L. Fernando Mendoza’s Post

Pressure is building on #FailureAnalysis labs to offer higher accuracy in locating defects and accelerate time-to-data for new #semiconductor devices. In this article, my Thermo Fisher Scientific colleague David Akerson offers insight into the benefits of dual beam FIB-SEM systems during product development and yield ramp.

Pressure is building on #FailureAnalysis labs to offer higher accuracy in locating defects and accelerate time-to-data for new #semiconductor devices. In this article, my Thermo Fisher Scientific colleague David Akerson offers insight into the benefits of dual beam FIB-SEM systems during product development and yield ramp.

Pressure is building on #FailureAnalysis labs to offer higher accuracy in locating defects and accelerate time-to-data for new #semiconductor devices. In this article, my Thermo Fisher Scientific colleague David Akerson offers insight into the benefits of dual beam FIB-SEM systems during product development and yield ramp.

Pressure is building on #FailureAnalysis labs to offer higher accuracy in locating defects and accelerate time-to-data for new #semiconductor devices. In this article, my Thermo Fisher Scientific colleague David Akerson offers insight into the benefits of dual beam FIB-SEM systems during product development and yield ramp.

🔬⚡ Hey Microfluidics Community! 🔬⚡ Let's dive into the fascinating world of microfluidics today, with a focus on a critical component that often goes underappreciated: Pulsation Dampeners! In the intricate realm of microfluidics, precision is everything. Maintaining a consistent flow rate and minimizing fluctuations are essential for reliable results and efficient processes. This is where pulsation dampeners come into play. Pulsation dampeners are like the unsung heroes of microfluidics, quietly ensuring the stability of your fluidic systems. They help reduce pulsations and pressure fluctuations, resulting in smoother and more accurate fluid handling. Whether you're working on lab-on-a-chip devices, high-throughput screening, or any microfluidic application, these little devices can make a significant difference. But let's not turn this into a product pitch; instead, I'd love to hear from you, the experts in the field! 🤓 What are your favorite use-cases for pulsation dampeners in microfluidics? How have they improved your experiments or processes? Let's share knowledge and inspire innovation together! 💡💬 #microfluidics #fluidhandling #PrecisionScience #innovation #scientificcommunity #PulsationDampeners

Why is the LM10 benchtop Microfluidizer® processor so popular? This digitally controlled lab unit is designed for the budget-conscious researcher working with small sample material processing. Microfluidizer® technology is the industry leader in high pressure processing by efficiently converting fluid pressure into shear forces. This unique solution of maintaining consistent process pressure ensures 100% of your material gets exactly the same treatment. This Microfluidizer® processor is unmatched in submicron particle/droplet size reduction, cell disruption, product yield, and guaranteed process scale-up. Learn more: https://hubs.la/Q02gcl0V0 #Microfluidizertechnology #Microfluidizerprocessor #Microfluidics #benchtopprocessor #highpressureprocessing #particlesizereduction

Exciting news is being announced soon from Microfluidics! Get ready to learn about a high shear solution to production scale cell disruption. Traditional mechanical methods of production scale cell disruption have always presented significant challenges including: * Multiple passes to achieve desired levels. * Duplication issues in achieving consistent results batch-to-batch. * Inefficient separation * Heat regulation challenges * and more... Microfluidics will be launching a new commercial processor to address these challenges for optimal cell disruption results on a production scale! Learn more about the advantages that Microfluidics technology has over alternative cell disruption methods: https://hubs.la/Q02gnfJD0 #Microfluidics #celldisruption #celllyse #cellrupture #celldisruptureproduction #productionscalecelldisrupture

Why is the LM10 benchtop Microfluidizer® processor so popular? This digitally controlled lab unit is designed for the budget-conscious researcher working with small sample material processing. Microfluidizer® technology is the industry leader in high pressure processing by efficiently converting fluid pressure into shear forces. This unique solution of maintaining consistent process pressure ensures 100% of your material gets exactly the same treatment. This Microfluidizer® processor is unmatched in submicron particle/droplet size reduction, cell disruption, product yield, and guaranteed process scale-up. Learn more: https://hubs.la/Q02S6Pyz0 #Microfluidizertechnology #Microfluidizerprocessor #Microfluidics #benchtopprocessor #highpressureprocessing #particlesizereduction

Why is the LM10 benchtop Microfluidizer® processor so popular? This digitally controlled lab unit is designed for the budget-conscious researcher working with small sample material processing. Microfluidizer® technology is the industry leader in high pressure processing by efficiently converting fluid pressure into shear forces. This unique solution of maintaining consistent process pressure ensures 100% of your material gets exactly the same treatment. This Microfluidizer® processor is unmatched in submicron particle/droplet size reduction, cell disruption, product yield, and guaranteed process scale-up. Learn more: https://hubs.la/Q02J-nVz0 #Microfluidizertechnology #Microfluidizerprocessor #Microfluidics #benchtopprocessor #highpressureprocessing #particlesizereduction

Ideal for initial studies and proof of concept to support further investment in new products. Also useful to establish Validation Engineering Study bandwidth of acceptable product operations parameters.