TLC Plates Aluminium Backed Silica Gel 60 F254 2.5 x 7.5cm (80/Box)
$
49.74
Score By Feature
Based on 8 ratings
Delivery
9.55
Value for money
9.55
Satisfaction
9.22
Giftable
9.12
OveReview Final Score
How Our Score Is Calculated
Product Description
A gel of silica gel GF254, which contains both calcined gypsum and fluorescent dye. An ultraviolet light with a wavelength of 254 can be used to observe fluorescence through the device, which has a diameter of 60 *. A pair of scissors can easily be used to cut the aluminum back open.
It is convenient to analyze series with these spots because they are small. A group can be separated in less than a minute, and more than five groups can be separated at once.
These spots are clear, and they haven't spread or trailed. This separation machine has a large A thin layer scan can be analyzed quantitatively with this instrument.
The classic TLC silica plates were packaged in a box and shipped by Amazon Storehouse following a thorough inspection. I am looking forward to receiving the product soon.
Selected User Reviews For TLC Plates Aluminium Backed Silica Gel 60 F254 2.5 x 7.5cm (80/Box)
This would be a great intro for TLC
5/5
I love it! My students enjoyed being introduced to the concept of TLC through TLC plates. Because they are already sized and cut into thin strips, the image is a bit misleading, however, they suited the purposes I required.
Simon Gibson
| May 19, 2021
This is excellent
5/5
I highly recommend this product.
Robert Roy
| Feb 21, 2021
That's what they do
4/5
You shouldn't assume that they'll have a huge resolving ability because they are short TLC plates. The thing is, for the price, they serve as a cheap, easy demonstration of TLC principles in a laboratory.
Bryson Patrick
| May 29, 2021
There is no such thing as a bad day! I expect it to work
5/5
Mikaela Chung
| Feb 27, 2021
This is a quality product
5/5
This TLC plate works well, I would recommend this over the glass version, especially for a small lab. There is much more ease of use with them. Thanks a lot!.
Ashley Parrish
| Dec 08, 2020