Case Studies, Application Notes & Scientific Papers

This page is where you will find our latest application notes, case studies and some relevant Scientific papers, extracts and reports from journals covering all subjects related to electron microscopy. If you would like to see samples by type, please visit our specimen pages.

A number of these include studies where Quorum Technologies’ products were used in electron microscopy preparation.

If you would like to recommend a scientific paper for us to list below, please email [email protected] with a link or a PDF for us to view the document.



Coffee Talks with Dr Anna Walkiewicz – The Scary Vacuum


In this series Dr Anna Walkiewicz, the Quorum Application Specialist, will talk about different processes within the sample preparation workflow and breaking them down into simple steps, solving common problems and looking at how to improve efficiency and efficacy.

The first coffee talk, The Scary Vacuum, will be addressing issues regarding the vacuum: why do we need to consider if our samples are sensitive to the change of pressure and how they will behave in the vacuum environment.  Dr Anna Walkiewicz will be giving advice how to prepare samples in the correct way, so we see their natural appearance rather than an outcome of the pressure change modifying their morphology.

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    Coffee Talks with Dr Anna Walkiewicz – Dehydration

    In this series of mini-talks, Dr Walkiewicz will be describing sample preparation process and breaking it down into simple steps, solving common problems and looking at how to improve efficiency and efficacy.

    In this second episode of the series, Dr Walkiewicz will be looking at dehydration of samples, why it is so important, why we dehydrate, do we need anything before dehydration, and means of tissue fixation.

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      Coffee Talks with Dr Anna Walkiewicz – Mounting and Coating Samples


      In this Coffee Talk you will learn about techniques used to attach samples to SEM stubs, different materials and accessories that could be used to expose parts of interest in the best way. Dr Walkiewicz will offer tips for different sample types and explain the method in which you mount could affect the efficacy of coating.

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        Operation of the PV60 Vessel, as used on the PP3010 Cryo-preparation system


        This guide provides information on operating the PV60 self-pressurising vessel with the associated hazards and risks when using liquid nitrogen. It will also emphasize several control measures that one should implement when using liquid nitrogen.

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          A guide to coating for electron microscopy imaging


          In carbon thin film applications the quality of carbon film production is key for successfully conducting complex experiments. Commonly, carbon coatings are used in sample preparation for TEM (ambient and cryo) imaging, EDS analysis and replicas.

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            GloQube Plus – Glow discharge system for the preparation of TEM grids


            Transmission Electron Microscopy (TEM) is a high-resolution imaging technique that
            provides information about the structure and morphology of specimens. It uses a high
            energy electron beam to penetrate samples and renders images using the transmitted
            part of the beam.

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              Carbon thin film preparation for ambient and cryo TEM grids using the Q150V


              The 2017 Nobel prize in cryo-transmitted Electron Microscopy highlighted the significance of direct observation of the molecular world of the cell. Understanding the structure of biomolecules as well as their changes over cell processes plays an important role in curing disease and drug discovery. Download this application note to understand why we use carbon film in grid preparation.


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                The influence of coating quality on SEM imaging of PVdF electrospinning fibres


                The increasing amount of applications for nano-fibres, especially those produced in the electrospinning process, creates a need to image them in a way that allows their users to examine not only their alignment and diameter, but also their discrete morphology.

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                  For low-resolution imaging, a majority of the SEM samples can be sputtered or carbon-coated in the pressure range of 1 x 10−1 to 1 x 10−2 mbar. A higher vacuum lower than 1 x 10−3 mbar base pressure allows the sputtering of oxidizing metals. These metals have a lower grain size ideal for high-resolution imaging. Likewise, lower scattering with the background gases enables high purity, high density, amorphous carbon films.

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                    An introduction to cry-SEM and the PP3010


                    Since coming into use in the 1930s, electron microscopy has played a pivotal role in a host of scientific advances. This application note walks you through the process of sample preparation and the PP3010 cryo-prep system

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                      Scientific papers using Quorum Technology’s products

                      This page is where you will find our latest application notes, case studies and some relevant Scientific papers, extracts and reports from journals covering all subjects related to electron microscopy. If you would like to see samples by type, please visit our specimen pages.

