August 7, 2022Chlorination Procedure for Conversion of HO-TCP(Cl) to Cl-TCP(Cl)
Peptide Synthesis TechnoteTechnical Note
September 1, 2021Using Automation to Achieve Rapid and Efficient Hydrolysis of...
Poster for AOAC 2021Poster
June 8, 2021Using Novel Methodologies to Increase Synthetic Yield, Purity,...
Microwave reactors have become the industry standard for medicinal chemistry, nanomaterials synthesis, and academic research and teaching labs.Webinar
June 8, 2021High Purity Peptide Synthesis Capable of Achieving Efficient...
The use of high efficiency solid phase peptide synthesis (HE-SPPS) allows synthesis of peptides at a previously unprecedented level of high speed, high purity, and low production of chemical waste.Webinar
March 10, 2021Latest Developments in Peptide Synthesis
Learn from industry and manufacturing experts at CEM and gain insight into leading research in this exciting field of study.In this webinar the fascinating landscape of peptide synthesis and drug discovery is explored from lead identification toWebinar
January 5, 2021Benefits of Microwave Reactions
As a microwave chemist, I hear a lot of questions from scientists that are new to this field of synthetic chemistry.Blog Post
November 3, 2020Accelerated In Situ Hybridization and Immunohistochemistry Techniques:...
Biological techniques such as in situ hybridization (ISH) and those used in immunohistochemistry (IHC) are time-consuming with many liquid handling steps that put samples at risk for pipetting errors or contamination.Webinar
November 1, 2020Microwave-Assisted Hydrogenation Reactions at Moderate Temperatures...
Microwave irradiation is a powerful tool in organic synthesis due to its ability to speed up chemical reactions and increase product yields. Indeed, dedicated microwave synthesizers have found their way into mainstream organic synthesis for most typeOther
September 21, 2020Continuous Flow Microwave Chemistry
Microwave chemistry has long been known to accelerate chemical transformations and provide a simple means to access more rigorous reaction conditions.Application Note