新型锍鎓盐类光生酸剂的合成及产酸性能研究

成功合成了两种新型锍鎓盐类光生酸剂,其结构经1HNMR和MS分析确认,并对其基本物性及在405、365nm光下乙腈溶液中的分解及产酸性能进行了研究,通过计算得出了分解及产酸量子产率.结果表明,两种化合物有较高的热分解温度和在常用有机溶剂中有较好的溶解性;在405nm光源下,4-(9′-苯基蒽基)苯基三氟甲磺酸锍鎓盐(PAGS1)和4-(4′-N,N-二乙基-1′-苯乙烯基)苯基三氟甲磺酸锍鎓盐(PAGS2)的分解量子产率分别为10%和15%,产酸量子产率为8.1%和13%;但在365nm光源下,分解及产酸量子产率均很低,说明两种光生酸剂对于405nm波长的光较敏感,适宜作为405nm光源下的光生酸剂.     

酸敏变色记录材料的光谱特性及其光量子产率

本文研究了由偏二氯乙烯 丙烯酸甲酯共聚合物 (VdCl2 MA)和五甲氧基红指示剂组成的酸敏变色记录材料的光谱特性 ,测定了其光分解量子产率 .通过添加光敏剂使原来只有在 2 54nm紫外光下曝光才能发生光分解反应的酸敏变色材料在 365nm紫外光下曝光也可发生光分解而变色 .酸敏变色材料在 2 54nm处紫外光曝光量子产率为 0 .0 32 -0 .0 2 0 ;在 365nm处紫外光曝光量子产率为 0 .1 1 0 -0 .0 34 .光敏剂的加入使酸敏变色材料量子产率提高了 2 -4倍 .     

405nm成像体系用三嗪类光生酸剂的制备、性质和应用研究

制备了5种三氯甲基取代的三嗪类光生酸化合物,其结构经1HNMR、IR等分析确认,分别考察了它们在有机溶剂中的溶解性,通过TG测定确定了其热分解性能,并测定了它们的紫外可见吸收光谱,以及对在405、365 nm光源下的光分解及产酸性能进行了研究.成像实验表明,它们可用于405 nm的成像组成物中.     

磺酸肟酯类光产酸剂的制备及性能研究

本文合成了4种磺酸肟酯类非离子型光产酸剂,用核磁氢谱确认了产物结构,并测试了其热稳定性、紫外吸收特性及产酸效率.结果表明,合成的4种磺酸肟酯类光产酸剂在350-450 nm和深紫外区(DUV,248 nm)都有很好的吸收,在420 nm波段曝光下,(5-对三氟甲基苯磺酸酯亚胺-5H-噻吩-2-亚胺)-苯乙腈(P-2)产酸率最高,可达0.96;(5-对甲基苯磺酸酯亚胺-5H-噻吩-2-亚胺)-苯乙腈(P-1)在365 nm和420 nm两个波段下,均有较高的产酸率.利用实时红外(RT-IR)研究了相同浓度下4种光产酸剂对乙烯基醚化合物引发的光聚合动力学,同时研究了光产酸剂浓度对光聚合反应的影响,发现产酸剂浓度为2%时,光照30 s乙烯基醚化合物的双键转化率(DC%)即能达到80%.     

一种新型深紫外正型光致抗蚀剂材料的研究

通过松香酸和丙烯酸的Diels-Alder反应得到了一种二酸———丙烯海松酸.丙烯海松酸有大的脂环结构和良好的成膜性,在固体膜层中,它可以和二乙烯基醚,如1,3-二乙烯氧基乙氧基苯,在加热条件下(80℃以上)发生反应,产物在稀碱水中难溶.这样形成的产物在光产酸剂产生的强酸催化下,在温度高于100℃时,可以迅速分解,从而变成稀碱水易溶.因此,用此二酸、二乙烯基醚和产酸剂可组成一种正型的光致抗蚀剂,当用254 nm的低压汞灯曝光时,其感度在30 mJ/cm2以下.     

含碘鎓盐光产酸剂和增感染料的化学增幅型i-线正性光致抗蚀剂

4,4’-二甲苯基三氟甲磺酸碘鎓盐可以被染料增感,在365 nm光照时分解产酸.尽管产生的酸与染料的胺基发生作用,依然能在后烘过程中催化缩醛聚合物酸敏基团的分解,但需要稍高的后烘温度和稍长的后烘时间.基于此,本文将酚醛树脂、缩醛聚合物、碘鎓盐产酸剂和染料组成了一种新型的化学增幅型i-线正性光致抗蚀剂材料,在曝光量为10...     

硫鎓盐产酸剂的合成及其产酸效率

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.     

