Investing in workforce development through training initiatives ensures that employees are equipped to operate advanced manufacturing equipment and adapt to new technologies. A large-scale manufacturer, for example, successfully reduced error rates by 30% after implementing a comprehensive training program for their operators on new automated systems. Continuously upskill your workforce to keep pace with technological advancements and industry best practices. Next, we\u2019ll wrap up with key takeaways, metrics, and a powerful conclusion. ``` ```html Leveraging Data Analytics for Production Insights Driving Informed Decision-Making Data analytics has become an indispensable tool in optimizing high-throughput production. The life sciences industry can harness data-driven insights to refine operational strategies and enhance productivity. By aggregating data from various stages of the production line, manufacturers can gain a comprehensive overview of performance metrics and operational bottlenecks. Utilize advanced analytics platforms to interpret complex datasets, facilitating proactive decision-making in real-time. Crisis Management and Risk Mitigation Ensuring Business Continuity In an industry characterized by rapid growth and innovation, preparing for unexpected challenges is critical. Developing a robust risk management plan ensures that potential disruptions to the production process are swiftly and effectively addressed. Companies equip themselves to maintain business continuity by identifying vulnerabilities and implementing contingency measures. Regularly conduct risk assessments and simulation drills to remain prepared for emergencies. Future-Proofing Production Capabilities Adapting to Evolving Market Demands Future-proofing high-throughput production is vital as the life sciences market continues to evolve at an unprecedented pace. By investing in scalable technologies and fostering an innovation-driven culture, companies can adapt to shifting market trends and technological advancements, ensuring longevity and sustained growth. Regularly evaluate and update your production technology stack to align with cutting-edge innovations. Conclusion Successfully scaling production in the life sciences industry requires a multifaceted approach, as examined throughout this article. From implementing effective quality assurance measures and adopting advanced automation to managing complex supply chains and prioritizing sustainability, each aspect plays a crucial role in achieving efficient and sustainable growth. Leveraging technology, whether through automation, data analytics, or digital twins, empowers manufacturers to maintain high standards of quality and operational efficiency. Meanwhile, investing in workforce skills and maintaining compliance with regulatory standards ensure that scaling efforts do not compromise product integrity or consumer trust. Furthermore, integrating robust risk management practices and adopting scalable, flexible production models place companies in a strong position to adapt to market fluctuations and unforeseen challenges. As the industry grows, strategic foresight and adaptability will distinguish leaders from followers. The strategies and insights presented herein are valuable for companies seeking to expand their operations while maintaining uncompromised quality and efficiency. By aligning cutting-edge production technologies with a skilled workforce and responsible environmental practices, businesses can thrive in this dynamic sector. The choice is clear: be at the forefront of innovation and sustainability by adopting these approaches. Every step toward scaling production is a stride toward revolutionizing the life sciences industry and, ultimately, the broader goal of improving global health. We invite you to become a part of this exciting journey, pioneering change for a better future. Begin implementing these strategies today and witness the transformation in your operations. ```\" \/>\n<meta property=\"og:url\" content=\"https:\/\/innome.de\/en\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/\" \/>\n<meta property=\"og:site_name\" content=\"innome\" \/>\n<meta property=\"article:published_time\" content=\"2026-05-09T14:23:47+00:00\" \/>\n<meta property=\"og:image\" content=\"https:\/\/innome.de\/wp-content\/uploads\/2026\/02\/innoMEPNG.png\" \/>\n\t<meta property=\"og:image:width\" content=\"125\" \/>\n\t<meta property=\"og:image:height\" content=\"26\" \/>\n\t<meta property=\"og:image:type\" content=\"image\/png\" \/>\n<meta name=\"author\" content=\"admin\" \/>\n<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n<meta name=\"twitter:label1\" content=\"Written by\" \/>\n\t<meta name=\"twitter:data1\" content=\"admin\" \/>\n\t<meta