应用化学
應用化學
응용화학
CHINESE JOURNAL OF APPLIED CHEMISTRY
2009年
10期
1194-1199
,共6页
硫鎓盐%产酸剂%产酸效率
硫鎓鹽%產痠劑%產痠效率
류옹염%산산제%산산효솔
sulfonium salt%photoacid generator%acid-generation efficiency
合成了6种适用于248 nm光致抗蚀剂的硫鎓盐产酸剂,其中吩噻(噁)体系的产酸剂为自行设计合成. 利用IR、H NMR、UV等测试技术进行了结构表征和紫外吸收测定,各化合物的最大紫外吸收在250~285 nm之间,吸收域较宽,适用性较强.同时,利用酸敏染料罗丹明B遇酸异构变色的特点,使用紫外!可见分光光度计定量检测了6种产酸剂在乙腈溶剂中的产酸效率,其中硫杂蒽酮系列的产酸剂产酸性能最好. 最后使用荧光追踪法研究了溶剂极性对产酸效率的影响,发现产酸剂的产酸性能同溶剂的选取密切相关,随着溶剂极性的减小,产酸效率随之降低. 对6种硫鎓盐的产酸效率检测结果可以为产酸剂进一步用于248 nm光致抗蚀剂配方提供详细的参考.
閤成瞭6種適用于248 nm光緻抗蝕劑的硫鎓鹽產痠劑,其中吩噻(噁)體繫的產痠劑為自行設計閤成. 利用IR、H NMR、UV等測試技術進行瞭結構錶徵和紫外吸收測定,各化閤物的最大紫外吸收在250~285 nm之間,吸收域較寬,適用性較彊.同時,利用痠敏染料囉丹明B遇痠異構變色的特點,使用紫外!可見分光光度計定量檢測瞭6種產痠劑在乙腈溶劑中的產痠效率,其中硫雜蒽酮繫列的產痠劑產痠性能最好. 最後使用熒光追蹤法研究瞭溶劑極性對產痠效率的影響,髮現產痠劑的產痠性能同溶劑的選取密切相關,隨著溶劑極性的減小,產痠效率隨之降低. 對6種硫鎓鹽的產痠效率檢測結果可以為產痠劑進一步用于248 nm光緻抗蝕劑配方提供詳細的參攷.
합성료6충괄용우248 nm광치항식제적류옹염산산제,기중분새(오)체계적산산제위자행설계합성. 이용IR、H NMR、UV등측시기술진행료결구표정화자외흡수측정,각화합물적최대자외흡수재250~285 nm지간,흡수역교관,괄용성교강.동시,이용산민염료라단명B우산이구변색적특점,사용자외!가견분광광도계정량검측료6충산산제재을정용제중적산산효솔,기중류잡은동계렬적산산제산산성능최호. 최후사용형광추종법연구료용제겁성대산산효솔적영향,발현산산제적산산성능동용제적선취밀절상관,수착용제겁성적감소,산산효솔수지강저. 대6충류옹염적산산효솔검측결과가이위산산제진일보용우248 nm광치항식제배방제공상세적삼고.
Six sulfonium photoacid generators(PAGs) which were used in 248 nm photoresists were synthesized, some of which were innovated by our lab for the first time. The synthesis method is very simple and environment-friendly, with high yields at the same time. All the PAGs were identified by IR, HNMR and UV. The max wavelengths of ultraviolet absorption are between 250 nm and 285 nm, and the absorption region are so wide that these PAGs can be used extensively. We used rhodamine B and ultraviolet spectrophotometer to evaluate the acid-generation efficiency of the PAGs in acetonitrile because rhodamine B will change colour by the change of acid concentration. The PAGs synthesized by thioxanthen-9-one and isopropylthioxanthen-9-one were choosed as the best ones. We also studied how the solvent affect the acid-generation by fluorescence, and found that the acid-generation efficiency would be depressed by the decrease of the solvent′s polarity. All the work about the PAGs can provide an important reference to 248 nm photoresists.
