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James DeRose , Ph.D.

James DeRose

James DeRose is a scientific and technical writer for stereo and digital microscopy at Leica Microsystems. He has more than 20 years of experience in scientific and technical writing for book and journal publications. He has co-authored more than 35 scientific and technical publications published in international journals, more than 45 presentations for international scientific conferences and symposiums, and 2 patent applications. He is lead editor for the book "Aluminium Alloy Corrosion of Aircraft Structures: Modelling and Simulation" published in 2012. This book resulted from the EU 6th Framework funded project SICOM. He has managed and contributed to scientific and technical projects focusing on applied R&D and applications development in the fields of interfacial chemistry and physics, thermal and chemical engineering, corrosion and metallography, surface coatings and analysis, materials science, biotechnology, and cellular biology. He has expertise with various types of microscopy and analytical methods. In the past, he worked on applied R&D and applications development projects while at the California Institute of Technology, the Swiss Federal Institute of Technology in Lausanne, as well as the company Cytion (Molecular Devices). James obtained a doctorate in physics with applied research emphasis in surface science, physical chemistry, and biophysics in 1993 from Arizona State University. He has worked at Leica Microsystems since August 2013.

Transgenic zebrafish larva where fluorescent proteins label the heart muscle blue, blood and blood vessels red, and all circulatory system cells green. Image recorded with a M205 FA microscope.

Imaging and Analyzing Zebrafish, Medaka, and Xenopus

Discover how to image and analyze zebrafish, medaka, and Xenopus frog model organisms efficiently with a microscope for developmental biology applications from this article.
Fluorescence stereo microscope image of anesthetized Mediterranean fruit flies recorded with a M205 stereo microscope.

Investigating Fruit Flies (Drosophila melanogaster)

Learn how to image and investigate Drosophila fruit fly model organisms efficiently with a microscope for developmental biology applications from this article.
C. elegans

Studying Caenorhabditis elegans (C. elegans)

Find out how you can image and study C. elegans roundworm model organisms efficiently with a microscope for developmental biology applications from this article.

Life Science Imaging with DVM6 Digital Microscope

Digital microscopes can be a great help in life science applications such as the documentation in botany, entomology studies and crop science, or the digitization of museum collections. The image…
Watch imaged with DMS300.

What You Always Wanted to Know About Digital Microscopy, but Never Got Around to Asking

Digital microscopy is one of the buzz words in microscopy – and there are a couple of facts that are useful to know. Georg Schlaffer, Product Manager with Leica Microsystems, has often been asked…

Nanoscale or Microscale Structures Formed in Polymers Containing Nanotubes Greatly Enhance the Electrical Conductivity

The excellent mechanical and electrical properties of carbon nanotubes have led to them being exploited for the creation of a new class of high performance polymer composites. Due to important…
An ID card which has been tampered with by counterfeiters who inserted a hologram.

Is that Document Genuine or Fake? How do They Identify Fake Documents?

This article shows how forensic experts use microscopy for analysis to identify counterfeit, fake documents, such as ID cards, passports, visas, certificates, etc. Then they know if it is genuine or…
Fluorescence microscope image of a life-science specimen

An Introduction to Fluorescence

This article gives an introduction to fluorescence and photoluminescence, which includes phosphorescence, explains the basic theory behind them, and how fluorescence is used for microscopy.
A portion of an early binocular microscope developed by John Leonhard Riddel in the early 1850s.

The History of Stereo Microscopy

This article gives an overview on the history of stereo microscopes. The development and evolution from handcrafted instruments (late 16th to mid-18th century) to mass produced ones the last 150…
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