Learn about QSense QCM-D technology, a powerful tool for analyzing detergent activity and cleaning dynamics at the nanoscale.

Watch the demo to learn how to combine electrochemical measurements with QCM-D.

Learn how QCM-D can be used to study slurry additive and abrasive interaction with surface materials relevant to the electronics industry.

Learn how non-ionic surfactants play a crucial role in stabilizing liquid therapeutic protein formulations, preventing the loss of active ingredients through aggregation or adsorption.

What is good data? What can influence quality of data and consequences Hands on instructions how to collect good QCM-D data

How to select the appropriate sensor Sensor coating and what to consider if reusing sensors? Watch the webinar to understand

Understand the fundamentals of EQCM-D and its various possibilities

In recent years, the development of proton exchange membrane fuel cells has been greatly accelerated due to the increasingly evident climate change, as they represent an efficient alternative for the conversion of green hydrogen into electricity.

Our society is now rapidly increasing activities and actions in the energy transition, to steer away from fossil fuels to renewable energy systems. This is in large driven by the ambition to decrease carbon dioxide emissions and also an effect of massive cost reductions in renewable electricity production. As a result, we see an accelerating electrification of a large number of industrial processes as well as in most parts of our transport systems. This has in turn generated a great increase in the interest and implementation of electrochemical energy conversion, including batteries, fuel cells, and electrolysis. Electrochemical energy conversion takes place through electrochemical reactions on the electrodes in electrochemical cells in these technologies. The possibility to couple electrochemistry with quartz crystal microbalance with dissipation monitoring (EQCM-D) is a powerful tool to study various aspects of electrochemical reactions on both fundamental and applied levels. In this presentation I will introduce the energy transition and the most important electrochemical energy conversion technologies and give examples of how EQCM-D can be used to give further insights to the processes that occur on electrodes in batteries, fuel cells and in electrolysis.

Get an introduction to some of the latest and most cutting-edge uses of QCM-D technology to study biotechnology and biophysics topics, demonstrating the breadth and depth of scientific insights that are possible to obtain with the QCM-D technique.

In this webinar you will learn about QSense QCM-D technology and how it can be used to analyze adsorption of biologics and excipients to materials used in manufacturing, storage, and administration of biopharmaceuticals to provide an early indication of potential incompatibilities.

We show how QSense QCM-D analysis can be used to assess adsorption of biologics and excipients and reduce the risk of late discovery of incompatibilities

Prof. Federica Sebastini takes us through her research on Screening of the binding affinity of serum proteins to mRNA-LNPs by QCM-D

Learn how QSense Omni could help your journey in the lab trustworthy and smoother!

Prof. Ralf Richter dives in to the topic of analyzing biopolymer films by QCM-D

Elevate your FMCG product development for a cleaner future through the innovative application of QCM-D technology

Understand the aspects considered as quality QCM-D Data with Erik Nilebäck

Understanding interactions and characteristics of Polysaccharide films using QCM-D

Dr Sivan Nir-Luz takes us through their research on photosynthetic, bio interfaces from the single molecule to the whole organism

Dr Stefan Guldin presents his research around acoustic immunosensing of extracellular vesicles and QCM-D

Dive in to the singhtful presentation delivered by Dr. Clifton from Rutherford Hamilton laboratory

Listen to Prof. Joshua Jackman to understand his research using QCM-D for complex biomacromolecular interactions

How QSense® EQCM-D can be used to investigate the build-up and evolution of solid electrolyte interphases (SEI) and to characterize the mechanical properties of the formed layer

Learn what information EQCM, and the extended version EQCM-D, provide and exemplify how this technology is used in the quest towards better performing batteries.

How QSense® EQCM-D can be used to explore the reaction mechanisms of organic electrode materials with the ambition to support battery development.

In this webinar you will get acquainted with QSense combined QCM-D and electrochemistry solution and how EQCM-D analysis is used in research.

For decades, QCM-D has provided key data to the scientific and research community and been a fundamental tool to develop products and processes.

If you work with fundamental or applied research related to biomaterials, biotechnology or biophysics, and are curious to learn more about how QCM-D technology can help you progress your work, then this webinar is for you.

If you work with fundamental or applied research in areas related to biophysics or biotechnology and are curious to learn more about how QCM-D technology can help you progress your work, then this webinar is for you!

QSense® Omni is the result of our commitment to provide you with cutting-edge laboratory instrument, that gives you sharper QCM-D data and a smooth journey in the lab. Running successful QCM-D experiments with trustworthy results has never been easier!

In this webinar, we take a closer look at EQCM - a highly sensitive and non-invasive analysis method that has helped answer battery-related research questions for decades.

Exosomes have shown great importance in intercellular communication and disease transmission. As result, there has been a significant increase in trying novel biosensing platforms that can detect exosomal content such as proteins and nucleic acid with a view toward application in diagnostic assays. This webinar by Prof. Guldinwill present recent efforts on implementing quartz crystal microbalance with dissipation monitoring (QCM-D) for reliable biosensing. The presenter has recently developed an approach, based on QCM-D, for the stepwise functionalization of surface immobilization and subsequent uptake and release of binding partners.

Get a walk-through with our experts of the versatile QSense Explorer system.

Listen to the talk from Joshua A. Jackman, Assistant Professor, School of Chemical Engineering, Sungkyunkwan University.

Check out the webinar by Fredrik Pettersson on physical modeling using QSense Dfind.

