Society for Applied Spectroscopy

06/04/2026

✨ Why join SAS? Because spectroscopy is more than a field—it’s a community.

As an SAS member, you gain access to valuable resources that support your growth at every stage of your career, from scientific journals and educational programs to leadership opportunities, awards, and industry events like SciX.

Whether you’re a student, researcher, educator, or industry professional, SAS helps you stay informed, inspired, and connected.

👉 Learn more about membership: https://bit.ly/3LRexPF

06/03/2026

✈️ Looking to attend SciX 2026 or other scientific meetings before the end of 2026? The SAS Early Career Interest Group (ECIG) Travel Grant application is now available! This opportunity supports early-career spectroscopists looking to grow their network and engage with the community.

⏰ Applications are due June 20 — don’t wait to apply!

👉 Learn more: https://bit.ly/4309PnK

06/02/2026

🎓 Congratulations to our 2026 SAS Student Award Recipients!

We are proud to recognize this year’s outstanding undergraduate and graduate students for their achievements and contributions to spectroscopy research. Your hard work, innovation, and dedication represent the bright future of our field. 👏🔬

🏆Justin I. Borrero-Negrón, University of Florida
🏆Spencer Witte, The Ohio State University
🏆Abbey Gentile, University of North Florida

👉 Meet the 2026 recipients: https://bit.ly/4wVi6H2

05/26/2026

📬 Stay in the loop with SAS!

Make sure your email is up to date in your SAS profile so you don’t miss the latest SAS Newsletter updates, news, and opportunities.

Have something to share with the community? We’d love to hear from you!
📩 Reach out: [email protected]

📖 Catch up on past issues: https://bit.ly/47RjsYL

05/22/2026

📣CALL FOR PAPERS📣: Applied Spectroscopy Practica will publish a special collection titled Advancing Analytical Methodologies for Complex Pollutants: PFAS and Microplastics.

The submission deadline is September 1, 2026.

Click here to learn more: https://loom.ly/Rj_AQGM

Potential topics include:
Rapid Detection & Screening: Portable/handheld spectroscopic and MS solutions for field-ready pollutant monitoring.
Advanced Characterization: Innovative use of IR, Raman, LIBS, and fluorescence for polymer identification and microplastic degradation analysis.
Elemental & MS Workflows: Practical applications of ICP-MS and other MS platforms for trace PFAS detection and total fluorine analysis.
Integrated Methodologies: Hyphenated techniques or multi-modal approaches combining spectroscopy and mass spectrometry.
Data & Chemometrics: Automated spectral processing, library building, and algorithm development designed to simplify data interpretation for non-specialists.
Instrumentation Innovations: Hardware or software modifications to enhance sensitivity, throughput, or ease-of-use in environmental matrices.

05/20/2026

REMINDER: The New York / New Jersey Section of the Society for Applied Spectroscopy will hold an invited seminar ‼️TOMORROW ‼️May 21st at 12pm EDT!

Speaker: Dr. Mercedes Bertotto │ Wittenborg University of Applied Sciences / Vibralytics
Title: Four Case Studies in NIR Spectroscopy and Chemometrics: Versatility and Robustness Across Diverse Analytical Applications

For more information and to access the Zoom link, click here: https://loom.ly/s3jfwoY

05/19/2026

Congratulations to the New York Capital Region SAS Chapter for putting on a wonderful Fifth Annual Symposium!

05/18/2026

🔬 Mark Your Calendar for SciX 2026!

SciX returns October 4–9, 2026 in Sparks, Nevada, bringing together leaders in analytical chemistry and spectroscopy for one of the field’s premier events. SAS will be there—we hope you will be too!

Stay tuned for registration opening soon.
👉 Learn more: https://scixconference.org/

SciX, the Great Scientific Exchange, is an annual conference presented by the Federation of Analytical Chemistry and Spectroscopy Societies, covering analytical chemistry and allied sciences.

05/18/2026

New from Applied Spectroscopy!
Complex-Valued Chemometrics in Spectroscopy: Partial Least Squares Regression
Abstract: Complex-valued chemometrics utilizes both the absorption index and refractive index spectra. Through application of a Kramers–Kronig transformation, it can also be extended to absorbance and Raman spectra. In this work, we expand complex-valued chemometrics to include partial least squares (PLS) regression. Several strategies for implementing complex-valued PLS are explored. One approach builds on the nonlinear iterative partial least squares (NIPALS) formalism to compute real and imaginary components of the PLS solutions in parallel. Additionally, as both the real and imaginary parts can assume positive or negative values, this results in 2N possible solutions for N components. In this case, the optimal solutions are selected using a brute-force approach combined with a nested leave-one-out (LOO) scheme. Additionally, single-value decomposition (SVD) can be directly applied to the complex matrix product of the spectral and concentration matrices. We compare these approaches using complex refractive index spectra of mixtures from the thermodynamically ideal systems benzene–toluene, benzene–cyclohexane, and benzene–carbon tetrachloride (CCl4). In particular, when the high-wavenumber refractive index differs between the neat components, complex-valued PLS achieves errors more than an order of magnitude lower than conventional PLS based solely on the imaginary part.
Read more: https://doi.org/10.1177/00037028251401941

05/15/2026

New from Applied Spectroscopy!
Enhanced Laser-Induced Breakdown Spectroscopy Using Multimodal Fusion Correction of Event-Reconstructed Plasma Images and Spectral Features
Abstract: Laser-induced breakdown spectroscopy (LIBS) has broad application potential, yet its analytical accuracy is often limited by poor spectral stability. Since plasma optical signals directly reflect plasma fluctuations, they offer a promising basis for spectral correction. In a novel approach, we introduce a neuromorphic dynamic vision sensor (DVS) to capture plasma dynamics with microsecond temporal resolution. The DVS provides a 120 dB dynamic range and a low data rate (∼10 MB/s), enabling acquisition of plasma optical signals over a wide range of conditions. We further propose an event-enhanced spectroscopy correction network (EESCN), which employs a dual-stream convolutional neural network (CNN) to extract key features from spectra and plasma images, respectively. A multihead attention module then performs cross-modal fusion by dynamically weighting spectral and image features to predict and correct signal fluctuations. To emulate challenging conditions, we introduced laser energy fluctuations and selected spectral lines affected by self-absorption. EESCN substantially suppressed spectral fluctuations arising from self-absorption and laser energy fluctuations for C(I) 493.202 nm and Mn(I) 403.076 nm in carbon steel, and for Cu(I) 327.395 nm and Zn(I) 328.233 nm in copper alloys, reducing the mean relative standard deviations by 70.52%, 79.33%, 80.76%, and 72.09%, respectively. Calibration curves constructed from the corrected spectra all achieved R2 values above 0.99, markedly outperforming the original spectra, normalization, and other correction methods. By integrating a low-cost, high-speed DVS with a cross-modal fusion model, this work provides a practical and powerful solution for mitigating spectral instability in LIBS and supports robust on-site analytical applications.
Read more: https://doi.org/10.1177/00037028261424291