01.

Product Description

02.

Product Specifications

03.

Analysis Data

Precise, Stable and High Reproducible
HPLC Columns INNO Series

Chemical structure of a silicone-based filler used in INNO HPLC columns, showing Si–O backbone and organic side chains for enhanced chromatographic performance

Introduction

To reduce the impact of metal impurities present in silica gel, YJ Biochrom has re-purified high-purity silica gel for chromatography using its developed technology.

Functional groups have been directly bonded to the silanol groups of the silica gel to synthesize the filler. (-Si-O-Si-R)

Depending on the application, there are fillers that have been end-capped and those that have not.
Fillers for prep columns are also available (20 µm and 50 µm are available).

INNO HPLC Column Series

	USP Class No.	Particle Size(um)	Pore Size(Ằ)	Surface Area(m2/g)	C(%)	Usable pH range	End Capping
INNO Column C18	L1	3, 3.5, 5, 10	120	320	18	2.0~8.0	O
INNO Column C18-HC	L1	5	100	430	20	2.0~8.0	O
INNO Column C18-SB	L1	3.5	120	320	17	1.0~11.0	O
INNO Column C18-SSB	L1	5	120	320	18	1.0~11.0	O
INNO Column C18-SBA	L1	3, 5	120	320	16	1.0~11.0	O
INNO Column C18-NE	L1	3, 5	120	320	17	2.0~7.5	X
INNO Column C8	L7	5	120	320	12	2.0~8.0	O
INNO Column C8-SB	L7	5	120	320	11	1.0~11.0	O
INNO Column C8-HC	L7	5	100	430	12	2.0~8.0	O
INNO Column C8-NE	L7	5	120	320	11	2.0~7.5	X
INNO Column C4	L26	5	120	320	8	2.0~8.0	O
INNO Column C1	L13	5	120	320	3	2.0~8.0	X
INNO Column Silica	L3	3, 5, 10	100, 120	320	-	2.0~8.0	X
INNO Column Diol	L20	5	120	320	-	2.0~8.0	X
INNO Column NH2	L8	3, 5, 10	120	320	6	2.0~8.0	X
INNO Column SCX	L9	5	120	320	6	2.0~8.0	O
INNO Column SCX-L	L9	5	100	320	5	2.0~8.0	O
INNO Column CN	L10	5, 10	120	320	8	2.0~8.0	O
INNO Column Phenyl	L11	5	120	320	11	2.0~8.0	O
INNO Column SAX	L14	5	120	320	5	2.0~8.0	O

INNO-P Column Series

	USP Class No.	Particle Size(um)	Pore Size(Ằ)	Surface Area(m2/g)	C(%)	Usable pH range	End Capping
INNO-P Column C18	L1	5	300	110	8	1.0~9.0	O
INNO-P Column C8	L7	5	300	110	5	1.0~9.0	O
INNO-P Column C4	L26	5	300	110	3	1.0~9.0	O

INNO-Mixed Column Series

	USP Class No.	Particle Size(um)	Pore Size(Ằ)	Surface Area(m2/g)	C(%)	Usable pH range	End Capping
INNO Column C18/SCX (1/1)	L##	5	120	320	12	2.0~8.0	O
NNO Column C18/SCX (5/1)	L##	5	120	320	15	2.0~8.0	O
INNO Column C18/SAX (1/1)	L##	5	120	320	13	2.0~8.0	O
INNO Column C18/SAX (5/1)	L##	5	120	320	16	2.0~8.0	O

INNO Column C18

· This HPLC column has high hydrophobicity, which enhances the retention characteristics of hydrophobic substances and provides excellent separation.

· It is a column that has undergone three end-capping treatments at high temperatures after the introduction of the C18 group. (USP L1)

INNO Column C18-HC

· HC stands for High Carbon.

· It is a column with a carbon loading rate of 20%, which exhibits strong retention of hydrophobic substances.

· This HPLC column provides excellent separation of hydrophobic substances. (USP L1)

INNO Column C18-SB

· SB stands for Strong Base / Strong for Basic mobile phase.

