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Home > Press > French Researchers Extend Reach of Mass Spectrometry with Nanomechanical Resonators: Neutral Mass Spectrometry’ Fills Gap In Existing Weighing Technologies

Abstract:
A team of French researchers has demonstrated a new mass-spectrometry technology based on nanomechanical resonators that measures the mass of particles previously beyond the reach of current commercial technology, and which they used to measure the mass of a whole bacteriophage virus capsid.

French Researchers Extend Reach of Mass Spectrometry with Nanomechanical Resonators: Neutral Mass Spectrometry’ Fills Gap In Existing Weighing Technologies

Grenoble, France | Posted on November 27th, 2018

Current technologies for mass measurement can weigh several tons and down to a hydrogen atom mass, roughly one atomic mass unit, or Dalton (Da). In between these extremes, a gap in mass of several orders of magnitude has been unfilled: So far, no commercial technology could measure the mass of nanoscale objects in the megadalton (MDa) to gigadalton (GDa) range. Yet, this range is of great interest, as it includes most viruses, diverse biomarkers for diseases such as cancers and degenerative diseases, as well as synthetic nanoparticles for nanomedicine.



Mass is a key parameter for studying, characterizing or identifying particles at the nanoscale. Several Nobel prizes have acknowledged the ubiquity and power of conventional mass spectrometers. Nonetheless, these spectrometers struggle to analyze species above the MDa range, because they require ionization[1] to manipulate particles, and this becomes particularly difficult for “heavy” particles. The nanomechanical mass-spectrometry system demonstrated by this research team is the first to analyze particles in the MDa-to-GDa range with efficiency and high precision, and without relying on ionization.



The system is described in an article published in Science Magazine in November 2018, “Neutral Mass Spectrometry of Virus Capsids Above 100 Megadaltons with Nanomechanical Resonators”.


Just like guitar strings, nanomechanical resonators “ring” at a specific tone or frequency. Like a guitar player placing his or her finger on a string for a particular tune, a particle landing on the surface of a resonator will change the resonator’s frequency. The mass of the landed particle can then be inferred from this frequency change.



Previous attempts to realize nanomechanical mass spectrometers mimicked conventional systems and used electromagnetic processes to transport ionized analytes to the resonator. This resulted in prohibitive sample losses and analysis time, e.g. a single analysis could take weeks. Departing from conventional wisdom, the team found solutions to circumvent ionization altogether: first, their system uses a surface acoustic wave device to nebulize nanoparticles in solution into a mist of small droplets (similar to a home humidifier), which are then aspirated into a vacuum system. Second, particles are transported and guided towards the nanomechanical detector using a flow of carrier gas that propels and focuses the particles into a very narrow beam. As this beam is still much larger (~mm2) than a nanomechanical resonator (~µm2), the team uses not one, but an array of 20 nanomechanical resonators to detect the mass of as many incoming particles as possible, one after the other.



The new technology has been coined “neutral mass spectrometry” for these reasons, although it can also analyze particles whether ionized or not, as demonstrated.



“In the mass range we are targeting, particles weigh the equivalent of 1 million to 1 billion hydrogen atoms. It is an intriguing range where some particles, just like objects of everyday life, are constituted of an unspecific number of atoms, while others are known to contain specific numbers of atoms of defined masses: like small molecules, they have a defined molecular mass,” said Sebastien Hentz, director of research at CEA-Leti. “This is the case, for example, of the bacteriophage T5 virus capsid we have analyzed. To our knowledge, this is the highest molecular mass ever determined by mass spectrometry.”



Bacteriophages (etymologically “bacteria eaters”) are viruses affecting bacteria. These natural predators of bacteria are of high interest to researchers, because the number of antibiotic-resistant bacteria strains has increased at an alarming rate in the past decade, while the number of new antibiotics molecules introduced on the market has decreased. Bacteriophages are considered promising alternatives to standard antibiotherapies, as they can be engineered to target specific pathogenic bacteria. However, they have not reached their full potential yet, partly because of a lack of characterization techniques for those viruses, which cannot be analyzed in their native form by conventional mass spectrometers.



The system demonstrated by the French research team may open prospects for many nanoparticles of biomedical interest, because no commercial instrument can efficiently analyze particles in the MDa-to-GDa mass range today.



The research team includes scientists from CEA-Leti, the CEA Biosciences and Biotechnology Institute of Grenoble (BIG), and the Institute for Integrative Biology of the cell of Gif-sur-Yvette (I2BC).

RĂ©sultat de recherche d'images pour "erc logo"

This project has received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program (grant agreement # 616251, ERC Enlightened project).


[1] Electric charges



Special note to editors: more information, including a copy of the paper, can be found online at the Science press package webpage at http://www.eurekalert.org/jrnls/sci . You will need your user ID and password to access this information.

####

About Leti
Leti, a technology research institute at CEA Tech, is a global leader in miniaturization technologies enabling smart, energy-efficient and secure solutions for industry. Founded in 1967, Leti pioneers micro-& nanotechnologies, tailoring differentiating applicative solutions for global companies, SMEs and startups. Leti tackles critical challenges in healthcare, energy and digital migration. From sensors to data processing and computing solutions, Leti’s multidisciplinary teams deliver solid expertise, leveraging world-class pre-industrialization facilities. With a staff of more than 1,900, a portfolio of 2,700 patents, 91,500 sq. ft. of cleanroom space and a clear IP policy, the institute is based in Grenoble, France, and has offices in Silicon Valley and Tokyo. Leti has launched 60 startups and is a member of the Carnot Institutes network. This year, the institute celebrates its 50th anniversary. Follow us on www.leti-cea.com and @CEA_Leti.

Follow us on www.leti.fr/en and @CEA_Leti.



CEA Tech is the technology research branch of the French Alternative Energies and Atomic Energy Commission (CEA), a key player in innovative R&D, defence & security, nuclear energy, technological research for industry and fundamental science, identified by Thomson Reuters as the second most innovative research organization in the world. CEA Tech leverages a unique innovation-driven culture and unrivalled expertise to develop and disseminate new technologies for industry, helping to create high-end products and provide a competitive edge.

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