1-取代-顺式-1,2-环己二醇单磺酸酯类酸增殖剂的合成和性质研究

用过氧化氢氧化烯烃得到顺式邻环己二醇,继而和对甲苯磺酰氯反应得到两种1-取代-顺式-1,2-环己二醇单磺酸酯.以溴酚兰作指示剂,用作者自己的方法定量测定了它们在聚乙二醇膜层中的酸解性能.结果表明,在光产酸剂所产酸作用下,在加热条件下这些化合物发生分解并产酸.这两个磺酸酯的储存稳定性不是很好,在极性溶剂作用下易分解,限制了它们在化学增幅型成像材料中的应用.     

一种适用于193nm光刻胶的硫盐光产酸剂的制备与性质

制备了一种阳离子含有萘基,阴离子分别为对 甲苯磺酸、甲磺酸及三氟甲磺酸的硫盐.它们有高的热解温度和在常用有机溶剂中较好的溶解性.测定了此类光产酸剂在水溶液及聚乙二醇固体膜层中的紫外吸收特性.结果表明,阴离子不含苯基时,在193nm处有很好的透明性.考察了其在低压汞灯照射下的光解性质,在254nm附近的吸收峰随光解进行迅速减弱.此类光产酸剂适用于氟化氩激光(193nm)等的化学增幅型光致抗蚀剂.     

TiO_2和ZnO表面CO光催化氧化活性研究

在TiO2和ZnO表面CO光催化氧化研究中发现,365 nm紫外光照下TiO2表面无活性,而ZnO表面却有明显的CO光催化氧化活性.研究表明,主要是由于紫外光照下,ZnO光分解而TiO2没有光分解,从而在表面产生不同吸附形态的氧所致.而且,ZnO表面CO光催化氧化反应活性可在27 h内保持稳定,暗示气相光催化反应中,ZnO不会因为光腐蚀而使其催化活性降低.     

Nitrate and Nitrite Ultraviolet Actinometers

Abstract We developed nitrate and nitrite actinometers to determine radiant fluxes from 290 to 410 nm. These actinometers are based on the reaction of the photochemically generated OH radical with benzoic acid to form salicylic acid (SA) and p-hydroxybenzoic acid (pHBA). Actinom-eter development included determination of the temperature and wavelength dependence of the quantum yield for formation of SA and pHBA from nitrate and nitrite photolysis in air-saturated solutions. Quantum yields (at 25°C) for SA production from nitrate photolysis ranged from 0.00146 to 0.00418 between 290 and 350 nm, and from 0.00185 to 0.00633 for nitrite photolysis between 290 and 405 nm. The quantum yields for SA production were approximately 50–60% greater than quantum yields for pHBA production from nitrate and nitrite photolysis. For both actinometers, SA and pHBA formation was temperature dependent, increasing by approximately a factor of 2.2 from 0 to 35°C. Activation energies for SA formation varied with wavelength, ranging from 14.7 to 16.5 kj mol -¹ between 290 and 330 nm for the nitrate actinometer and 12.3 to 17.8 kj mol-¹ between 310 and 390 nm for the nitrite actinometer. Activation energies for pHBA formation were 2–11% higher. Wavelength-dependent changes in the quantum yield and activation energy for SA and pHBA formation from nitrate photolysis suggest multiple electronic transitions for nitrate from 290 to 350 nm. Quantum yields for OH radical formation from nitrate and nitrite photolyses were estimated from SA and pHBA quantum yields at 25°C. Wavelength-dependent OH quantum yields ranged from 0.007 to 0.014 for nitrate photolysis between 290 and 330 nm and from 0.024 to 0.078 for nitrite photolysis between 298 and 390 nm. The nitrate and nitrite actinometers can maintain initial rate conditions for hours, are insensitive to laboratory lighting, easy to use and extremely sensitive; the minimum radiant energy that can be detected in our irradiation system is approximately 10^-9 einsteins.     

Photodeuterierung von benzaldehyd und substituierten benzaldehyden

In the presence of deuterium oxide benzaldehyde ($\text{1a}$) and substituted benzaldehydes likewise possessing lowest triplet states of (n,w*) character yield formyl-deuteriated benzaldehydes by fast and efficient photoreactions. Quantum yields of formation of 7-deuterio benzaldehyde $\text{1b}$ in solvent acetonitrile-deuterium oxide 3:1 are 0.57 at 313 nm), 0.54 at 331 nm. 0.62 at 365 nm, and in acetone-deuterium oxide 3:1 0.87 at 313 nm. 0.83 at 334 nm and 0.91 at 365 nm. By-products. mainly meso- and dl-dihydrobenzoin and benzoin. are formed to a small extent only. On the basis of CIDNP measurements the mechanism of photodeuteriation is discussed.     