· This HPLC column protects the silica gel surface with a multi-layer, providing excellent alkaline and acid resistance. (USP L1)

INNO Column C18-SSB

· This HPLC column further enhances alkaline resistance. (USP L1)

INNO Column C18-SBA

· This is the INNO HPLC Column C18-SB, which has been treated with strong acid for 6 days. It is a column with strong acid resistance. (USP L1)

INNO Column C18-NE

· NE stands for No Endcapping, indicating a column that has not undergone end-capping treatment after the C18 reaction.

· This HPLC column retains silanol groups, making it effective for the separation of polar substances. (USP L1)

INNO Column C8

· INNO C8 HPLC column exhibits greater retention characteristics and excellent separation compared to Aegispak C8.

· It is a column that has undergone three end-capping treatments at high temperatures after the introduction of the C8 group. (USP L7)

INNO Column C8-SB

· SB stands for Strong Base / Strong for Basic mobile phase.

· This HPLC column protects the silica gel surface with a multi-layer, providing excellent alkaline and acid resistance. (USP L7)

INNO Column C8-HC

· HC stands for High Carbon.

· It is a column with a carbon loading rate of 13%, which exhibits strong retention of hydrophobic substances.

· This HPLC column provides excellent separation of hydrophobic substances. (USP L7)

INNO Column C8-NE

· NE stands for No Endcapping, indicating a column that has not undergone end-capping treatment after the C8 reaction.

· INNO HPLC Column C8-NE retains silanol groups, making it effective for the separation of polar substances. (USP L7)

INNO Column C4

· This is a HPLC column that has been treated with butyl groups and undergone three end-capping treatments at high temperatures. (USP L26)

INNO Column Silica

· This is a HPLC column filled with ultra-high-purity silica gel that has been re-purified from high-purity silica gel. (USP L3)

INNO Column Diol

· This is a HPLC column that has been treated with glycidoxypropyl groups and undergone a ring-opening reaction. (USP L20)

INNO Column NH2

· This is a HPLC column that has been treated with aminopropyl groups. (USP L8)

INNO Column SCX

· This is a HPLC column that has been treated with sulfonic acid after the introduction of allylglycidyl ether. (USP L9)

INNO Column CN

· This is a HPLC column that has been treated with cyanopropyl groups and undergone end-capping. (USP L10)

INNO Column Phenyl

· This is a HPLC column that has been treated with phenylethyl groups and undergone end-capping. (USP L11)

INNO Column SAX

· This is a HPLC column that has been treated with strong basic quaternary ammonium anion exchange functional groups. (USP L14)

INNO-P Column C18

· This is a C18 column synthesized using silica gel with a pore size of 300 Å.

· It is suitable for the analysis of peptides and proteins. (USP L1)

INNO-P Column C8

· This is a C8 column synthesized using silica gel with a pore size of 300 Å.

· It is suitable for the analysis of peptides and proteins. (USP L7)

INNO-P Column C4

· This is a C4 column synthesized using silica gel with a pore size of 300 Å.

· It is suitable for the analysis of peptides and proteins. (USP L26)

INNO Column C18/SCX (1/1)

· This is a column with a 1:1 ratio of C18 and SCX functional groups.

· It helps with the retention of polar compounds. (USP L##)

INNO Column C18/SCX (5/1)

· This is a column with a 5:1 ratio of C18 and SCX functional groups.

· It is suitable for the simultaneous analysis of polar compounds with amine functional groups and non-polar compounds. (USP L##)

INNO Column C18/SAX (1/1)

· This is a column with a 1:1 ratio of C18 and SAX functional groups.

· It helps with the retention of polar compounds. (USP L##)

INNO Column C18/SAX (5/1)

· This is a column with a 5:1 ratio of C18 and SAX functional groups.

