Bene Technology Co.,Ltd.
simg01
simg02
simg03
 
Á¦¸ñ SMT»ç Ư¼ö Ä÷³ 2018 New Catalog
ÀÛ¼ºÀÏÀÚ 2018-05-15
SMT»ç Ư¼ö Ä÷³ 2018  New Catalog : SMT Çѱ¹ µ¶Á¡ ´ë¸®Á¡: º£³ÊÅ×Å©³î·ÎÁö(ÁÖ) 02-517-9125,9120
 

»ç¿ë Á¦¾à»çµé
 

Our Large Clients Include:

SMT Does Business with
 
 
<HEADER class=entry-header>

Selection Guide

</HEADER>
The column of choice for analytical methods development is very easy; the best column for an application is simply the column that gives the highest performance under the most favorable condition desired by the end-user. Most analytes are acidic, basic or neutral. The best initial approach is to use a mid-range pH, such as pH 7. The standard SMT OD C18 and O C8 columns are the best choice for use at this pH because they provide superior column lifetime, extremely high selectivity and resolution. Acetonitrile or methanol and water are normally the first choice for mobile phase. Another option is combination of organic solvent with phosphate buffer (with buffer range pH 6.2-8.2) or acetate buffer (with buffer range pH 3.8-5.8). Method development optimization can continue from here by changing several factors, including mobile phase, pH, column temperature (up to 95¡ÆC). SMT OD C18 is uniquely stable at high temperatures, a characteristic that can be used as an additional tool to improve resolution of thermally stable compounds or analytes.
When chromatographic separation is done in a normal phase mode, the surface chemistry of the stationary phase has a polar characteristic. The mobile phase is generally nonpolar organic solvent (such as hexane or heptane). Because of the limited flexibility in variation of the mobile phase polarity and functional stationary phase, separation in normal phase mode has not grown as much as reversed-phase mode. However, continuous advancement in surface modification has rejuvenated interest in normal phase chromatography. Furthermore, there are some separations that are achieved more conveniently using normal mode. Silica, alumina, polymers, and a few other metal oxides are the most commonly used substrates for normal phase separation. The important features include high surface area, availability in high purity, and homogeneous functional groups. Generally, SMT normal phase columns consist of silica as the substrate. SMT also offers a series of specialty packing materials for various applications including alumina and magnesia-silica.
In this mode of chromatography, the separation depends upon the exchange of ions between the mobile phase and the ionic sites of the packing (cationic or anionic). The stationary phase matrix has a functional group with a fixed ionic charge covalently attached to it . An exchangeable counter ion from the mobile phase buffer preserves charge neutrality. The mobile phase usually contains a large number of counter ions opposite in charge to the surface ionic group. Separation Methods Technologies, Inc. has developed new series of ion-exchange packing materials with its novel SAM technology. These packings are offered for all stages of separation science from analytical scale levels to process scale purification levels. Analytical columns are usually available in 5 and 10 micron particle sizes. Bulk packings are offered in larger particle sizes like 20, 40, and 60 microns. These packing are not only suitable for low pressure column chromatography but also perfect for solid phase extractions.
SMTgel¢â (silica-based) columns are specialty SMT columns designed for specific applications including gel permeation (GPC), ion exchange, reversed phase, hydrophobic interaction, hydrophilic interaction, and affinity chromatography. SMTgel¢â columns are packed with chemically modified silica particles with functional molecules for specific applications and pore sizes to accommodate wide range of analyte molecular weights. The packing materials feature modified surface chemistry designed to minimize sample adsorption on the silica substrate. All popular biomolecule separation modes are covered by SMTgel¢â (silica-based) columns. Because SMTgel¢â columns are silica-based, they must be operated within the recommended pH range of 2.0-9.0. Detailed operating conditions are described in the information accompanying the columns. We recommend protecting these columns with the appropriate SMTgel¢â guard column.



 
 
<HEADER class=entry-header>

Equivalent Columns

</HEADER>


Our Separation Methods Technologies, Inc. recommended equivalent columns will most likely give a similar selectivity. In some cases the recommended equivalent columns may give slightly different selectivity, and may lead to improved and more reliable separation.


