thermal desorption spec-troscopy (TDS)
3.Several Key Technical Problems in Quantitative Analysis by Raman Spec-troscopy
4.The ethylene(C 2H 4)adsorbed on Ru(0001)surface has been studied by using thermal desorption spectroscopy(TDS).
5.Monitoring Analysis of TDI in Air with the Adsorption Concentration/Thermal Desorption/Gas Chromatography
6.The thin alumina film-supported metallic molybdenum model catalyst was prepared by thermal decomposition of Mo(CO)_6, and CO chemisorption on the catalyst was investigated in-situ by thermal desorption spectroscopy (TDS) and X-ray photoelectron spectroscopy (XPS).
7.Study on the Enrichment Method by a One-step Thermal Desorption and Sample Direct Injection Technique for Analysis of Volatile Organic Compounds in Room Air
8.Economical and practicable all-wet processes have been developed to fabricate virtually pin- hole-free Pt and Ru nanofilms for attenuate-total-reflection (ATR) surface-enhanced IR absorption spec- troscopy (SEIRAS).
9.The ethylene (C-2H-4) adsorbed on Ru(1010) surface has been studied by X|ray photoelectron spectroscopy (XPS),thermal desorption spectroscopy (TDS) and ultraviolet photoelectron spectroscopy (UPS). The results show that ethylene absorbs in molecular state on Ru(1010) surface stably below 200? K.
10.Thermal desorption behavior of NO over CeO 2 has been investigated by means of MS. The TPD profile suggests that two NO adsorption states may exist over CeO 2 surface. The NO adsorption species undergoes extensive decomposition to form N 2, N 2O and O 2. The desorption peak at lower temperature was assigned to desorption of species (C).