· It is suitable for the simultaneous analysis of polar compounds with carboxylic acid functional groups and non-polar compounds. (USP L##)

(HPLC Condition)
Column	C18, 5um 4.6 × 150mm
Mobile Phase	60% ACN
Flow rate	1.0 mL/min
Detector	UV (254nm)
Temperature	35℃
Sample	Uracil Methyl Benzoate Toluene Naphthalene

(HPLC Condition)
Column	C18, 5um, 4.6×250mm
Mobile Phase	60% ACN
Flow rate	1.0 mL/min
Detector	UV (254 nm)
Temperature	35℃
Sample	Uracil Methyl Benzoate Toluene Naphthalene

(HPLC Condition)
Mobile Phase	Hexane / EtOH = 85/15
Flow rate	1.0 mL/min
Detector	UV (254nm)
Temperature	35℃
Sample	2-nitrotoluene Phenol Resorcinol Hydroquinone

(HPLC Condition)
Mobile Phase	Hexane / EtOH = 98/2
Flow rate	1.0 mL/min
Detector	UV (254nm)
Temperature	35℃
Sample	Toluene p-Dinitrobenzene

(HPLC Condition)
Mobile Phase	0.2M (NH4)2H2PO4 (pH 3.5)
Flow rate	1.0 mL/min
Detector	UV (254nm)
Temperature	35℃
Sample	Uracil Thymine Cytosine

(HPLC Condition)
Mobile Phase	Acetonitrile / Water = 75/25
Flow rate	1.0 mL/min
Detector	RID
Temperature	35℃
Sample	Fructose Glucose Saccharose Maltose

The INNO HPLC Column C18-SB exhibits excellent acid and base resistance.

Acidic Condition

(HPLC Condition)
Column	INNO Column C18-SB 5um 4.6×150mm
Mobile Phase	Acetonitrile / Water = 60 / 40
Flow rate	1.0 mL/min
Temperature	35℃
Detector	UV 254nm
Sample	n-Butyl benzoate

Alkaline Condition

(HPLC Condition)
Column	INNO Column C18-SB 5um 4.6×150mm
Mobile Phase	Acetonitrile / Water = 70 / 30
Flow rate	1.0 mL/min
Temperature	35℃
Detector	UV 254nm
Sample	Phenanthrene

INNO HPLC Columns exhibits excellent lot reproducibility

Classify	3um	3.5um	5um	10um (100Å)	10um (120Å)
INNO Column C18
INNO Column C18-HC
INNO Column C18-SB
INNO Column C18-SSB
INNO Column C18-SBA
INNO Column C18-NE
INNO Column C8
INNO Column C8-SB
INNO Column C8-HC
INNO Column C8-NE
INNO Column C4
INNO Column C1
INNO Column Silica
INNO Column Diol
INNO Column NH2
INNO Column SCX
INNO Column SCX-L
INNO Column CN
INNO Column Phenyl
INNO Column SAX
INNO-P Column C18
INNO-P Column C8
INNO-P Column C4
INNO Column C18/SCX(1/1)
INNO Column C18/SCX(5/1)
INNO Column C18/SAX(1/1)
INNO Column C18/SAX(5/1)

Horizontal=Inner Diameter(mm) / Vertical=Length(mm)
※ The length can be supplied as per your request within the available specifications
Classify	1.5	2.0	3.0	3.9	4.0	4.6	6.0	8.0	10	20
30
33
35
40
45
50
55
60
75
80
100
110
120
125
150
200
220
250
30

(HPLC Condition)
Column	INNO Column C18 3um 4.6×150mm
Mobile Phase	(A) Water (B) Methanol (B) 25% (0min) - 25% (15.0min) - 100% (15.1min) - 100% (20min) - 25% (20.1min) - 25% (30.0min) Gradient
Flow rate	0.8 mL/min
Temperature	35℃
Detector	UV 360nm
Sample	Vitamin B12

(HPLC Condition)
Column	INNO Column C18 3um 4.6×150mm
Mobile Phase	(A) 10mM KH2PO4 buffer (pH 3.0) / Acetonitrile = 98/2 (B) 10mM KH2PO4 buffer (pH 3.0) / Acetonitrile = 40/60
Flow rate	0.8 mL/min
Temperature	35℃
Detector	UV 220nm
Sample	Thiamine Ascorbic acid Nicotinic acid Pyridoxine Pyridoxal Nicotinamide Pantothenic acid Hydroxocobalamin Cyanocobalamin Folic acid Riboflavin Biotin

INNO

INNO HPLC Column