Innovative Particle Analysis Solutions for Academic Research: Exploring Mastersizer 3000+ and Revontium

このウェビナーを視聴するにはログインしてください

まだ登録されていませんか? アカウントを作成する

In the evolving landscape of academic research, precise and efficient particle size analysis is critical for breakthrough discoveries in fields such as material science, chemistry, pharmaceuticals, and environmental studies. Join us for an engaging webinar where we introduce two cutting-edge technologies designed to enhance research outcomes: the Mastersizer 3000+ and Revontium.

Mastersizer 3000+ is a highly advanced laser diffraction particle size analyzer, offering unparalleled accuracy and speed in measuring particle distributions. Whether you’re working on nanoparticle formulations or large-scale materials, the Mastersizer 3000+ provides a flexible and intuitive platform to meet the diverse needs of your research.

Revontium is a compact XRF instrument for chemical analysis of solids and liquids that will help in the development and research area. Research control environments benefit from the precision and flexibility that Malvern Panalytical XRF instruments are known for. For those switching between several methods, easy-to-use features keep method development simple without compromising scientific rigor. High-quality components make analysis intuitive and thorough – placing accuracy before hasty measurements.

発表者

  • Paul Senior - Product Manager - Micro Materials, Malvern Panalytical
  • Lieven Kempenaers - Product Manager, XRF, Malvern Panalytical
  • Stjepan Prugovecki - Malvern Panalytical

詳細

Who should attend? 

Whether you’re an experienced researcher or just starting your academic journey, discover how the Mastersizer 3000+ and Revontium can empower your research with precision, flexibility, and innovation. Join us for this exclusive session to explore the future of particle analysis in academia!

What will you learn? 

This webinar will showcase how these innovative solutions can revolutionize your academic research, offering:

  • Enhanced accuracy and repeatability in particle size analysis
  • A user-friendly interface designed to improve workflow efficiency
  • Versatile applications across a broad range of research fields
  • Real-time data insights to accelerate discovery and collaboration