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Don't miss our upcoming #webinar on December 5, titled "Introducing #AI to a #Semiconductor Materials R&D Function," featuring our expert, Vijay Kris Narasimhan. In this session, you'll uncover surprising applications of machine learning and explore how computational methods can be integrated with laboratory experimentation. Additionally, Vijay will share insights on how we at EMD Electronics have successfully navigated data challenges. Join us for this opportunity to gain valuable knowledge and insights!
💡 Register here https://lnkd.in/ebxA6tJi
Exciting things happening in the Citrine office today. We are recording an interview with one of our customers. Join us on December 5th to hear the interview and get the chance to get your own questions answered by someone who has been there and done that.
https://hubs.ly/Q02Y6_Vq0EMD Electronics , Vijay Kris Narasimhan , Greg Mulholland
If you missed our webinar with ThermoFisher Scientific “Practical Considerations for Designing and Executing High-content Screens,” you can still catch it on-demand!
https://hubs.ly/Q02lfmy60
PhenoVista CEO James Evans gives an overview about high-content screening and its advantages over other drug-discovery strategies along with examples of some of our work. Learn about techniques like cell painting and how to design and run an experiment of your own.
Have you ever wondered if CellaVision analyzers learn in your lab? How long they can store the Cell Location test results? Or maybe you have another question in mind?
Great news for you: we have just compiled on our website several of the most frequently asked questions we get from our customers!
Check it out and find all the answers you are looking for here: https://lnkd.in/dSfwe4GN
🧪 Revolutionizing Analysis with Affinité's Next-Generation SPR Solutions 🧪
Affinité Instruments is here to tackle the challenges scientists face with traditional techniques like #ELISA. Our cutting-edge, ultra-compact #SPR devices powered by proprietary #Lensless SPR technology enables you to optimize and validate your assay in #real-time, saving you hours of troubleshooting and resulting in faster, more efficient research.
Embrace the future of #biosensing with Affinité – where #innovation meets #accessibility, and where one instrument opens the door to infinite possibilities. Elevate your #research capabilities today and stay ahead of the curve with our next generation biosensing instruments: https://lnkd.in/g92z2if2#SPRSolutions#NextGenerationBiosensing#AffiniteInnovation
New study shows significant workflow benefit using SPECTRALIS with accelerated scan acquisition speeds.
The results showed that the acquisition time was 28.8% faster when using 125 kHz instead of 85 kHz for the OCTA 20x20° scan, with no clinically relevant loss in image quality.
Read the Kellogg Study here: https://ow.ly/1VeT50T1Zn5
🌟Avantor's New Products🌟
1️⃣ Use the new nano|Filter Vials by Thomson Instrument Company to transform unfiltered samples to filtered ones in 15 seconds! With a low dead volume, filter as little as 10 µl, leaving enough for a 2 µl injection. Perfect for high-precision UHPLC or #HPLC applications.
2️⃣ Avantor Inventory Manager is here to simplify your lab inventory with smart management tools, ensuring you never run out of critical supplies. Take the first step towards the lab of the future by reaching out today!
3️⃣ Expand your nanofabrication capabilities with high-quality Transene Company, Inc. Company, Inc. Etching #Solvents & #Reagents. Avantor and Transene Company, Inc. are here to support the entire semiconductor workflow with ease.
4️⃣ Collect precise volumes with Sarstedt, Inc. Inc. Blood Collection Solutions, starting at just 10 µl. From #Microvette® to #Minivette® systems, achieve accuracy and efficiency in sample handling.
5️⃣ #VWR® Heavy Duty Absorbent Wipers are now made from recycled materials and still lint-free! These durable, abrasion-resistant wipes are perfect for multipurpose use and on promo: Buy 4 cases, get 1 free!
To learn more: check out https://lnkd.in/gttvPweD or contact your Avantor representative.
#PoweringScienceatEveryStep#Research#Biotechnology
We are excited to be featured in Agilent Technologies' latest technical overview, showcasing their advancements in edge steepness measurements with the Cary 7000 UV-Vis-NIR spectrophotometer and Universal Measurement Accessory (UMA).
As specialists in steep edge filters, we look forward to future collaborations with industry leaders such as Agilent to advance optical filter technology and better serve our scientific communities.
Read more in the full technical overview:
https://lnkd.in/e5Cpqc8g
While developing its next generation biomedical analyzer, a leading life science OEM needed to conduct an isolation test on a finished system with a complete power supply as part of the required safety agency approvals. While this testing is usually carried out as a ‘type’ test on a power supply modified purely for the safety agency testing, the requirement in this instance was for a production unit, often a timely and costly exercise.
The solution proposed by the AE team was the CoolX1800-G option. Learn how this high-power density modular solution allowed the customer to combine all power needs into one compact power supply, greatly simplifying system integration, in this new case study bit.ly/44zOqS0
“You get what you get and you don’t get upset.” In all my years working on superconducting qubits, this has been more or less my experience fabricating Josephson junctions (JJs). As Quantum Materials lead at Rigetti, a big part of my team’s job is figuring out how to improve the quality of those (JJs). Like basically everyone else, our JJs use aluminum oxide, which is a thin amorphous material. Until now, it seemed like devices based on these amorphous oxide JJs had an intrinsically large spread and were prone to defects.
Recently, our team at Rigetti was astonished to discover that we could tune the properties of these junctions at ambient temperatures with a pretty simple alternating bias pulsing scheme -- right in the comfort of our regular probe station. This new process allowed us to more precisely tune the barrier while also seemingly reducing the number of defects in the junction!
This left us wondering "how are we changing the junction?" So we sent some JJs to our collaborators at the SQMS Center. Thanks to the incredible work of Lin Zhou, Jinsu Oh and Matt Kramer at Ames National Laboratory, we could see that the alternating bias scheme was actually creating a more uniformly highly coordinated oxide within the junction. This is a great example of the power of collaborative research in quantum computing — our scientists and engineers in Fabrication, Measurement and Design teams (Dave Pappas, Mark Field, Ella Lachman, Ph.D, Cameron KopasJoel Howard, Xiqiao Wang, Ph.D., Eyob A. Sete) worked closely to study the effect more deeply and rigorously and then with the amazing materials science expertise at SQMS to shed light on the underlying physics.
I am proud to share that the paper introducing our novel technique, Alternating-Bias Assisted Annealing (ABAA), was published this week in Nature Communications Materials. You can read the full paper here: https://lnkd.in/gq8qFei2.
We are excited to announce that our paper introducing our novel fabrication technique, Alternating-Bias Assisted Annealing (ABAA), was published earlier this week in Nature Communications Materials. ABAA allows for more precise qubit frequency targeting, thereby enabling improved execution of 2-qubit gates and further improvements in performance. This technique is now being leveraged to fabricate chips for Rigetti QPUs, including the Novera™ QPU and the upcoming Ankaa™-3 system. Want to learn more?
➡ Our Senior Principal Scientist, Dave Pappas, offers a closer look at how ABAA works in a new blog post: https://lnkd.in/e9_dKUmd
➡ Read the full paper here: https://lnkd.in/eFnpz6qg
➡ Read our press release here: https://lnkd.in/eQU3XiG4
Fluorescent-based technologies, such as Spectral Shift, are rapidly becoming the preferred methods for everything from initial screening to full affinity characterization. By using optimized fluorescent labels that have low impact on your target’s structure, you have flexibility to design your assays for success — regardless of what types of molecules you are working with.
Expert Nathan Wallace, Ph.D. shares what optimized labeling strategies are available for Spectral Shift and how they work.