Part No: PPS401.V.1Issued year: 2016File size: 2.11mbFile type: pdf
PS-PPh3-Pd resin is a polystyrene-supported equivalent of the small molecule catalyst tetrakis(triphenylphosphine) palladium(0) [Pd(Ph3P)4]. The primary application for the resin is as a catalyst for Suzuki-Miyaura coupling reactions between arylboronic acids and aryl halides.
Part No: PPS382.V.1Issued year: 2016File size: 1.63mbFile type: pdf
Biotage® PS-TBD is a polymer-supported base, which applications are Alkylation of phenols and amines; esterification of carboxylic acids using alkyl halides; alkylation of activated methylene compounds; dehalogenation of organic halides; high throughput synthesis of aryl triflates and aryl nonaflates; Williamson ether synthesis
Part No: PPS389.V.1Issued year: 2016File size: 2.64mbFile type: pdf
Biotage® PS-Triphenylphosphine is a diphenylphosphinated polystyrene resin that is a solid-supported equivalent of triphenylphosphine. The resin can readily convert alcohols or carboxylic acids to the corresponding chlorides or acid chlorides in carbon tetrachloride.
Part No: PPS495Issued year: 2018File size: 1.56mbFile type: pdf
When purifying molecules, maximizing your efficiency is critical
to your daily work. For us at Biotage, helping you to make the
most of your time is of paramount importance. That is why we
have designed a lean and compact automated flash system with
two column channels, so you can prepare channel two while
channel one is running.
Part No: PPS437Issued year: 2016File size: 0.19mbFile type: pdf
Biotage® SNAP Bio flash cartridges were developed with a small
particle size (20 μm) and large pore size (300 Å) to provide
increased resolution and effective separation of complex
peptide mixtures. Depending on the quality of the peptides
synthesized, flash chromatography can be used either as the
sole method of purification or as a front end clean-up prior to
SNAP Bio offers close to prep-HPLC performance in a flash
format at a fraction of the cost
Part No: TN-0016.0108Issued year: 2008File size: 0.4mbFile type: pdf
Biotage SNAP cartridges can be used on any flash system.
The easy-to-use Luer-lok® connections do not need a
compression module to operate at 100 psi. Made from USP
Class VI materials, Biotage SNAP cartridges offer 7 types of
loading techniques including 3 internal dry loading options.
Packed to provide the highest plate count of any 50μm particle
cartridge on the market, SNAP provides increased loading
capacity and better compound separations.
Part No: TN-0025.0508Issued year: 2008File size: 0.35mbFile type: pdf
SNAP KP-NH cartridges contain amine functionalized silica.
This optimized media shields synthetic organic amines from
acidic silanols providing improved selectivity, peak shape,
purity and yield (Figure 1). Unlike traditional silica and 1°
amine (propyl amine) bonded silica, KP-NH doesn’t require the
use of chlorinated solvents or amine additives.
Part No: Issued year: 2009File size: 0.06mbFile type: pdf
SNAP flash cartridges provide several sample load options including both internal and external liquid and dry loading. This
Quick-start Guide provides sample load guidelines and loading technique suggestions, which should help you get the most
from your SNAP cartridges.
Part No: Issued year: 2008File size: 0.09mbFile type: pdf
SNAP flash cartridges provide several sample load options including both internal and
external liquid and dry loading. This Quick Start Guide provides sample load guidelines and
loading technique suggestions, which should help you get the most from your SNAP
Part No: TN-SNAP-RPC-0211Issued year: 2011File size: 1.11mbFile type: pdf
Reversed-phase flash chromatography is a very popular
purification technique using a non-polar stationary phase.
Main application areas include separation of polar, ionizable
and highly lipophilic compounds which cannot easily be
separated by normal-phase techniques.
Part No: TN-0032.0112Issued year: 2012File size: 0.75mbFile type: pdf
Precision engineered Biotage SNAP Ultra cartridges deliver double
the purification capacity utilizing small particle spherical silica with
an 40% increase in surface area. This proprietary silica reduces
peak width and provides higher concentration fractions with less