name=\"twitter:label2\" content=\"Estimated reading time\" \/>\n\t<meta name=\"twitter:data2\" content=\"6 minutes\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\\\/\\\/schema.org\",\"@graph\":[{\"@type\":\"Article\",\"@id\":\"https:\\\/\\\/innome.de\\\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\\\/#article\",\"isPartOf\":{\"@id\":\"https:\\\/\\\/innome.de\\\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\\\/\"},\"author\":{\"name\":\"admin\",\"@id\":\"https:\\\/\\\/innome.de\\\/#\\\/schema\\\/person\\\/c6618155dce75cdc44c24167264dd295\"},\"headline\":\"Scaling: From Small Series to High-Throughput\",\"datePublished\":\"2026-05-09T14:23:47+00:00\",\"mainEntityOfPage\":{\"@id\":\"https:\\\/\\\/innome.de\\\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\\\/\"},\"wordCount\":1291,\"commentCount\":0,\"publisher\":{\"@id\":\"https:\\\/\\\/innome.de\\\/#organization\"},\"image\":{\"@id\":\"https:\\\/\\\/innome.de\\\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\\\/#primaryimage\"},\"thumbnailUrl\":\"https:\\\/\\\/innome.de\\\/wp-content\\\/uploads\\\/2026\\\/05\\\/output1-1.png\",\"articleSection\":[\"Uncategorized\"],\"inLanguage\":\"en-GB\",\"potentialAction\":[{\"@type\":\"CommentAction\",\"name\":\"Comment\",\"target\":[\"https:\\\/\\\/innome.de\\\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\\\/#respond\"]}]},{\"@type\":\"WebPage\",\"@id\":\"https:\\\/\\\/innome.de\\\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\\\/\",\"url\":\"https:\\\/\\\/innome.de\\\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\\\/\",\"name\":\"Scaling: From Small Series to High-Throughput - 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The dynamics of laboratory plasticware production, particularly for multiwell plates and cell culture vessels, demand a keen understanding of scaling intricacies. This article dissects the journey from design-by-prototype to scaled industrial production, addressing challenges and offering insights into maintaining quality and consistency in high-throughput scenarios. Bridging the Gap: From Development to Manufacture Advanced Product Development for Laboratory Plastics The development of laboratory plastics, such as multiwell plates, is not merely about crafting a product; it\u2019s about anticipating the demands of high-throughput applications. Key elements like Design-for-Manufacturing (DFM), material selection, and prototyping strategies play significant roles. Each component of the development phase shapes the trajectory toward scalable success. Utilizing design-for-manufacturing (DFM) principles ensures efficiency from the onset. Material choices such as polystyrene (PS), polypropylene (PP), and cyclic olefin copolymer (COC) directly influence product performance. Surface treatments, tailored for specific applications \u2014 from tissue culture (TC) treatments to specialty coatings \u2014 enhance biological and optical compatibility. Prototyping strategies serve as crucial checkpoints, illustrating the transition from concept to practical, scalable applications. Tooling & Scaling: From Prototype to Production Scaling in laboratory plasticware manufacturing hinges on the seamless transition through various stages of production. This includes early prototypes, pilot tooling, and ultimately, full industrial-scale tooling. Mastery of each phase ensures reproducibility, scalability, and robust processing necessary for large-scale manufacturing. The journey begins with prototypes that test design efficacy and manufacturing feasibility. Pilot tooling acts as a bridge, refining design and operations for pre-series production. Full-scale industrial tooling is executed with stringent controls to meet dimensional accuracy and process reliability. Continue reading to explore more advanced insights and strategies. ```html Quality Assurance in High-Throughput Production Maintaining Integrity and Reliability As laboratory plasticware production scales up, maintaining product quality becomes increasingly challenging. Quality assurance strategies must be robust, incorporating in-line and post-production testing to ensure each product adheres to strict specifications. Employing statistical process control (SPC) methods throughout the manufacturing process is crucial for identifying defects early and minimizing waste. Implement real-time monitoring systems to capture data on critical production parameters, thus enabling rapid response to deviations. Automation and Smart Manufacturing The Role of Technology in Scaling Automation plays a pivotal role in scaling manufacturing operations in the life sciences sector. As production scales, leveraging cutting-edge technologies\u2014such as robotics and machine learning\u2014can enhance efficiency and