Publications by Year: 2018

2018
Mandler D. Chiral self-assembled monolayers in electrochemistry. CURRENT OPINION IN ELECTROCHEMISTRY. 2018;7 :42-47.
Jiao X, Hao Q, Xia X, Lei W, Ouyang Y, Ye H, Mandler D. Free-Standing Hybrid Graphene Paper Encapsulating Nanostructures for High Cycle-Life Supercapacitors. CHEMSUSCHEM. 2018;11 (5) :907-915.
Xu Y, Lei W, Su J, Hu J, Yu X, Zhou T, Yang Y, Mandler D, Hao Q. A high-performance electrochemical sensor based on g-C3N4-E-PEDOT for the determination of acetaminophen. ELECTROCHIMICA ACTA. 2018;259 :994-1003.
Liu C, Wang S, Zhou Y, Yang H, Lu Q, Mandler D, Magdassi S, Tay CY, Long Y. Index-tunable anti-reflection coatings: Maximizing solar modulation ability for vanadium dioxide-based smart thermochromic glazing. JOURNAL OF ALLOYS AND COMPOUNDS. 2018;731 :1197-1207.
Mandler D. Modern Jewish Scholarship in Hungary - the ``Science of Judaism'' Between East and West. HUNGARIAN CULTURAL STUDIES. 2018;11 :196-201.
Bengiat R, Bogoslaysky B, Mandler D, Almog J. Selective Binding and Precipitation of Cesium Ions from Aqueous Solutions: A Size-Driven Supramolecular Reaction. CHEMISTRY-A EUROPEAN JOURNAL. 2018;24 (13) :3161-3164.
Gajdar J, Sarkar S, Mandler D, Fischer J, Barek J. Voltammetry of Electroactive Species at the Interface in Langmuir-Blodgett Trough, in PROCEEDINGS OF THE INTERNATIONAL CONFERENCE MODERN ELECTROCHEMICAL METHODS XXXVIII. Czech Acad Sci, J Heyrovsky Inst Phys Chem; Czech Acad Sci, Inst Biophys; Charles Univ, Fac Sci, Dept Analyt Chem, UNESCO Lab Environm Electrochemistry ; 2018 :54-57.
Metoki N, Baik S-I, Isheim D, Mandler D, Seidman DN, Eliaz N. Atomically resolved calcium phosphate coating on a gold substrate. NANOSCALE. 2018;10 (18) :8451-8458.
Fedorov RG, Mandler D. Control of Crystal Growth in Local Electroless Gold Deposition by Pyridinium Based Surfactants. CRYSTAL GROWTH & DESIGN. 2018;18 (7) :3913-3920.
Shahar T, Feldheim G, Marx S, Mandler D. Core-shell nanoparticles for gas phase detection based on silver nanospheres coated with a thin molecularly imprinted polymer adsorbed on a chemiresistor. NANOSCALE. 2018;10 (37) :17593-17602.
Xu Y, Hao Q, Mandler D. Electrochemical detection of dopamine by a calixarene-cellulose acetate mixed Langmuir-Blodgett monolayer. ANALYTICA CHIMICA ACTA. 2018;1042 :29-36.
Xiang Z-peng, Deng H-qiang, Peljo P, Fu Z-yong, Wang S-li, Mandler D, Sun G-quan, Liang Z-xing. Electrochemical Dynamics of a Single Platinum Nanoparticle Collision Event for the Hydrogen Evolution Reaction. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION. 2018;57 (13) :3464-3468.
Bruchiel-Spanier N, Giordano G, Vakahi A, Guglielmi M, Mandler D. Electrochemically Deposited Sol-Gel Based Nanoparticle-Imprinted Matrices for the Size-Selective Detection of Gold Nanoparticles. ACS APPLIED NANO MATERIALS. 2018;1 (10) :5612-5619.
Leader A, Mandler D, Reches M. The role of hydrophobic, aromatic and electrostatic interactions between amino acid residues and a titanium dioxide surface. PHYSICAL CHEMISTRY CHEMICAL PHYSICS. 2018;20 (47) :29811-29816.