Reversed-Phase Columns

SMT C18 Columns Equivalent Columns SMT C8 Columns Equivalent Columns

SMT OD C18

Luna¢ç C18
YMC-Pack ODS-AM
Symmetry¢ç C18
Kromasil¢ç C18
LiChrosorb¢ç RP-18
NUCLEODUR¢ç C18
NUCLEOSIL¢ç C18
Inertsil¢ç ODS-2 C18
Acclaim¢â C18

SMT O C8

Luna¢ç C8
Symmetry¢ç C8
Acclaim¢â C8
Kromasil¢ç C8
LiChrosorb¢ç RP-8
NUCLEODUR¢ç C8
NUCLEOSIL¢ç C8
Inertsil¢ç C8-2
Sunfire¢ç C8

SMT Elite-C18

Pursuit¢ç XRs C18
YMC-Pack ODS-AM
Xterra¢ç C18
Hyperbond¢ç C18
NUCLEOSIL¢ç C18
InertSustain¢ç C18
Sunfire¢ç C18
Zorbax C18

SMT Elite-C8

YMC-Pack Pro C8
NUCLEOSIL¢ç C8
YMC-Pack C8
Xterra¢ç C8
IB-SIL C8
Zorbax C8
Inertsil¢ç C8-3

SMT ODL C18

Jupiter¢ç C18
Vydac¢çC18
µBondapak¢ç C18
Synchropac¢ç C18
LiChrospher¢ç RP18
Hypersil¢â GOLD C18
Spherisorb¢ç ODS1
Inertsil¢ç ODS-4 C18
Inertsil¢ç ODS-SP C18
Spherisorb¢ç ODS2

SMT OL C8

LiChrospher¢ç RP8
YMC-Pack C8
Xterra¢ç C8
NUCLEODUR¢ç C8

NUCLEOSIL¢ç C8
Spherisorb¢ç C8
Hypersil¢â C8
Inertsil¢ç C8-4

SMT ODLne

Zorbax SB C18


 

SMT Symplex C18

Inertsil¢ç ODS-3 C18

SMT AquSep1

Aqua C18
Ultra Aqueous-C18
YMC-Pack ODS-AQ
AQUA C18
Zorbax SB-Aq
Syncronis¢â aQ C18

SMT AquSep2

SUPELCOSIL¢â ABZ+Plus
ZORBAX Bonus-RP
Discovery RP-Amide

SMT C1, C2, C3, C4 Columns Equivalent Columns SMT Phenyl Columns Equivalent Columns

SMT MEB1 C1

Kromasil¢ç C1
Ultra C1

SMT Phen1

Luna¢ç Phenyl
NUCLEOSIL¢ç Phenyl
Acclaim ¢ç Phenyl-1
Spherisorb¢ç Phenyl
BetaBasic Phenyl

SMT MEB2 C2

Maxsil¢â C2
NUCLEOSIL¢ç C2
Zorbax¢ç SB C2

SMT Phen2

Cosmosil¢ç ¥ðNAP (piNAP)

SMT Pro C3

Zorbax¢ç SB C3


 


 


 

SMT MEB4 C4

Hypersil¢â GOLD C4
NUCLEOSIL¢ç C4
Ultra C4

SMT Hexyl Columns

Equivalent Columns SMT Phenyl-Hexyl Columns Equivalent Columns

SMT Hex

Spherisorb¢ç C6
Spherex¢ç C6

SMT PhenH

Accucore¢â Phenyl-Hexyl
BetaSil Phenyl/Hexyl

SMT C30 Columns Equivalent Columns


 

