| CBS 103 | HPTLC determination of illegal dyes in chili, paprika, curry |
| Analysis of water -soluble food dyes |
| Screening of unknown plant extracts by planar chromatography |
| Determination of unauthorised fat-soluble azo dyes in spices by HPTLC |
| CBS 102 | The new TLC-MS Interface |
| Screening for bioactive natural products in sponges |
| HPTLC determination of ginkgolides A, B, and C and bilobalide in Ginkgo biloba |
| HPTLC identification of Hoodia gordonii a popular ingredient of b otanical slimming products |
| CBS 101 | Identification and quantification of amino acids in peptides |
| Use of reversed phase (RP)-modified pre-coated plates |
| Fast identification of unknown impurities by HPTLC/MS |
| Use of HPTLC as a problem solving technique in pharmaceutical analysis |
| Validation of HPTLC methods for the identification of botanicals |
| CBS 100 | Automated HPTLC/ESI-MS coupling |
| Bio-activity based analysis of irradiated sunscreens using HPTLC and in situ detection with Vibrio fischeri |
| Product control: Bromination and oxidation of the alkaloid deoxypeganine |
| Controlling best the drying step |
| Quantification of β-ecdysone in a brasilian ginseng juice (Pfaffia glomerata) |
| CBS 99 | A general detection technique for HPTLC based on changes in fluorescence |
| Bioluminex™: An effective yet simple tool for screening mixtures |
| Determination of acrylamide in drinking water |
| American Herbal Pharmacopoeia: HPTLC Analysis of Botanical ingredients |
| Quantitative HPTLC analysis of artemisinin in dried leafs of Artemisia annua |
| Sildenafil determination in pharmaceutical products and aphrodisiac herbal preparations |
| Planar chromatography – indispensable when checking the quality of botanical preparations |
| CBS 98 | Determination of amino-propanol in dermatological products |
| Stability testing of gatifloxacin and analysis in polymeric nanoparticels |
| Chlorine-free mobile phase for determination of PAH in water extracts |
| Evidence of the metabolites desphenyl-chloridazon and methyl-chloridazon in surface, ground and drinking water |
| CBS 97 | Assessing the Authenticitiy of Absinthe |
| Methods for the Identification of Green Tea |
| Strcutural Characterization of Gangliosides |
| Validated Analysis of Bbiomarker Trigonelline |
| CBS 96 | Determinationof Amitrol in water |
| First exposure to Planar Chromatography |
| Determination of glibencamide adulteration in herbal drugs |
| Quantification of ITX in food |
| Monitoring of oxytetracycline dose in medicated salmon feed |
| CBS 95 | Determination of histamine and other biogenic amines in fish by Planar Chromatography |
| Ultra trace analysis of glyphosate and AMPA in water with HPTLC |
| In situ derivatization of glyphosate and AMPA |
| Quality and reproducibility of chamber saturation with the new Automatic Developing Chamber ADC 2 |
| Quantitation of in vitro lipolysis products with AMD |
| CBS 94 | Luminographic detection of toxicity with Vibrio fischeri (luminescent bacteria) |
| Hyphenated HPTLC-MS as rapid method for elucidation of synthesis mixtures |
| Amino phases for derivatization of sucralose in milk-based confection |
| Immunoassay detection of gangliosides by specific antibodies |
| CBS 93 | Quantification of signaling ceramides in primary keratinocytes |
| Purity check and validation of metoclopramide |
| Determination of progesterone in drug release media |
| New HPTLC-MS method for determination of heterocyclic aromatic amines |
| CBS 92 | Success Story: CUT of cinchocaine hydrochloride |
| Does the use of spherical adsorbents for HPTLC pay off |
| Quality control of Stephania tetrandra |
| Conversion of a gradient from an AMD(1) to an AMD2 system |
| CBS 91 | Improved determination of benzodiazepines by AMD |
| HPTLC identification of true saffron |
| Rapid analysis of vinca alcaloids in infusion bags |
| Analysis of flavone glycosides from Hawthorn and Passion flower |
| Stability tests of Vitex agnus castus (Chaste tree) extracts |
| CBS 90 | What's new with the Club de Chromatographie sur Couche Mince (CCCM) |
| Effective analysis of phospho- and glycolipids in plant lecitins |
| Rapid analysis of indole alkaloids in tissue cultures |
| Improved analysis of skin lipids by AMD |
| Selective determination of taurine and L-lysine hydrochloride in energy drinks and multi vitamin syrup by HPTLC |
| Monitoring of pro-insecticides (oxazolines) in biological samples by HPTLC |
| Determination of antibiotics in waste water after biological treatment by HPTLC |
| CBS 89 | Cleaning validation by HPTLC: determination of norfloxacin as residue on pharmaceutical equipment surfaces |
| Analysis of constituents of devil's claw and determination of their bioactivity by HPTLC |
| Validated procedure for determination of Monesin-Na in animal feed |
| Comparison of HPLC-ELSD and modern Planar Chromatography in today's quality control of phospholipids |
| Testing of feed mixers by HPTLC |
| CBS 88 | Bioluminescence detection with planar chromatography |
| Identification of water soluble food colors by HPTLC |
| HPTLC investigations on St. John's Wort (hypericin) |
| Characterization of tannins from rhubarb by TLC/HPTLC |
| CBS 87 | Determination of antioxidant potency by HPTLC |
| Separation of calystegines and their biosynthetic precursors with AMD |
| HPTLC for determination of mycotoxins |
| Quality control of herbal medicines by HPTLC in Korea |
| Pharmacological and pharmaco-dynamic testing of veterinary drugs by HPTLC |
| CBS 86 | HPTLC Applied to post-production quality assurance of cytotoxic infusion solutions |
| Application of the above to Platinum infusion solutions |
| Qualitative and quantitative analysis of impurities in Mamasa using HPTLC |
| Does the Pharmacopoeia support modern planar chromatography? Analysis of oxazepam |
| HPTLC and Video-technology for stability tests of plant extracts |
| Screening of Vitex agnus castus extracts |