precision. For instance, implementing automated quality checks and robotic handling ensures constant throughput without compromising on quality, significantly reducing the potential for human error. Integrate digital twins to simulate production processes, allowing for real-time adjustments and predictive maintenance. Managing Supply Chain Complexities Ensuring Smooth Operations As production scales, ensuring a robust supply chain becomes imperative. This involves strategizing material procurement and logistics to align with production timelines. Consider the case of a multinational biotechnology firm that optimized its supply chain by using advanced analytics to predict and mitigate potential disruptions, ensuring a consistent flow of raw materials like polymers and reagents vital for production. Develop strategic partnerships with suppliers to foster reliability and adaptability in your supply chain. Environmental Considerations and Sustainability Adopting Green Manufacturing Practices Increased production rates often lead to increased environmental footprints. Therefore, incorporating sustainable practices is not only beneficial for compliance but also enhances brand reputation. Recycling and waste reduction initiatives are vital. Implementing closed-loop recycling systems for plastic waste, such as reusing production scraps, illustrates an effective strategy for reducing environmental impact. Invest in energy-efficient machinery and optimize processes to reduce carbon emissions. Regulatory Compliance and Standards Navigating Complex Requirements Scaling production in the life sciences domain must align with stringent regulatory standards, such as ISO 13485 for medical device quality management systems. Ensuring compliance at every stage of manufacturing is paramount. For example, continuous documentation and adherence to FDA guidelines are critical for products marketed in the U.S., thereby avoiding costly recalls and safeguarding company reputation. Engage regularly with regulatory experts to remain abreast of any changes in compliance requirements. Scalability and Flexibility: Dual Mandates Balancing Demands for Large-Scale Operations Achieving scalability without losing application-specific flexibility is crucial. Consider a company specializing in custom labware solutions that implemented modular production lines capable of quick reconfigurations to meet specific client needs. This approach has allowed them to maintain a competitive edge by offering customized solutions alongside standard high-throughput products. Design manufacturing processes with scalability in mind but retain the agility to switch production lines as required. Investing in Workforce and Skills Cultivating a Skilled Team for Success The human element remains integral to successfully scaling production. Investing in workforce development through training initiatives ensures that employees are equipped to operate advanced manufacturing equipment and adapt to new technologies. A large-scale manufacturer, for example, successfully reduced error rates by 30% after implementing a comprehensive training program for their operators on new automated systems. Continuously upskill your workforce to keep pace with technological advancements and industry best practices. Next, we\u2019ll wrap up with key takeaways, metrics, and a powerful conclusion. ``` ```html Leveraging Data Analytics for Production Insights Driving Informed Decision-Making Data analytics has become an indispensable tool in optimizing high-throughput production. The life sciences industry can harness data-driven insights to refine operational strategies and enhance productivity. By aggregating data from various stages of the production line, manufacturers can gain a comprehensive overview of performance metrics and operational bottlenecks. Utilize advanced analytics platforms to interpret complex datasets, facilitating proactive decision-making in real-time. Crisis Management and Risk Mitigation Ensuring Business Continuity In an industry characterized by rapid growth and innovation, preparing for unexpected challenges is critical. Developing a robust risk management plan ensures that potential disruptions to the production process are swiftly and effectively addressed. Companies equip themselves to maintain business continuity by identifying vulnerabilities and implementing contingency measures. Regularly conduct risk assessments and simulation drills to remain prepared for emergencies. Future-Proofing Production Capabilities Adapting to Evolving Market Demands Future-proofing high-throughput production is vital as the life sciences market continues to evolve at an unprecedented pace. By investing in scalable technologies and fostering an innovation-driven