Determining Effective Sulfur in Soil by ICP-AES
Determination of Trace Elements in Rex Rabbit by ICP-AES
Determination of gold in ore with ICP-AES method
ICP-AES Determination of Microamount of Phosphorus in Ferromanganese
The principle of ICP-AES emission spectral analysis and ICP-AES method to measure liquid SO3 in extracted slurry for WPA production is described.
Simultaneous ICP-AES Determination of Iron Manganese Copper Zinc in Tremella with Microwave Assisted Sample Digestion
Determination of Aluminum,Phosphorus,Silicon in Aluminum-ferromanganese Alloy by ICP-AES
Detection Method of Heavy Metals in Tea Soup by ICP-AES
Determination of Bi,Sb and S in Crude Arsenic by ICP-AES
Determination of inorganic elements in tobacco leaves by microwave digestion-ICP-AES
試述了測定潤滑油中微量雜質元素的ICP-AES法(包括有機進樣ICP-AES法)及其樣品前處理方法。
本工作採用ICP-AES法分析黨蔘標樣中的微量元素。
Determination of Trace Elements in Hair of Panthera Tigris Amoyensis by Microwave Digestion-Axially Viewed ICP-AES
Conclusion The shadiness poison trace elements in the liver, spleen and kidney could be detected by ICP-AES.
ICP-AES Determination of Cu~(2+),Pb~(2+) and Cd~(2+) with Adsorption Behavior of Potassium Hexatitanate Whisker
DETERMINATION OF Ca Sr Al Eu Dy AND Nd IN NEW PHOTOLUMINESCENCE MATERIALS BY ICP-AES WITH GLOW OF LONGER RESIDENCE
本文建立了利用端視ICP-AES技術測定水中有機碳的方法。
After extraction separation of gold by MIBK, lead, copper, iron, nickel in gold plating bath were determined by inductively coupled plasma-atomic emission spectrometry (ICP-AES).
Contents of amino acids, inorganic elements, proteins, fats, moisture and ash from Smallanthus sonchifolius were determined by amino acid analyzer, ICP-AES and classical chemical methods.
隨着ICP-AES的廣泛應用,傳統的側視ICP已不能夠滿足痕量元素的分析需要。
The method of ICP-AES for simultaneous determination of Platinum and Palladium content in copper anode mud with lead fire assaying pre-concentration has been established.
採用ICP-AES法測定氧化釓中稀土雜質,考察了基體濃度、*度對被測元素的影響。
Cadmium, chromium and lead in the root, branch, leaf, peel and fruit of navel orange from South Jiangxi Province were determined by ICP-AES, after the microwave digestion of the samples.
目的探討電感耦合等離子體原子發*光譜法(ICP-AES)同時測定茯苓中多種微量元素的方法。
方法採用原子吸收分光光度法(AAS),電感耦合等離子體原子發*光譜法(ICP-AES)分別測定銅含量。
微波消解溶樣,ICP-AES法測定了枸櫞*鉍製劑中鉍元素的含量及其在人工胃液和人工腸液中的溶出量。
採用微波消解法處理樣品,用電感耦合等離子體原子發*光譜(ICP-AES)測定了幾種不同級別的副品對苯二**(PTA)的金屬含量。
