Cleverson A. S. Moura scite author profile

Sinapinic acid is an interesting material because it is both antioxidant and antibacterial agent. In addition, when illuminated with ultraviolet light, it can exhibit the so-called photodimerization process. In this paper, we report on the investigation of monolayer films from 3,5-dimethoxy-4-hydroxycinnamic acid (sinapinic acid, SinA) deposited onto poly(allylamine hydrochloride), PAH, films. SinA monolayers were prepared by using the layer-by-layer (LbL) self-assembly technique. Adsorption kinetics curves were well fitted by a biexponential function suggesting that the adsorption process is determined by two mechanisms: nucleation and growth of aggregates. By using wetting contact angle analysis, we have found that SinA monolayers exhibit photoresponsive wettability under UV irradiation (365 nm); that is, wettability decreases with increasing UV irradiation time. The photoresponse of wettability was attributed to photodimerization process. This hypothesis was supported by the dependence of surface morphological structure and absorption on UV irradiation time. The mechanism found in the well-known transcinnamic acid crystals is used to explain the photodimerization process in SinA monolayers.

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Polarization Dependence in the Carbon K-Edge Photofragmentation of MAPDST Photoresist: An Experimental and Theoretical Study

Moura

Belmonte

Gonsalves

et al. 2018

J. Phys. Chem. C

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The use of tunable soft X-rays from synchrotron radiation (SR) opens the possibility of inducing selective chemical bond scission because of its high localization in a chemical bond. The selective fragmentation of a potential extreme ultraviolet resist, poly(4-(methacryloyloxy) phenyldimethylsulfoniumtriflate) (MAPDST), was examined using inner shell-polarized SR excitation. Selective bond dissociation processes were studied using a combination of carbon K-edge excitation, angle-resolved irradiation, and near-edge X-ray absorption fine structure (NEXAFS) spectroscopy. Detailed theoretical calculations carried out with the FEFF9 modeling program allowed the interpretation of all the observed experimental features. NEXAFS results indicated that the aromatic group of the polymer lies parallel to the substrate surface. FEFF9 theoretical calculations confirmed the origin of the splitting of the main C 1s → πCC * resonances observed. The transition C 1s → παCC * (285.3 eV) can be associated with the four internal carbons of the aromatic ring. The transition C 1s → πβCC * (286.9 eV) was assigned to the carbon atoms attached to the oxygen and sulfur atoms. According to the theoretical calculations, the origin of the splitting is due to the different absolute energy of C 1s. The results showed a strong selective dissociation effect when the excitation energy was tuned to the C 1s → παCC * transition and the electric field vector of the photon was perpendicular to the substrate plane (grazing angle). On the contrary, other transitions were in general less affected. When the SR irradiation angle changed from grazing to normal incidence, the intensity of the C 1s → πCC * transitions was almost unaffected by 285.3 eV photons. The experimental results suggest that site-specific core excitation combined with the direction of the electric field vector of the incidence SR can efficiently control the localization of the photon energy to produce selective bond dissociation in MAPDST thin films. The results presented here can also be useful to guide new processing lithographic methods for extreme ultraviolet lithography using the polarization properties of light in ordered polymeric thin films.

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Cleverson A. S. Moura

Semimetallicity of free-standing hydrogenated monolayer boron from MgB2

Mechanistic insights of Sn-based non-chemically-amplified resists under EUV irradiation

Photoresponsive Wettability in Monolayer Films from Sinapinic Acid

Polarization Dependence in the Carbon K-Edge Photofragmentation of MAPDST Photoresist: An Experimental and Theoretical Study

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