SMT TA C30

Acclaim¢â C30
Accucore¢â C30
Carotenoid C30
Develosil¢ç C30
YMC30

Normal Phase Columns

SMT NH2 Columns Equivalent Columns SMT CN-Columns Equivalent Columns

SMT AP NH2

Luna¢ç NH2
Kromasil¢ç NH2
NUCLEOSIL¢ç NH2
Spherisorb¢ç NH2
YMC-Pack-NH2

SMT CP CN

Luna¢ç CN
Zorbax¢ç SB CN
Ultra Cyano
Spherisorb¢ç CN
NUCLEODUR¢ç CN

SMT Silica Columns Equivalent Columns SMT Diol Columns Equivalent Columns

SMT S Silica

Kromasil¢ç Si
Spherisorb¢ç Si
Luna¢ç Silica
NUCLEOSIL¢ç Si

SMT Diol1

Lichrosorb¢ç Diol
Spherex¢ç Diol

SMT Diol2

YMC-Pack Diol
NUCLEOSIL¢ç Diol

Ion-Exchange Columns

SMT SAX Columns Equivalent Columns SMT SCX Columns Equivalent Columns

SMT SAX

Hypersil¢â SAX
Vydac¢ç SAX
Spherisorb¢ç SAX
PureGel¢ç SAX

SMT SCX

Vydac¢ç SCX

PureGel¢ç SCX

Spherisorb¢ç SCX

Capcell Pak SCX

SMT WAX Columns Equivalent Columns SMT WCX Columns Equivalent Columns

SMT WAX

Vydac¢ç WAX
Acclaim¢â WAX

SMT WCX

PartiSphere¢ç WCX

Gammabond¢ç WCX

SMT DEAE Columns Equivalent Columns


 

SMT DEAE

BioSep¢ç DEAE
Shodex IEC¢ç DEAE
TSKgel¢ç DEAE

Specialty and Other Columns

SMT PAH Columns Equivalent Columns SMT C6F5 Columns Equivalent Columns

SMT PAH1

EnviroSep PAH

LiChrospher¢ç PAH
Pinnacle II PAH
SUPELCOSIL¢â LC-PAH
Vydac¢ç PAH

SMT C6F5 PFP

Accucore¢â PFP

Curosil¢ç PFP

Luna¢ç PFP
Hypersil¢â GOLD PFP

SUPELCOSIL¢â LC-F

SMT Urea Columns Equivalent Columns SMTgel Columns Equivalent Columns

SMT Urea

Accucore¢â Urea HILIC

SMTgel SEC/GPC

TSKgel¢ç

Protein KW

Superdex

SMT Chiral columns Equivalent Columns SMT CIB Columns Equivalent Columns

SMT ChiralSep1

Lux¢ç Cellulose-1
Lux¢ç Cellulose-2
Chirex¢ç
CHIRALCEL¢ç OD, OD-H
CHIRALPAK¢ç IB

SMT CIB Protein A

MAbPac Protein A
POROS¢ç Protein A

SMT ChiralSep2

Lux¢ç Amylose-1
Lux¢ç Amylose-2
CHIRALCEL¢ç AD, AD-H
CHIRALPAK¢ç IA

SMT CIB IgG

POROS¢ç CaptureSelect¢ç IgG

SMT CIB-Ovo Ovomucoid

Ultron ES-OVM

SMT Chiral AGP columns Equivalent Columns


 

SMT ChiralSepAGP AGP

CHIRALPAK¢ç AGP


All product names and brands are property of their respective owners. All company, product and service names used in this website are for identification purposes only.
÷ºÎÆÄÀÏ
SMT-Catalog.pdf
Á¶È¸¼ö 2564






ÁÖ¼Ò : ¼­¿ïƯº°½Ã °­³²±¸ ºÀÀº»ç·Î 129, 704È£ (³íÇöµ¿,°ÅÆòŸ¿î) ¦¢ »óÈ£ : º£³ÊÅ×Å©³î·ÎÁö(ÁÖ)
ÀüÈ­ : 02) 517-9125, 02)517-9120 ¦¢ Æѽº : 02) 3444-9125 ¦¢ CP : 010-4466-3284
(#625,Geopyeong Town) 129,Bongeunsa-ro, Gngnam-gu,Seoul,Korea(06121) ¦¢ Tel: +82-2-517-9125 ¦¢ Fax: +82-2-3444-9125
Copyright ¨Ï Bene Technology Co.,Ltd. All Rights Reserved.