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  JoVE Biology

  
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  JoVE Applied Physics

  
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  JoVE Chemistry

  
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  JoVE Environment

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JoVE Science Education

General Laboratory Techniques

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Basic Methods in Cellular and Molecular Biology

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Model Organisms I

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Model Organisms II

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Essentials of
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JoVE Chemistry
JoVE Chemistry surveys a broad scope of chemical disciplines. This collection includes fundamental and applied research that investigates molecular interactions, properties, and structure spanning in the following core divisions: analytical, organic, organometallic, inorganic, bioinorganic, and biochemistry. This section also includes the design and preparation of materials and small molecules for advanced or unique applications.
 JoVE Chemistry

Stabilizing Hepatocellular Phenotype Using Optimized Synthetic Surfaces

1MRC Centre for Regenerative Medicine, University of Edinburgh, 2School of Chemistry, University of Edinburgh, 3MRC Centre for Inflammation Research, University of Edinburgh


JoVE 51723

This article will focus on developing polymer coated surfaces for long-term, stable culture of stem cell derived human hepatocytes.

 JoVE Chemistry

Synthesis and Characterization of Functionalized Metal-organic Frameworks

1Department of Chemistry, Northwestern University, 2Department of Chemistry, Warsaw University of Technology, 3Department of Chemistry, Faculty of Science, King Abdulaziz University


JoVE 52094

Synthesis, activation, and characterization of intentionally designed metal-organic framework materials is challenging, especially when building blocks are incompatible or unwanted polymorphs are thermodynamically favored over desired forms. We describe how applications of solvent-assisted linker exchange, powder X-ray diffraction in capillaries and activation via supercritical CO2 drying, can address some of these challenges.

 JoVE Chemistry

Analysis of Volatile and Oxidation Sensitive Compounds Using a Cold Inlet System and Electron Impact Mass Spectrometry

1Department of Chemistry, Institute of Organic Chemistry, Bielefeld University


JoVE 51858

This video presents a protocol for the mass spectrometrical analysis of volatile and oxidation sensitive compounds using electron impact ionization. The presented technique is especially of interest for inorganic chemists, working with metal organyls, silanes, or phosphanes which have to be handled using inert conditions, such as the Schlenk technique.

 JoVE Chemistry

An Inverse Analysis Approach to the Characterization of Chemical Transport in Paints

1Decontamination Sciences Branch, U.S. Army Edgewood Chemical Biological Center, 2OptiMetrics, Inc., a DCS Company


JoVE 51825

In this paper, a procedure for quantifying the mass transport parameters of chemicals in various materials is presented. This process involves employing an inverse-analysis based diffusion model to vapor emission profiles recorded by real-time, mass spectrometry in high vacuum.

 JoVE Chemistry

Synthesis of Immunotargeted Magneto-plasmonic Nanoclusters

1Department of Biomedical Engineering, University of Texas at Austin, 2Department of Imaging Physics, University of Texas M.D. Anderson Cancer Center


JoVE 52090

Here, we describe a protocol for synthesis of magneto-plasmonic nanoparticles with a strong magnetic moment and a strong near-infrared (NIR) absorbance. The protocol also includes antibody conjugation to the nanoparticles through the Fc moiety for various biomedical applications which require molecular specific targeting.

 JoVE Chemistry

Quantitative Detection of Trace Explosive Vapors by Programmed Temperature Desorption Gas Chromatography-Electron Capture Detector

1Chemical Sensing & Fuel Technology, Chemistry Division, U.S. Naval Research Laboratory, 2NOVA Research, Inc., 3Bio/Analytical Chemistry, Chemistry Division, U.S. Naval Research Laboratory, 4Navy Technology Center for Safety and Survivability, Chemistry Division, U.S. Naval Research Laboratory


JoVE 51938

Trace explosive vapors of TNT and RDX collected on sorbent-filled thermal desorption tubes were analyzed using a programmed temperature desorption system coupled to GC with an electron capture detector. The instrumental analysis is combined with direct liquid deposition method to reduce sample variability and account for instrumentation drift and losses.

 JoVE Chemistry

Quantitative and Qualitative Examination of Particle-particle Interactions Using Colloidal Probe Nanoscopy

1Faculty of Pharmacy, University of Sydney, 2Department of Nanobiomedical Science & BK21 PLUS NBM Global Research Center for Regenerative Medicine, Dankook University


JoVE 51874

Colloidal probe nanoscopy can be used within a variety of fields to gain insight into the physical stability and coagulation kinetics of colloidal systems and aid in drug discovery and formulation sciences using biological systems. The method described within provides a quantitative and qualitative means to study such systems.

 JoVE Chemistry

Quantitative Proteomics Using Reductive Dimethylation for Stable Isotope Labeling

1CEA, DSV, IG, Genoscope, 2CNRS-UMR8030, Évry, France, 3Université d'Évry Val d'Essonne, 4Massachusetts General Hospital Cancer Center


JoVE 51416

Stable isotope labeling of peptides by reductive dimethylation (ReDi labeling) is a rapid, inexpensive strategy for accurate mass spectrometry-based quantitative proteomics. Here we demonstrate a robust method for preparation and analysis of protein mixtures using the ReDi approach that can be applied to nearly any sample type.

 JoVE Chemistry

Synthesis of Antiviral Tetrahydrocarbazole Derivatives by Photochemical and Acid-catalyzed C-H Functionalization via Intermediate Peroxides (CHIPS)

1Max-Planck-Institut fuer Kohlenforschung


JoVE 51504

A two-step procedure for the synthesis of pharmaceutically active indole-derivatives by C-H functionalization with anilines is described, using photo- and Brønsted acid catalysis.

 JoVE Chemistry

Split-and-pool Synthesis and Characterization of Peptide Tertiary Amide Library

1Scripps Florida, The Scripps Research Institute


JoVE 51299

Peptide tertiary amides (PTAs) are a superfamily of peptidomimetics that include but are not limited to peptides, peptoids and N-methylated peptides. Here we describe a synthetic method which combines both split-and-pool and sub-monomer strategies to synthesize a one-bead one-compound library of PTAs.

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