culture, companies can adapt to shifting market trends and technological advancements, ensuring longevity and sustained growth. Regularly evaluate and update your production technology stack to align with cutting-edge innovations. Conclusion Successfully scaling production in the life sciences industry requires a multifaceted approach, as examined throughout this article. From implementing effective quality assurance measures and adopting advanced automation to managing complex supply chains and prioritizing sustainability, each aspect plays a crucial role in achieving efficient and sustainable growth. Leveraging technology, whether through automation, data analytics, or digital twins, empowers manufacturers to maintain high standards of quality and operational efficiency. Meanwhile, investing in workforce skills and maintaining compliance with regulatory standards ensure that scaling efforts do not compromise product integrity or consumer trust. Furthermore, integrating robust risk management practices and adopting scalable, flexible production models place companies in a strong position to adapt to market fluctuations and unforeseen challenges. As the industry grows, strategic foresight and adaptability will distinguish leaders from followers. The strategies and insights presented herein are valuable for companies seeking to expand their operations while maintaining uncompromised quality and efficiency. By aligning cutting-edge production technologies with a skilled workforce and responsible environmental practices, businesses can thrive in this dynamic sector. The choice is clear: be at the forefront of innovation and sustainability by adopting these approaches. Every step toward scaling production is a stride toward revolutionizing the life sciences industry and, ultimately, the broader goal of improving global health. We invite you to become a part of this exciting journey, pioneering change for a better future. Begin implementing these strategies today and witness the transformation in your operations. ```","og_url":"https:\/\/innome.de\/en\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/","og_site_name":"innome","article_published_time":"2026-05-09T14:23:47+00:00","og_image":[{"width":125,"height":26,"url":"https:\/\/innome.de\/wp-content\/uploads\/2026\/02\/innoMEPNG.png","type":"image\/png"}],"author":"admin","twitter_card":"summary_large_image","twitter_misc":{"Written by":"admin","Estimated reading time":"6 minutes"},"schema":{"@context":"https:\/\/schema.org","@graph":[{"@type":"Article","@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/#article","isPartOf":{"@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/"},"author":{"name":"admin","@id":"https:\/\/innome.de\/#\/schema\/person\/c6618155dce75cdc44c24167264dd295"},"headline":"Scaling: From Small Series to High-Throughput","datePublished":"2026-05-09T14:23:47+00:00","mainEntityOfPage":{"@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/"},"wordCount":1291,"commentCount":0,"publisher":{"@id":"https:\/\/innome.de\/#organization"},"image":{"@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/#primaryimage"},"thumbnailUrl":"https:\/\/innome.de\/wp-content\/uploads\/2026\/05\/output1-1.png","articleSection":["Uncategorized"],"inLanguage":"en-GB","potentialAction":[{"@type":"CommentAction","name":"Comment","target":["https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/#respond"]}]},{"@type":"WebPage","@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/","url":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/","name":"Scaling: From Small Series to High-Throughput - innome","isPartOf":{"@id":"https:\/\/innome.de\/#website"},"primaryImageOfPage":{"@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/#primaryimage"},"image":{"@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/#primaryimage"},"thumbnailUrl":"https:\/\/innome.de\/wp-content\/uploads\/2026\/05\/output1-1.png","datePublished":"2026-05-09T14:23:47+00:00","breadcrumb":{"@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/#breadcrumb"},"inLanguage":"en-GB","potentialAction":[{"@type":"ReadAction","target":["https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/"]}]},{"@type":"ImageObject","inLanguage":"en-GB","@id":"https:\/\/innome.de\/scaling-from-small-series-to-high-throughputin-the-ever-evolving-landscape-of-life-sciences-the-ability-to-scale-from-small-batch-production-to-high-volume-throughput-is-pivotal-for-research\/#primaryimage","url":"https:\/\/innome.de\/wp-content\/uploads\/2026\/05\/output1-1.png","contentUrl":"https:\/\/innome.de\/wp-content\/uploads\/2026\/05\/output1-1.png","width":1536,"height":1024,"caption":"Die Tecan NanoQuant Plate wird eingestellt. 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