                      A number of these include studies where Quorum Technologies’ products were used in electron microscopy preparation.

                      If you would like to recommend a scientific paper for us to list below, please email [email protected] with a link or a PDF for us to view the document.


                      Cryo-focused Ion Beam Sample Preparation for Imaging Vitreous Cells by Cryo-electron Tomography


                      Published By

                      Department of Molecular Structural Biology, Max Planck Institute of Biochemistry, Martinsried, Germany

                      Abstract

                      Cryo-electron tomography (CET) is a well-established technique for imaging cellular and molecular structures at sub-nanometer resolution. As the method is limited to samples that are thinner than 500 nm, suitable sample preparation is required to attain CET data from larger cell volumes. Recently, cryo-focused ion beam (cryo-FIB) milling of plunge-frozen biological material has been shown to reproducibly yield large, homogeneously thin, distortion-free vitreous cross-sections for state-of-the-art CET. All eukaryotic and prokaryotic cells that can be plunge-frozen can be thinned with the cryo-FIB technique. Together with advances in low-dose microscopy, this has shifted the frontiers of in situ structural biology. In this protocol we describe the typical steps of the cryo-FIB technique, starting with fully grown cell cultures. Three recently investigated biological samples are given as examples.

                      Authors

                      • Miroslava Schaffer
                      • Benjamin D. Engel
                      • Tim Laugks
                      • Julia Mahamid
                      • Jürgen M. Plitzko
                      • Wolfgang Baumeister

                      Contact




                        Cryo-SEM of polymers: Synthesis, characterisation, and in vitro cellular uptake kinetics of nanoprecipitated poly(2-methacryloyloxyethyl phosphorylcholine)-b-poly(2-(diisopropylamino)ethyl methacrylate) (MPC-DPA) polymeric nanoparticle micelles for nanomedicine applications


                        • Published By

                          Applied Nanoscience, DOI 10.1007/s13204-016-0520-4

                          Abstract

                          Abstract Nanoscience offers the potential for great advances in medical technology and therapies in the form of nanomedicine. As such, developing controllable, predictable, and effective, nanoparticle-based therapeutic systems remains a significant challenge. Many polymerbased nanoparticle systems have been reported to date, but few harness materials with accepted biocompatibility. Phosphorylcholine (PC) based biomimetic materials have along history of successful translation into effective commercial medical technologies. This study investigated thesynthesis, characterisation, nanoprecipitation, and in vitro cellular uptake kinetics of PC-based polymeric nanoparticle micelles (PNM) formed by the biocompatible and pH responsive block copolymer poly(2-methacryloyloxyethyl phosphorylcholine)-b-poly(2-(diisopropylamino)ethyl methacrylate) (MPC-DPA). Atom transfer radical polymerisation (ATRP), and gel permeation chromatography (GPC) were used to synthesise and characterise the welldefined MPC100-DPA100 polymer, revealing organic GPC, using evaporative light scatter detection, to be more accurate than aqueous GPC for this application. Subsequent nanoprecipitation investigations utilising photoncorrelation spectroscopy (PCS) revealed PNM size increased with polymer concentration, and conferred Cryostability. PNM diameters ranged from circa 64–69 nm, and increased upon hydrophobic compound loading, circa 65–71 nm, with loading efficiencies of circa 60 % achieved, whilst remaining monodisperse. In vitro studies demonstrated that the PNM were of low cellular toxicity, with colony formation and MTT assays, utilising V79 and 3T3 cells, yielding comparable results. Investigation of the in vitro cellular uptake kinetics revealed rapid, 1 h, cellular uptake of MPC100-DPA100 PNM delivered fluorescent probes, with fluorescence persistence for 48 h. This paper presents the first report of these novel findings, which highlight the potential of the system for nanomedicine application development.

                          Keywords:  Nanomedicine  Phosphorylcholine  MPCDPA Micelle  Nanoparticle  Drug delivery

                          Authors

                          • Jonathan P. Salvage
                          • Tia Smith
                          • Tao Lu
                          • Amendeep Sanghera
                          • Guy Standen
                          • Yiqing Tang
                          • Andrew L Lewis

                          Contact

                          Jonathan P. Salvage [email protected]

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