Cumulative CAMAG Bibliography Service CCBS
Our CCBS database includes more than 11,000 abstracts of publications. Perform your own detailed search of TLC/HPTLC literature and find relevant information.
The Cumulative CAMAG Bibliography Service CCBS contains all abstracts of CBS issues beginning with CBS 51. The database is updated after the publication of every other CBS edition. Currently the Cumulative CAMAG Bibliography Service includes more than 11'000 abstracts of publications between 1983 and today. With the online version you can perform your own detailed TLC/HPTLC literature search:
- Full text search: Enter a keyword, e.g. an author's name, a substance, a technique, a reagent or a term and see all related publications
- Browse and search by CBS classification: Select one of the 38 CBS classification categories where you want to search by a keyword
- Keyword register: select an initial character and browse associated keywords
- Search by CBS edition: Select a CBS edition and find all related publications
Registered users can create a tailor made PDF of selected articles throughout CCBS search – simply use the cart icon on the right hand of each abstract to create your individual selection of abstracts. You can export your saved items to PDF by clicking the download icon.
J. Chromatogr. 396, 399-403 (1987). TLC on silica with toluene. Detection by the yellow-orange color of the compounds. Detection limit 0.1 µg.
Chinese J. Chem. Anal. (Lihua Jianyan, Huaxue Fence) 26, 371, 372 (1990). TLC of 4-hydroxy-3-(1-tetrahydronaphthalenyl)-coumarin (a raticide) on silica with chloroform - methanol 99:1.
J. AOAC Int. 82, 25-30 (1999). Validation of video densitometric and classical slit-scanning determinations of pesticides on TLC plates for linearity, precision, and detection limit. A comparison of results showed that slit-scanning is more sensitive and more precise than video densitometry. According to validation requirements the relative standard deviation of 3.5 - 5.3% for video densitometry is, however, acceptable . Linearities are considered as very good and almost identical for both techniques. The main advantage of video technology is the speed of a few seconds compared with 20 min with scanning densitometry; it provides excellent archiving facility, and image and chromatographic data can be stored together, edited, and used for many tasks. TLC of propham, chlorpropham, tetramethrin, a-cypermethrin, diflubenzuron, atrazine on silica gel with methanol - water 4:1.
J. Agric. Food Chem. 32, 258-262 (1984). TLC of deltamethrin and metabolites (3-(2,2-dibromvinyl)-2,2-dimethyl cyclopropan carbonic acid, 3-phenoxy benzaldehyde, 3-phenoxy benzoic acid, 3-phenoxy benzylalcohol) on silica with a) chloroform - acetic acid 99:1, b) toluene - hexane 8:2. Detection by UV 254 nm.
J. Agric. Food Chem. 32, 1254-1256 (1984). Isolation of five propylphenols with chromatographic methods, i.e. TLC on silica with ether - hexane 25:75, acetone - chloroform 5:95, methanol - ethyl acetate - chloroform 1:10:89. Detection by Cladosporium TLC bioassay.
Chinese J. Chem. 4, 35-36 (1987) (Huaxue Tongbao). Use of N,N-dimethyl-a-naphthylamine-5-sulfonyl chloride as a pre-chromatography derivatizing agent for some pesticides and herbicides. Spraying with tris(2-hydroxyethyl)-amine or paraffin oil after development. Detection by fluorodensitometry at 320 nm excitation and 500 nm emission.
J. Agric. Food Chem. 39, 594-599 (1991). TLC of propargite and metabolites on silica with methanol - chloroform 3:7, detection by autoradiography. Quantification after spraying with water and elution of radioactive bands by LSC.
J. Planar Chromatogr. 6, 300-306 (1993). HPTLC of atrazine, carbofuran, chlorpyrifos, and metolachlor and several of their environmental by-products on (prewashed and preconditioned) silica with different solvent systems. Detection by immersion into a 1 mM solution of rhodamine 6G, Nile red, Merocyanine 540, 1-Pyrene-carboxaldehyde, TNS-chloride, Mansyl-chloride, NBD-chloride, or 1,6-Diphenyl-1,3,5-hexatriene, placed into the dark or exposed to short-wave and/or long-wave UV light for 1 to 24 h. Quantification by densitometry in fluorescence/absorbance modes. Determination of the optimum scanning wavelength by densitometry.