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. Planar Chromatogr. 8, 388 - 392 (1995). HPTLC of MDA.HCl, MDMA.HCl, MDE.HCl, BDB.HCl, MBDB.HCl, LSD, and atropine on silica with dichloromethane - methanol 200:3 in the presence of NH3 in a separate 10 mL glass vessel for LSD, ethyl acetate - acetone - methanol - 25% NH3 50:50:20:1 for MBDB, acetone - ethanol - 25% NH3 90:7:3 for atropine. Identification by in situ FTIR measurement.
J. Zhejiang Univ. Technol. (Zhejiang Gongye Daxue Xuebao) 23, 54-58 (1995). TLC of 1-AAQ, 1,5-di AAQ, 1,8-di AAQ, 1,6-di AAQ, 1,7-di AAQ, and 2-AAQ on silica with benzene - cyclohexane - acetone - ethylene diamine 10:8:3:1. Quantification of amino-anthraquinone by spectrophotometry.
Chinese J. Pharm. Anal. (Yaowu Fenxi Zazhi) 16, 259-260 (1996). TLC on silica with benzene - ethyl acetate 20:1. Detection under 365 nm. Identification of imperatorin, isoimperatorin, ecdultin by IR, MS and NMR.
Chromatographia 46, 151-155 (1997). TLC on silica gel with hexane - ether - ethanol 30:70:3 after elution of SPE silica column/ether system. Detection by spraying with 0.2% ethanolic solution of 2,7-dichlorofluorescein iodide, as well as under UV 254 nm. Analysis by HPLC and GC/Ion Trap Detector MS (GC/TDMS).
Chinese J. Modern App. Pharm. (Zhangguo Xiandai Yingyong Yaoxue Zazhi) 16 (3), 45-47 (1999). TLC on silica gel with 1) chloroform - ethyl acetate 3:1, 2) chloroform - methanol - NH3 80:50:5:1. Detection 1) by spraying with 5% FeCl3 in ethanol, 2) under UV 365 nm. Identification by fingerprint technique. Quantitation of paeonol by 1st order derivative spectrophotometry at 262 nm and 282 nm.
J. Chinese Trad. & Herb. Drugs (Zhongcaoyao) 32 (1), 67-69 (2001). TLC on silica gel with 1) cyclohexane - acetone 5:3, 2) benzene - ethanol 4:1, 3) cyclohexane - benzene 1:1, migration distance 18 cm, 8 cm, and 18 cm, resp. Detection by spraying with aceto anhydride - sulfuric acid 1:1and heating at 110°C for 10 min. Identification by finger print technique.
CBS 94, 5-7 (2005). HPTLC of synthesis reaction products on silica gel with pentane - tert. butyl methyl ether 3:1 with chamber saturation. Detection by spraying with phosphomolybdic acid reagent (0.4g in 100 mL ethanol), followed by drying in hot air. Identification by online hyphenation with mass spectrometry. For online extraction with the ChromeXtract device the substance zones are eluted with methanol - chloroform 1:1 (flow rate 0.1mL/min). The outlet capillary is connected directly to the electrospray mass spectrometer (ESI-MS). Measurement in 2 s cycles in a mass range from m/z 100-600.
J. Liq. Chromatogr. Relat. Technol. 28, 1203-1213 (2005). The (HP)TLC-FTIR coupled method has been widely used for qualitative and quantitative analysis. The potential of this method is demonstrated by its application in various fields of analysis, such as drug analysis, forensic analysis, food analysis, environmental analysis, biological analysis etc. In recent years, much effort has been devoted to the coupling of TLC and HPTLC with spectrometric methods because of the robustness and simplicity of use of (HP)TLC and the need for detection techniques that provide identification and determination of sample constituents. IR as one of the spectroscopic methods that have been coupled with (HP)TLC has a high potential for the elucidation of molecular structures. The review contains introduction, principles, instrumentation and data presentation, qualitative analysis, quantitative analysis, and conclusions.