(<i>S</i>)-Cysteine Chemisorption on Cu(110), from the Gas or Liquid Phase:  An FT-RAIRS and XPS Study

Marti, E.; Méthivier, C.; Pradier, Claire‐Marie

doi:10.1021/la048952w

Cited by 105 publications

(48 citation statements)

References 43 publications

(68 reference statements)

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“…However, these thiol groups may suffer oxidation, causing the dimerization of the cysteine molecule. Cysteine can also adsorb onto the surfaces of different metals, which has been reported in the literature using several surface science and electrochemical techniques 6 .…”

Section: Introductionmentioning

confidence: 91%

“…As cysteine can adsorb on the copper surface 6 , it would be expected that a decrease in S should facilitate this adsorption, increasing the polarization and making the deposition of copper more difficult. In Bath 2, the bulk electrolytic solution is at pH = 6.77, which is higher than the first pK a of cysteine (pK a1CYS = 1.71) and smaller than its second pK a (pK a2CYS = 8.33), suggesting that the possible ionic forms of cysteine in solution at this pH range were NH 3 + /SH/COO -(zwitterionic form) and NH 2 /SH/COO -(basic form) 6 . It is known, however, that the pH in the substrate/solution interface may increase due to the HER reduction 13,14 , which can favor the presence of the basic form of cysteine.…”

Section: Electrodeposition Experimentsmentioning

confidence: 99%

“…It is known, however, that the pH in the substrate/solution interface may increase due to the HER reduction 13,14 , which can favor the presence of the basic form of cysteine. Using infrared analysis to study the adsorption of cysteine on copper surface, Marti et al 6 have shown that, at intermediate values of pH, there was a higher fraction of NH 2 groups adsorbed, which was reflected by the intense signal at 1080 cm -1 . Additionally, Sukava et al 24 have shown that the adsorption of cysteine onto copper electrodes during copper electrodeposition was sufficiently dynamic and the adsorbate phase was sufficiently mobile to enable the copper lattice to grow without covering the additive molecules.…”

Section: Electrodeposition Experimentsmentioning

confidence: 99%

“…The interaction of these compounds with metal surfaces may occur via either the amino or carboxylate groups, depending on the conditions of interaction and the substrate 6 . In an electrodeposition process, amino acids can act as ligands for metallic ions; they can also enhance or decrease the intensity of parallel reactions (for example, the hydrogen evolution reaction, HER) 7,8 .…”

Section: Introductionmentioning

confidence: 99%

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Statistic evaluation of cysteine and allyl alcohol as additives for Cu-Zn coatings from citrate baths

et al. 2012

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In the present work, cysteine and allyl alcohol were added to citrate baths as additives to Cu-Zn coatings on steel substrates. In order to verify the effects of the deposition parameters (current density, mechanical stirring speed, and additives) on the coating composition, electrochemical behavior, morphology, and microstructure properties of Cu-Zn coatings, the electrodeposition of the alloy was carried out using an experimental composite design 2 3 , in which these parameters were considered the entry variables and the measured properties were the response variables. The confidence level was 95% and the results were shown as response surface diagrams. It was possible to verify that the current density affected the zinc content in the coating, while the coating produced from cysteine-contained bath presented the worse anticorrosive performance. In a general way, it was possible to observe that the studied parameters affected the morphology, grain size, and the electrochemical behavior of these coatings, although only a few response variables were statistically influenced by them.

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Section: Introductionmentioning

confidence: 91%

Section: Electrodeposition Experimentsmentioning

confidence: 99%

Section: Electrodeposition Experimentsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Statistic evaluation of cysteine and allyl alcohol as additives for Cu-Zn coatings from citrate baths

et al. 2012

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“…Amino acids are the building blocks of proteins, and they are the essential units from which highly ordered molecular networks and more complex molecules are built up through polymerization reactions [26,27]. Therefore, in this new context, we can include the interactions of simple molecules as amino acids on catalytic surfaces, which may play a crucial role in the origin of life and the field of prebiotic chemistry.…”

Section: Physico-chemical Applications: Prebiotic Chemistrymentioning

confidence: 99%

Planetary Atmosphere and Surfaces Chamber (PASC): A Platform to Address Various Challenges in Astrobiology

Mateo‐Martí

2014

Challenges

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The study of planetary environments of astrobiological interest has become a major challenge. Because of the obvious technical and economical limitations on in situ planetary exploration, laboratory simulations are one of the most feasible research options to make advances both in planetary science and in developing a consistent description of the origin of life. With this objective in mind, we applied vacuum technology to the design of versatile vacuum chambers devoted to the simulation of planetary atmospheres' conditions. These vacuum chambers are able to simulate atmospheres and surface temperatures representative of the majority of planetary objects, and they are especially appropriate for studying the physical, chemical and biological changes induced in a particular sample by in situ irradiation or physical parameters in a controlled environment. Vacuum chambers are a promising potential tool in several scientific and technological fields, such as engineering, chemistry, geology and biology. They also offer the possibility of discriminating between the effects of individual physical parameters and selected combinations thereof. The implementation of our vacuum chambers in combination with analytical techniques was specifically developed to make feasible the in situ physico-chemical characterization of samples. Many wide-ranging applications in astrobiology are detailed herein to provide an understanding of the potential and flexibility of these experimental systems. Instruments and engineering technology for space applications could take advantage of our environment-simulation chambers for sensor calibration. Our systems also provide the opportunity to gain a greater understanding of the chemical reactivity of molecules on surfaces under different environments, thereby leading to a greater understanding of interface processes in prebiotic chemical reactions and facilitating studies of UV photostability and photochemistry on surfaces. Furthermore, OPEN ACCESSChallenges 2014, 5 214 the stability and presence of certain minerals on planetary surfaces and the potential habitability of microorganisms under various planetary environmental conditions can be studied using our apparatus. Therefore, these simulation chambers can address multiple different challenging and multidisciplinary astrobiological studies.

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Asymmetric Adsorption on Achiral Substrates

2018

Chirality at Solid Surfaces

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(S)-Cysteine Chemisorption on Cu(110), from the Gas or Liquid Phase: An FT-RAIRS and XPS Study

Cited by 105 publications

References 43 publications

Statistic evaluation of cysteine and allyl alcohol as additives for Cu-Zn coatings from citrate baths

Statistic evaluation of cysteine and allyl alcohol as additives for Cu-Zn coatings from citrate baths

Planetary Atmosphere and Surfaces Chamber (PASC): A Platform to Address Various Challenges in Astrobiology

Asymmetric Adsorption on Achiral Substrates

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