Jump to content Jump to navigation menu
We use cookies to ensure that we are offering you the best user experience on our website. By continuing, you confirm that you accept our policy statement.
7380_SF

Tris[(1-benzyl-1H-1,2,3-triazol-4-yl)methyl]amine (TBTA), 100 mg
≥95 %, ROTI®Click Grade
Write review
Icon_Eisstern All products identified as being particularly temperaturesensitive are shipped in special ice boxes with freezer packs or in dry ice.
Related products
Pack Qty.
Pack.
TBTA
Empirical formula C30H30N10
Molar mass (M) 530,63 g/mol
Melting point (mp) 147 °C
Storage temp. –20 °C
Transport temp. cooled
WGK 3
CAS No. [510758-28-8]

Ligand for Click Chemistry

Type analysis

€139.50/Pack Qty. 

excl. VAT. | 100 mg per Pack Qty.

Art. No. 7814.4

In stock
Free of shipping costs from 125 €
24 hour direct shipment
from 6 Pack Qty. €132.52/Pack Qty.
from 24 Pack Qty. €125.55/Pack Qty.
Carl Roth subscription service

Now recurring orders conveniently delivered as a subscription!

With the new Carl Roth Replenishment Service you can let products be ordered automatically which you need regularly in your lab!

How it works:
1

Put all products for your subscription in the desired quantity in the basket.

2

In the shopping cart, select the option "Order shopping cart as subscription" Order as subscription.

3

Set Starty point and interval for your subscription and submit order!

By the way: Through your account you can customize or delete your subscriptions anytime.

Personal technical advice on this product
Dr Belenki
Dr Belenki
+49 721 5606 - 1096
Tris[(1-benzyl-1H-1,2,3-triazol-4-yl)methyl]amine (TBTA)
Selected quantity:   0
  1. Subtotal:  0.00
Order No. Pack Qty. Pack. Price Quantity
7814.1 5 mg plastic €33.90
7814.2 10 mg plastic €48.50
7814.3 50 mg plastic €83.50
7814.4 100 mg plastic €139.50
In stock
Available at short notice
Not available
Delivery date currently unknown
Selected quantity:   0
  1. Subtotal:  0.00

Downloads

Specification / German
Specification / English
Specification / French
Security datasheet
Bulgaria / Bulgarian
Security datasheet
Czech Republic / Czech
Security datasheet
Denmark / Danish
Security datasheet
Austria / German
Security datasheet
Belgium / German
Security datasheet
Switzerland / German
Security datasheet
Germany / German
Security datasheet
Cyprus / Greek
Security datasheet
Greece / Greek
Security datasheet
Australia / English
Security datasheet
United Kingdom / English
Security datasheet
Ireland / English
Security datasheet
Japan / English
Security datasheet
Malta / English
Security datasheet
Spain / Spanish
Security datasheet
Mexico / Spanish
Security datasheet
Estonia / Estonian
Security datasheet
Finland / Finnish
Security datasheet
Belgium / French
Security datasheet
Switzerland / French
Security datasheet
France / French
Security datasheet
Luxembourg / French
Security datasheet
Croatia / Croatian
Security datasheet
Hungary / Hungarian
Security datasheet
Indonesia / Indonesian 2
Security datasheet
Switzerland / Italian
Security datasheet
Italy / Italian
Security datasheet
Japan / Japanese
Security datasheet
Korea, Republic of / Corean
Security datasheet
Lithuania / Lithuanian
Security datasheet
Latvia / Latvian
Security datasheet
Malaysia / Malay
Security datasheet
Belgium / Dutch
Security datasheet
Netherlands / Dutch
Security datasheet
Norway / Norwegian
Security datasheet
Poland / Polish
Security datasheet
Brazil / Portuguese
Security datasheet
Portugal / Portuguese
Security datasheet
Romania / Romanian
Security datasheet
Russian Federation / Russian
Security datasheet
Slovakia / Slovak
Security datasheet
Slovenia / Slovenian
Security datasheet
Sweden / Swedish
Security datasheet
Thailand / Thai
Security datasheet
Turkey / Turkish
Security datasheet
China / Chinese
Security datasheet
Taiwan / Chinese

General information

Click Chemistry

The copper(I)-catalysed azide-alkyne cycloaddition (CuAAC) is the most prominent example of a group of reactions named click reactions. According to Sharpless’ definition, these reactions are characterised by high yields, mild reaction conditions, and by their tolerance of a broad range of functional groups.[1-3] Typically, the reactions require simple or no workup or purification of the product. The most important characteristic of the CuAAC reaction is its unique bioorthogonality as neither azide nor terminal alkyne functional groups are generally present in natural systems.


References:
1 H. C. Kolb, M.G. Finn, K. B. Sharpless, Angew. Chem. Int. Ed. 2001, 40, 2004-2021.
2 C.W. Tornoe, C. Christensen, M. Meldal, J. Org. Chem. 2002, 67, 3057-3064.
3 V. V. Rostovtsev, L. G. Green, V. V. Fokin, K. B. Sharpless, Angew. Chem. 2002, 114, 2708-2711; Angew. Chem. Int. Ed. 2002, 41, 2596-2599.


Tip:

TBTA (Art.No. 7814) is suitable as copper-stabilising ligand for reactions in organic solvents. THPTA (Art.No. 7822) on the other hand is an optimal ligand for reactions in aqueous media.


Reagents for Click Chemistry

Starting from diverse copper catalyst sources, over Cu(I) stabilising ligands to buffer additives and solvents, you will find all necessary reagents in the special ROTI®Click quality to perform your click reactions here.


Certificates of Analysis

You can search for and download your certificate of analysis for the selected product here. Please provide your batch number.
The following analysis certificates have been found:

Type analysis

Appearancewhite to tan powder  
Assay (HPLC)≥95 %  
Alkyne- and Azide-freecomplies  

0 Reviews

0.0 out of five stars
Share item
Write review