MUTAGENIC AND RECOMBINOGENIC ACTION OF DNA MONOADDUCTS PHOTOINDUCED BY THE BIFUNCTIONAL FUROCOUMARIN 8-METHOXYPSORALEN IN YEAST (Saccharomyces cerevisiae)

Abstract— For the same furocoumarin 8-MOP and the same total number of photoadditions, the genetic activity of DNA monoadducts and a mixture of mono- and biadducts photoinduced by the bifunctional furocoumarin 8-methoxypsoralen (8-MOP) is compared in the yeast Saccharomyces cerevisiae. In the presence of 8-MOP, 405 nm irradiation induces only monoadducts, whereas 365 nm irradiation induces mono- and biadducts (interstrand cross-links) in DNA. This is shown by heat denaturation-renaturation experiments on calf thymus DNA treated in vitro and by alkaline step elution analysis of DNA from treated yeast cells. For the same photobinding of tritiated 8-MOP to DNA in diploid yeast, about 20 times higher doses are needed with 405 nm than with 365 nm irradiation. Re-irradiation experiments reveal that part of the monoadducts induced by 8-MOP and 405 nm irradiation can be effectively converted into DNA interstrand cross-links by exposures to 365 nm radiation after washing-out of unbound 8-MOP molecules. 8-MOP and 405 nm irradiation induce per lethal hit cytoplasmic "petite" mutations in yeast as efficiently as the monofunctional furocoumarin 3-carbethoxypsoralen (3-CPs) and 365 nm irradiation, both treatments being much more efficient than 8-MOP and 365 nm irradiation. At equal survival, treatments with 8-MOP and 405 nm radiation are clearly less efficient than treatments with 8-MOP and 365 nm radiation for the induction of forward ( CAN *) and reverse ( HIS +) mutations in haploïd yeast and for the induction of mutations ( ILV +) and genetically aberrant colonies including mitotic crossing-over in diploid yeast. The two treatments are equally efficient for the induction of mitotic gene conversion. At equal photobinding of 8-MOP, the monoadducts induced by 405 nm irradiation are found less effective than the mixture of mono-and biadducts induced by 365 nm irradiation for the induction of cell killing, mutations and mitotic recombination.     

8-METHOXYPSORALEN-PHOTOINDUCED DNA CROSSLINKS AS DETERMINED IN YEAST BY ALKALINE STEP ELUTION UNDER DIFFERENT REIRRADIATION CONDITIONS. RELATION WITH GENETIC EFFECTS

Abstract— DNA damage induced by 8-methoxypsoralen (8-MOP) plus near UV light (UVA) was analyzed in diploid yeast using the alkaline step elution technique. The presence of 8-MOP and UVA induced DNA interstrand cross-links was revealed by the increase of DNA retained on elution filters as compared to untreated controls. The fraction of DNA retained on filters increased linearly with UVA dose. The amount of cross-links was estimated from the fraction of DNA retained on filters using a dose of -radiation leading to a number of DNA strand breaks at least equivalent to the number of 8-MOP induced photoadducts.
When 8-MOP treated cells were exposed to monochromatic light, 365 nm light induced monoadducts and cross-links whereas 405 nm light induced only monoadducts. When submitting 8-MOP plus 405 nm light treated cells to 365 nm irradiation, after removal of unbound 8-MOP by washing, a portion of 8-MOP plus 405 nm light induced monoadducts was converted into cross-links. The amount of monoadducts transformed into cross-links was dependent on the dose of 365 nm irradiation up to a maximum likely to correspond to the number of suitably positioned furan-side monoadducts that could be converted into biadducts. When 8-MOP plus 365 nm light treated cells were reirradiated with 365 nm light, following the same protocol, the maximum level of cross-linking obtainable in yeast was lower than that obtained with 8-MOP in a 405 nm plus 365 nm reirradiation protocol.
In the presence of 8-MOP single exposures to 405 nm light were found to be only slightly genotoxic. However, when followed by second exposures to 365 nm light, a dose-dependent increase in genetic effects, i.e. mutation and gene conversion, was observed in parallel to the induction of DNA crosslinks. These results stress again the prominent role of DNA cross-links in the genotoxicity of 8-MOP.     

