Providing practical information about analytical spectroscopy, through peer-reviewed articles, tutorials, web seminars, and more.
Joined October 2008
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2,405 Photos and videos
🔬 Who helped set the standard for modern infrared spectroscopy?
Earle K. Plyler advanced IR, molecular vibrations, and optical materials characterization, helping establish new levels of precision in spectroscopic measurement.
Read more: hubs.li/Q04lq2b50
#Spectroscopy
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🩸 Could a finger-prick blood sample help detect drug-induced liver injury in just 10 minutes?
Higher sensitivity. Rapid results. Potential ER deployment.
Learn more from Sian Sloan-Dennison: hubs.li/Q04l2qG30
#Spectroscopy #SERS
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4 years. 12 techniques. One review of how spectroscopy is transforming lithium-ion battery R&D, manufacturing, and QC. 🔋🔬
Raman, LIBS, NIR, and more mapped across the battery value chain.
🔗 Learn more: hubs.li/Q04kPmfh0
#BatteryTech #Spectroscopy #EnergyStorage
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What separates a promising battery material from a commercially viable technology? 🔋
Analytical chemistry, chemical purity, and process control play a critical role in developing safer, higher-performing lithium-ion batteries.
Read more: hubs.li/Q04kzzvN0
#Spectroscopy
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What should researchers keep in mind when working with SERS assays?
The latest Pathways in Spectroscopy episode shares a practical tip for students and early-career scientists working in clinical research settings.
Watch here: hubs.li/Q04kzBlW0
#PathwaysinSpectroscopy
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What if a single droplet could detect liver injury?
Sian Sloan-Dennison's DMF SERS platform detects microRNA-122 at 500 femtomolar, a 10x sensitivity leap. She recaps her Spring SciX talk in our latest video.
📽️Watch it here: hubs.li/Q04kkx_z0
#SpringSciX #Spectroscopy
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Can FT-IR enable solvent-free drug testing? 💊🔬
A new study explores its use for analyzing common hypertension medications.
🔗 Read the full article: hubs.li/Q04k4HGC0
#Spectroscopy #DrugDevelopment #FTIR
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What makes social media worth your time?
Share your perspective and help shape the content you see on social media. Take the survey: hubs.li/Q04jVJhP0
#IndustryScienceOne #SocialMediaStrategy
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How do you detect trace levels of hydrazine across water, soil, and plant tissue? 🌱
Researchers at Shanxi Agricultural University developed a dual-mode fluorescent chemosensor to do just that.
Learn more: hubs.li/Q04jYhsF0
#Spectroscopy #Hydrazine #FluorescentSensor
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The Metrohm i-Raman® NxG platform is pushing Raman spectroscopy further—capturing weak spectral signals and delivering deeper molecular insight across even the most challenging samples. #Spectroscopy
hubs.li/Q04hyVnr0
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Why is determining the function of a SERS assay important? 🔬
This Pathways in Spectroscopy installment shares career advice for researchers working in biological and clinical analysis.
🔗 Explore the discussion: hubs.li/Q04jBxj20
#PathwaysinSpectroscopy #SERS
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Can spectroscopy help build a more sustainable future? 🌎🔬
🔗 Find out how spectroscopic techniques are being used to detect methane emissions and support climate sustainability efforts: hubs.li/Q04jzLL30
#Spectroscopy #Sustainability #ClimateScience
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Why are some cyclic alkanes harder to detect by IR spectroscopy? 🔬
This column explores the spectra of cyclopentane, cyclohexane, and other saturated rings.
🔗 Take a closer look: hubs.li/Q04jlM3X0
#IR #Spectroscopy #Alkanes
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What will shape the next generation of atomic spectroscopy instruments?
A new article explores product development strategies for ICP-MS, ICP-OES, and AAS systems from beta validation to innovation planning. Find out more: hubs.li/Q04hF1M00
#Spectroscopy #ICPMS #ICPOES
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The discovery of scattered light helped reshape modern optical science. 🔬
This feature explores C. V. Raman’s life, scientific evolution, and contributions to quantum spectroscopy.
Explore the story: hubs.li/Q04hDWhk0
#QuantumSpectroscopy #Raman #Spectroscopy
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Why is Raman spectroscopy effective for characterizing lithium-ion battery anodes? 🔋
Jennifer Ferguson of Renishaw discusses its role in evaluating battery lifespan and performance.
🔗 Hear her perspective: hubs.li/Q04hVl6M0
#Spectroscopy #BatteryAnalysis
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Advanced tools like LC/MS/MS, GC/MS, and ICP-MS are transforming detection of PFAS, disinfection by-products, and trace contaminants—helping labs meet evolving global regulations and ensure reliable water safety: hubs.li/Q04hDFL00 #WaterQuality
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🌟 Best of the Week: This week’s top Spectroscopy stories included a new Molecular Spectroscopy Workbench column, a look at the life and career of C. V. Raman, and a preview of an upcoming video series.
Explore the coverage: hubs.li/Q04hDz8K0
#BestoftheWeek #Spectroscopy
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250th column tackles one of NIR spectroscopy’s biggest challenges 🔬
Howard Mark and Jerome Workman, Jr. present an algorithm designed to minimize sampling repack variation and improve calibration repeatability. Learn more: hubs.li/Q04hDpfr0
#Spectroscopy #NIR
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Can spectroscopy catch milk adulteration before it becomes a public health risk?
New research showed a reagent-free FT-IR method could detect melamine in milk powder at levels as low as 0.46 ppm.
🔗 Read more: hubs.li/Q04hsXbd0
#Spectroscopy #FoodSafety #FTIR
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