QSense Dfind assists you with raw data review, modeling, information extraction and generating reports. Get started with the webinar by Patricia Passanesi, Application Scientist at Biolin Scientific

Watch the talk from Marité Cárdenas, Professor, Biomedical Science at Malmö University on biomembrane models.

Explore our list of 33 recent publications that exemplify the usage of QCM-D technology in various aspects of battery research.

Learn more about adsorption and aggregation of monoclonal antibodies at silicone oil-water interfaces with Ph.D. Aadithya Kannan at Genentech.

Explore the possibilities of performing measurements in high pressure, techniques especially suitable for oil and gas applications.

Polymer brush response to ambient changes can be characterized with QCM-D. Here we show how

Nanomaterials may interact with, and have adverse effects on, e.g., biological systems. Here we show how a model system can be used as an early screening method to characterize the nanoparticle uptake and biodurability

In this note we show how PEM build-up and crosslinking can be characterized with QCM-D

In this note we show how QCM-D can be used to evaluate biomaterial immunogenicity

Proteins tend to passively adsorb to surfaces via hydrophobic interactions. In this application note we show how protein adsorption can be characterized with QCM-D.

Read about how QCM-D can be used to analyse how water uptake and release affects film thickness

What determines the value of the fundamental resonance frequency? In this overview, we explain the theory behind the number.

In this overview, we present how QSense® QCM-D technology can be used in molecule-surface interaction analysis and optimization of CMP related processes.

In this overview, we take a closer look at the behavior of the sensor oscillation at various types of loads and investigate what the D-factor reveals.

Learn what information the overtones offer in this overview.

In this overview we explain how biocompatibility is defined and give examples of what the property entails.

Can QCM-D quantify how surfactants affect protein-surface interaction? Watch this webinar with Dr. Archana Jaiswal to find out more.

Learn how QCM-D can be used to characterize surfaces and reactions for energy storage from Dr. Archana Jaiswal, Nanoscience Instruments.

Learn more about QCM-D in food industry with studies of shelf life from Cornell University.

Watch our webinar on Nanocellulose Research with QCM-D where we will discuss thin films of cellulose nanofibrils development, and their characterization. 

Hear researcher Gustaf Rydell, on how they used QCM-D to study interactions between virus particles and membrane associated glycolipids.

Learn from Prof. Bengt Kasemo in this webinar on Biomaterials – man-made materials for regenerative medicine.

We collected examples of scientific publications in basic and applied research for you.

Listen to Prof. Bengt Kasemo in this webinar on Surface Science - a field rich in science and applications.

Listen to the webinar from Prof Nam-Joon Cho on how his group work with preventing future pandemics.

Learn the fundamentals of the technology, its possibilities and limitations and get a deeper understanding of nanometer layers.

Learn the basics of Dfind, get a walk-through of the software and watch two live demo examples.

Learn how biomolecular interactions can be analyzed using QSense® QCM-D technology and what information you can get.

The story from Professor Bengt Kasemo continues moving from static to dynamic surface systems.

Let Professor Bengt Kasemo enlighten you on how it all started.

Find out how to analyze surfactant interaction with surfaces at the nanoscale.

Analyze layer build-up, conformation and molecular interaction with QSense QCM-D

Let this brief overview guide you to your most suitable choice of QCM.

Bone, wood and quartz are all piezoelectric materials. Learn about piezoelectricity and how it works

Ice, wood and a disks in the human spine are all viscoelastic materials. What does it really mean?

Analyze and quantify protein adsorption to surfaces.

9 steps to eliminate error sources and optimize reproducibility

Advanced medical solutions and implants. Get a brief summary of biomaterials and their applications.

The distribution of the measured layer is key to your results. Discover why and how to handle it.

Follow our checklist for high-quality data and reproducible measurements.

Achieve reliable and reproducible QCM measurements by controlling the temperature.

This is your chance to find out what it is, why it is important, and how it can be measured.

We gathered 8 research studies where QCM-D was used as a central analysis method.

Learn the fundamentals of how the technologies work, and what is the difference between them.

Learn more about the differences between the two methods to find out which you should use.

Explore the work of Prof. Nam-Joon Cho and his research group through their publications.

Learn how to use QSense technology for assessment of detergent etching properties.

Learn how to assess cleaning efficiency using model and standardized stains.

Hear Fredrik Andersson, Scientist at Global R&D, Nouryon, talk about how they used the QSense results to differentiate Elfan AT 84.

We sort out the the differences between QCM methods to answer the question - does it matter which one I use?

Read this white paper for background theory and a step-by step guide on how to do it.

Interested in finding out the size, concentration or shape of nanoparticles? In this overview you'll find examples of tools that could be used.

We put together guidelines for you on how to evaluate which method to use, and what happens if you choose the wrong approach.

Watch our interview with Prof. Nam-Joon Cho, Nanyang Technological University, about the SALB-project.

In this overview, Prof. Nam-Joon Cho, Nanyang Technological University, Singapore, has compiled a list of the analytical methods he uses in his research to characterize lipid-based systems.

In this overview we explore three examples of nanoparticle analysis with QCM-D.

Time to learn how the Sauerbrey relation is derived and what the parameters mean.

You get a brief overview of how to analyze lipid layer formation dynamics, structure and layer quality.

We have summarized the parameters and processes that can be studied with QCM-D for you.

Explore a new way to evaluate product performance of detergents with our step-by-step guide.

There are key parameters to keep an eye on when investing in a new QCM instrument. Learn what they mean, and why they are important.