Technical Support
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IntroductionUnderstanding protein–protein interactions (PPIs) and molecular binding events is fundamental to modern biotechnology, drug discovery, and structural biology. Traditional techniques, such ...
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IntroductionIn modern biotechnology and pharmaceutical research, protein purification remains a crucial and often rate-limiting step. Whether in recombinant protein production, vaccine development, di...
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Domestic SPR Platform in Drug Discovery: A Case Study with GLP-1 ReceptorTable of ContentsExecutive SummaryIntroduction – The Role of SPR in Drug DiscoveryImported vs. Domestic SPR: Challenges and Opp...
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In the age of organoids, regenerative medicine, and personalized therapeutics, researchers are rapidly moving beyond traditional 2D cultures. The scientific community now demands physiologically relev...
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In the rapidly evolving landscape of biotechnology and biopharmaceutical development, protein purification is no longer a routine lab task—it’s a cornerstone of precision medicine, vaccine innovation,...
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In the age of advanced cell and gene therapies, extracellular vesicle research, and viral vector development, ultracentrifugation has become a cornerstone technique in molecular biology and proteomics...
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In recent years, the biomedical research community has witnessed a paradigm shift toward more physiologically relevant cell culture models. With the rise of organoids, tumor spheroids, and tissue engi...
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Industry Context As cell-based therapies, regenerative medicine, and real-time functional assays gain momentum in 2025, researchers are demanding live-cell imaging systems that can deliver non-invasi...
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When Gradient Purity Becomes Clinical Risk: Why Precision Separation Needs a Smarter SystemIn 2025, as the biotech industry accelerates toward cell and gene therapies, exosome-based diagnostics, and R...
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Modern biological research requires more than clear images — it demands continuous insight into how cells behave, adapt, and respond over time. Whether you're monitoring organoids, assessing drug-indu...
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In high-content biological research, access to real-time cellular imaging should no longer be a luxury — it should be a standard. Yet for many smaller labs, academic groups, or early-stage biotech sta...
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In 2025, the demands on cellular biology research have fundamentally shifted. With the rise of engineered living therapeutics, personalized drug screening, and organoid-based disease models, researche...
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Situation – The Modern Lab is Getting Smaller, Faster, and More RegulatedIn today’s life science and pharmaceutical labs, workflows are becoming more miniaturized, automated, and time-sensitive. Wheth...
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As scientific discovery accelerates in 2025, accuracy, reproducibility, and compliance have become non-negotiable in life science and analytical laboratories. From biotech R&D to green chemistry and n...
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Simulating Oxygen-Driven Disease Models: How the PHA1 / PHA2 Systems Enable Next-Generation Hypoxia Research 2025 Hotspot: Modeling Oxygen-Sensitive PathologiesIn 2025, as precision medicine converges...
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The Next Generation of Density Gradient Separation – Why More Labs Are Upgrading to Automated Gradient Preparation & UV Fractionation SystemsSEO Keywords: Density Gradient Preparation System, UV Fract...
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How to Choose the Right Vacuum Centrifugal Concentrator? – BIOLINK Full Series Technical GuideSEO Keywords: Vacuum Centrifugal Concentrator, low temperature centrifugal concentrator, solvent-resistant...
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PW-APS001--High-Throughput Automated Protein Separation and Purification SystemIntroduction:Academic research labs are the heart of protein science — from structural biology and molecular immunology t...
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Density gradient centrifugation remains a cornerstone technique in molecular biology, virology, and cell organelle separation. Yet, researchers in academic labs often struggle with time-consuming grad...