INDUCTION OF DNA–PROTEIN CROSS-LINKING IN CHINESE HAMSTER CELLS BY MONOCHROMATIC 365 AND 405 NM ULTRAVIOLET LIGHT

Abstract— The survival, the induction of DNA-protein cross-linking, and the number of T4-endonuclease sensitive sites were measured in Chinese hamster cells that had been irradiated with 365 and 405 nm monochromatic light. The survival measurements show that cells are somewhat less sensitive to 405 nm light than to 365 nm light. The difference is expressed predominantly in the shoulder widths of the survival curves, whereas the slopes of the two curves are about the same. Induction of pyrimidine dimers, as indicated by the number of endonuclease-sensitive sites, after exposures that produce about 10% survival is very low at 365 nm (˜ 4 endonuclease sites per 2 × 10⁸ daltons), while no dimers are detected at 405 nm. In contrast, DNA-protein cross-links are induced rather effectively at either wavelength even after exposures that result in a relatively high survival (60-20%). Our measurements support the conclusion that lethality in mammalian cells after irradiations with 365 or 405 nm light is caused by a nondimer damage, possibly DNA-protein cross-links.     

S-pixyl analogues as photocleavable protecting groups for nucleosides

Several analogues of the 9-phenylthioxanthyl (S-pixyl) photocleavable protecting group have been synthesized, containing substituents on the 9-aryl ring and on the thioxanthyl backbone. Each analogue protected the 5'-hydroxy moiety of thymidine in good to excellent yield. The protected substrates were deprotected in 1:1 water:acetonitrile with irradiation at 300 nm, resulting in recovered thymidine in excellent yield, except for the nitro-substituted analogues which gave substantially lower yields. Substrates with 2,7-dibromo or 3-methoxy substitution on the thioxanthyl backbone were also deprotected efficiently with irradiation at 350 nm. Shorter irradiation times were observed in the less nucleophilic solvent mixture of 1:9 trifluoroethanol:acetonitrile, with no formation of secondary photooxidation products. Photodeprotection with high yields was also achieved in the absence of solvent, with no secondary photoproducts.     

NONRECIPROCAL SYNERGISTIC LETHAL INTERACTION BETWEEN 365-nm and 405-nm RADIATION IN WILD TYPE and uvrA STRAINS OF ESCHERICHIA COLI*

Abstract— Lethality by 405-nm radiation in three repair-proficient and two uvrA strains of Escherichia coli that belong to two isogenic series was greatly enhanced by prior exposures to 365-nm radiation at fluences greater than 1 times 10₆Jm_-2. Fluences at 365 nm that yielded a surviving fraction of 0.10 (>1 times 10₆ Jm_-2) in the 5 strains tested resulted in the following 405-nm fluence enhancement factors (FEF, ratio of the 405-nm F₃₇ in the absence of a prior 365-nm irradiation to that in the presence): strain K.12 AB1157 (wild type), 8.7; strain B/r (wild type), 52; strain WP2 (wild type), 25; strain WP2s (uvrA), 13; strain K.12 AB1886 (uvrA), 15. The maximal 405-nm FEF value obtained after a prior 365-nm irradiation at greater fluences was 83 in the wild-type strain B/r. Enhancement of anoxic 405-nm radiation after a prior aerobic 365-nm exposure was not detectable, suggesting that prior aerobic irradiation at 365-nm increased the effects of damage produced at 405 nm by means of an oxygen-dependent process. Single-strand breaks (or alkali-labile bonds) were produced by 405-nm radiation at 3.0 times 10_-5 breaks per 2.5 times 10₉ daltons per Jm_-2 in the polA strain P3478; pyrimidine dimers were not detected by biological assay (photoreactivation) at 405 nm. Although the introduction of different DNA lesions produced by 365- and 405-nm radiations cannot be ruled out, we propose that the strong synergistic effect of 365-nm irradiation on 405-nm lethality is the consequence of pronounced inhibition by 365-nm radiation of components of the DNA-repair systems that can mend or bypass damage produced by 405-nm radiation.     

Oxygen-independent inactivation of Haemophilus influenzae transforming DNA by monochromatic radiation: action spectrum, effect of histitine and repair.

Abstract— The action spectrum for the oxygen-independent inactivation of native transforming DNA from Haemophilus influenzae with near-UV radiation revealed a shoulder beginning at 334 and extending to 460 nm. The presence of 0.2 M histidine during irradiation produced a small increase in inactivation at 254, 290 and 313 nm, a large increase at 334 nm and a decrease in inactivation at 365, 405 and 460 nm. Photoreactivation did not reverse the DNA damage produced at pH 7.0 at 334, 365, 405 and 460 nm, but did reactivate the DNA after irradiation at 254, 290 and 313 nm. The inactivation of DNA irradiated at 254, 290 and 313 nm was considerably greater when the transforming ability was assayed in an excision-defective mutant compared with the wild type, although DNA irradiated at 334, 365, 405 and 460 nm showed smaller differences. These results suggest that the oxygen-independent inactivation of H. influenzae DNA at pH 7 by irradiation at 334, 365, 405 and 460 nm is caused by lesions other than pyrimidine dimers.