Gdor E, Levy D, Aharon L, Shoseyov O, Mandler D. SP1 based self-assembled selective molecular nanochannels. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. 2018;819 (SI) :220-225.
Geuli O, Mandler D. The synergistic effect of benzotriazole and trimethylsiloxysilicate towards corrosion protection of printed Cu-based electronics. CORROSION SCIENCE. 2018;143 :329-336.
Ling H, Yeo LP, Wang Z, Li X, Mandler D, Magdassi S, Tok AIY. TiO2-WO3 core-shell inverse opal structure with enhanced electrochromic performance in NIR region. JOURNAL OF MATERIALS CHEMISTRY C. 2018;6 (31) :8488-8494.
Metoki N, Baik S-I, Isheim D, Mandler D, Seidman DN, Eliaz N. Atomically resolved calcium phosphate coating on a gold substrate. NANOSCALE. 2018;10 (18) :8451-8458.Abstract
Some articles have revealed that the electrodeposition of calcium phosphate (CaP) coatings entails a precursor phase, similarly to biomineralization in vivo. The chemical composition of the initial layer and its thickness are, however, still arguable, to the best of our knowledge. Moreover, while CaP and electrodeposition of metal coatings have been studied utilizing atom-probe tomography (APT), the electrodeposition of CaP ceramics has not been heretofore studied. Herein, we present an investigation of the CaP deposition on a gold substrate. Using APT and transmission electron microscopy (TEM) it is found that a mixture of phases, which could serve as transient precursor phases to hydroxyapatite (HAp), can be detected. The thickness of these phases is tens of nanometers, and they consist of amorphous CaP (ACP), dibasic calcium phosphate dihydrate (DCPD), and octacalcium phosphate (OCP). This demonstrates the value of using atomic-resolved characterization techniques for identifying the precursor phases. It also indicates that the kinetics of their transformation into the more stable HAp is not too fast to enable their observation. The coating gradually displays higher Ca/P atomic ratios, a porous nature, and concomitantly a change in its density.
Mandler D. Chiral self-assembled monolayers in electrochemistry. CURRENT OPINION IN ELECTROCHEMISTRY. 2018;7 :42-47.Abstract
The activity of chiral self-assembled monolayers (SAMs) in electrochemistry is reviewed. Chiral SAMs have been used as a means of introducing stereoselectivity in electron transfer at the electrode/electrolyte interface. In most cases, a cysteine-based SAM was used on gold electrodes. Different attempts have involved the application of chiral thiolated molecules, e.g., cyclodextrin, imprinting of chiral objects and competitive complexation. More recently, spintronics in which magnetic fields applied next to chiral SAM induced chiral effects, were also reported. Yet, there is much room for additional and innovative ideas in this field of electrochemistry.
Fedorov RG, Mandler D. Control of Crystal Growth in Local Electroless Gold Deposition by Pyridinium Based Surfactants. CRYSTAL GROWTH & DESIGN. 2018;18 (7) :3913-3920.Abstract
The formation and local deposition of well-shaped Au nanostructures on a nonconducting surface are described. Specifically, the local electroless deposition of Au in aqueous solutions in the presence of various n-alkylpyridinium surfactants is driven by electrochemically generating a flux of AuCl4- at a gold tip close to a 3-mercaptopropyltrimethoxysilane modified Si oxidized wafer. Two reducing agents, NaBH4 and ascorbic acid, were used for the reduction of the gold ions. We studied the effect of the solution temperature, the potential applied to the gold tip and its distance from the surface, the reductant, and the nature of the alkylpyridinium on the structure of the gold deposit. The chloride salts of methylpyridinium, butylpyridinium, cetylpyridinium, 4-carbamoyl-1-cetylpyridinium, and 4-methyl-l-cetylpyridinium were added separately and showed remarkable effect on the shape of the structures that were formed. We find that short chain n-alkylpyridinium salts do not adsorb preferentially on the gold facets, whereas the longer chain n-alkylpyridinium ions cause the formation of well-faceted Au structures, such as cubes, hexagons, and even multipods. Moreover, comparison between local and bulk deposition revealed a significant difference in Au structures that were formed, presumably due to the different concentration profile of the AuCl4-.

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