%0 Journal Article %J CURRENT OPINION IN ELECTROCHEMISTRY %D 2018 %T Chiral self-assembled monolayers in electrochemistry %A Mandler, Daniel %B CURRENT OPINION IN ELECTROCHEMISTRY %V 7 %P 42-47 %8 JAN %G eng %R 10.1016/j.coelec.2017.09.030 %0 Journal Article %J CHEMSUSCHEM %D 2018 %T Free-Standing Hybrid Graphene Paper Encapsulating Nanostructures for High Cycle-Life Supercapacitors %A Jiao, Xinyan %A Hao, Qingli %A Xia, Xifeng %A Lei, Wu %A Ouyang, Yu %A Ye, Haitao %A Mandler, Daniel %B CHEMSUSCHEM %V 11 %P 907-915 %8 MAR 9 %G eng %N 5 %R 10.1002/cssc.201702283 %0 Journal Article %J ELECTROCHIMICA ACTA %D 2018 %T A high-performance electrochemical sensor based on g-C3N4-E-PEDOT for the determination of acetaminophen %A Xu, Yujuan %A Lei, Wu %A Su, Juan %A Hu, Jinjin %A Yu, Xiaodan %A Zhou, Tong %A Yang, Yun %A Mandler, Daniel %A Hao, Qingli %B ELECTROCHIMICA ACTA %V 259 %P 994-1003 %8 JAN 1 %G eng %R 10.1016/j.electacta.2017.11.034 %0 Journal Article %J JOURNAL OF ALLOYS AND COMPOUNDS %D 2018 %T Index-tunable anti-reflection coatings: Maximizing solar modulation ability for vanadium dioxide-based smart thermochromic glazing %A Liu, Chang %A Wang, Shancheng %A Zhou, Yang %A Yang, Haibo %A Lu, Qi %A Mandler, Daniel %A Magdassi, Shlomo %A Tay, Chor Yong %A Long, Yi %B JOURNAL OF ALLOYS AND COMPOUNDS %V 731 %P 1197-1207 %8 JAN 15 %G eng %R 10.1016/j.jallcom.2017.10.045 %0 Journal Article %J HUNGARIAN CULTURAL STUDIES %D 2018 %T Modern Jewish Scholarship in Hungary - the ``Science of Judaism'' Between East and West %A Mandler, David %B HUNGARIAN CULTURAL STUDIES %V 11 %P 196-201 %G eng %R 10.5195/ahea.2018.341 %0 Journal Article %J CHEMISTRY-A EUROPEAN JOURNAL %D 2018 %T Selective Binding and Precipitation of Cesium Ions from Aqueous Solutions: A Size-Driven Supramolecular Reaction %A Bengiat, Ravell %A Bogoslaysky, Benny %A Mandler, Daniel %A Almog, Joseph %B CHEMISTRY-A EUROPEAN JOURNAL %V 24 %P 3161-3164 %8 MAR 2 %G eng %N 13 %R 10.1002/chem.201706181 %0 Conference Paper %B PROCEEDINGS OF THE INTERNATIONAL CONFERENCE MODERN ELECTROCHEMICAL METHODS XXXVIII %D 2018 %T Voltammetry of Electroactive Species at the Interface in Langmuir-Blodgett Trough %A Gajdar, Julius %A Sarkar, Sujoy %A Mandler, Daniel %A Fischer, Jan %A Barek, Jiri %E Navratil, T %E Fojta, M %E Schwarzova, K %B PROCEEDINGS OF THE INTERNATIONAL CONFERENCE MODERN ELECTROCHEMICAL METHODS XXXVIII %I Czech Acad Sci, J Heyrovsky Inst Phys Chem; Czech Acad Sci, Inst Biophys; Charles Univ, Fac Sci, Dept Analyt Chem, UNESCO Lab Environm Electrochemistry %P 54-57 %@ 978-80-905221-6-9 %G eng %0 Journal Article %J NANOSCALE %D 2018 %T Atomically resolved calcium phosphate coating on a gold substrate %A Metoki, Noah %A Baik, Sung-Il %A Isheim, Dieter %A Mandler, Daniel %A Seidman, David N. %A Eliaz, Noam %B NANOSCALE %V 10 %P 8451-8458 %8 MAY 14 %G eng %N 18 %R 10.1039/c8nr00372f %0 Journal Article %J CRYSTAL GROWTH & DESIGN %D 2018 %T Control of Crystal Growth in Local Electroless Gold Deposition by Pyridinium Based Surfactants %A Fedorov, Roman G. %A Mandler, Daniel %B CRYSTAL GROWTH & DESIGN %V 18 %P 3913-3920 %8 JUL %G eng %N 7 %R 10.1021/acs.cgd.8b00228 %0 Journal Article %J NANOSCALE %D 2018 %T Core-shell nanoparticles for gas phase detection based on silver nanospheres coated with a thin molecularly imprinted polymer adsorbed on a chemiresistor %A Shahar, Tehila %A Feldheim, Gil %A Marx, Sharon %A Mandler, Daniel %B NANOSCALE %V 10 %P 17593-17602 %8 OCT 7 %G eng %N 37 %R 10.1039/c8nr01437j %0 Journal Article %J ANALYTICA CHIMICA ACTA %D 2018 %T Electrochemical detection of dopamine by a calixarene-cellulose acetate mixed Langmuir-Blodgett monolayer %A Xu, Yujuan %A Hao, Qingli %A Mandler, Daniel %B ANALYTICA CHIMICA ACTA %V 1042 %P 29-36 %8 DEC 26 %G eng %R 10.1016/j.aca.2018.08.019 %0 Journal Article %J ANGEWANDTE CHEMIE-INTERNATIONAL EDITION %D 2018 %T Electrochemical Dynamics of a Single Platinum Nanoparticle Collision Event for the Hydrogen Evolution Reaction %A Xiang, Zhi-peng %A Deng, Hai-qiang %A Peljo, Pekka %A Fu, Zhi-yong %A Wang, Su-li %A Mandler, Daniel %A Sun, Gong-quan %A Liang, Zhen-xing %B ANGEWANDTE CHEMIE-INTERNATIONAL EDITION %V 57 %P 3464-3468 %8 MAR 19 %G eng %N 13 %R 10.1002/anie.201712454 %0 Journal Article %J ACS APPLIED NANO MATERIALS %D 2018 %T Electrochemically Deposited Sol-Gel Based Nanoparticle-Imprinted Matrices for the Size-Selective Detection of Gold Nanoparticles %A Bruchiel-Spanier, Netta %A Giordano, Gianmarco %A Vakahi, Atzmon %A Guglielmi, Massimo %A Mandler, Daniel %B ACS APPLIED NANO MATERIALS %V 1 %P 5612-5619 %8 OCT %G eng %N 10 %R 10.1021/acsanm.8b01215 %0 Journal Article %J PHYSICAL CHEMISTRY CHEMICAL PHYSICS %D 2018 %T The role of hydrophobic, aromatic and electrostatic interactions between amino acid residues and a titanium dioxide surface %A Leader, Avia %A Mandler, Daniel %A Reches, Meital %B PHYSICAL CHEMISTRY CHEMICAL PHYSICS %V 20 %P 29811-29816 %8 DEC 21 %G eng %N 47 %R 10.1039/c8cp05775c %0 Journal Article %J JOURNAL OF ELECTROANALYTICAL CHEMISTRY %D 2018 %T SP1 based self-assembled selective molecular nanochannels %A Gdor, Efrat %A Levy, Dorit %A Aharon, Linoy %A Shoseyov, Oded %A Mandler, Daniel %B JOURNAL OF ELECTROANALYTICAL CHEMISTRY %V 819 %P 220-225 %8 JUN 15 %G eng %N SI %R 10.1016/j.jelechem.2017.10.036 %0 Journal Article %J CORROSION SCIENCE %D 2018 %T The synergistic effect of benzotriazole and trimethylsiloxysilicate towards corrosion protection of printed Cu-based electronics %A Geuli, Ori %A Mandler, Daniel %B CORROSION SCIENCE %V 143 %P 329-336 %8 OCT %G eng %R 10.1016/j.corsci.2018.08.027 %0 Journal Article %J JOURNAL OF MATERIALS CHEMISTRY C %D 2018 %T TiO2-WO3 core-shell inverse opal structure with enhanced electrochromic performance in NIR region %A Ling, Han %A Yeo, Loo Pin %A Wang, Zhiwei %A Li, Xianglin %A Mandler, Daniel %A Magdassi, Shlomo %A Tok, Alfred Iing Yoong %B JOURNAL OF MATERIALS CHEMISTRY C %V 6 %P 8488-8494 %8 AUG 21 %G eng %N 31 %R 10.1039/c8tc01954a %0 Journal Article %J NANOSCALE %D 2018 %T Atomically resolved calcium phosphate coating on a gold substrate %A Metoki, Noah %A Baik, Sung-Il %A Isheim, Dieter %A Mandler, Daniel %A Seidman, David N. %A Eliaz, Noam %X 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. %B NANOSCALE %V 10 %P 8451-8458 %8 MAY 14 %G eng %N 18 %R 10.1039/c8nr00372f %0 Journal Article %J CURRENT OPINION IN ELECTROCHEMISTRY %D 2018 %T Chiral self-assembled monolayers in electrochemistry %A Mandler, Daniel %X 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. %B CURRENT OPINION IN ELECTROCHEMISTRY %V 7 %P 42-47 %8 JAN %G eng %R 10.1016/j.coelec.2017.09.030 %0 Journal Article %J CRYSTAL GROWTH & DESIGN %D 2018 %T Control of Crystal Growth in Local Electroless Gold Deposition by Pyridinium Based Surfactants %A Fedorov, Roman G. %A Mandler, Daniel %X 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-. %B CRYSTAL GROWTH & DESIGN %V 18 %P 3913-3920 %8 JUL %G eng %N 7 %R 10.1021/acs.cgd.8b00228 %0 Journal Article %J ANGEWANDTE CHEMIE-INTERNATIONAL EDITION %D 2018 %T Electrochemical Dynamics of a Single Platinum Nanoparticle Collision Event for the Hydrogen Evolution Reaction %A Xiang, Zhi-peng %A Deng, Hai-qiang %A Peljo, Pekka %A Fu, Zhi-yong %A Wang, Su-li %A Mandler, Daniel %A Sun, Gong-quan %A Liang, Zhen-xing %X Chronoamperometry was used to study the dynamics of Pt nanoparticle (NP) collision with an inert ultramicroelectrode via electrocatalytic amplification (ECA) in the hydrogen evolution reaction. ECA and dynamic light scattering (DLS) results reveal that the NP colloid remains stable only at low proton concentrations (1.0mm) under a helium (He) atmosphere, ensuring that the collision events occur at genuinely single NP level. Amperometry of single NP collisions under a He atmosphere shows that each discrete current profile of the collision event evolves from spike to staircase at more negative potentials, while a staircase response is observed at all of the applied potentials under hydrogen-containing atmospheres. The particle size distribution estimated from the diffusion-controlled current in He agrees well with electron microscopy and DLS observations. These results shed light on the interfacial dynamics of the single nanoparticle collision electrochemistry. %B ANGEWANDTE CHEMIE-INTERNATIONAL EDITION %V 57 %P 3464-3468 %8 MAR 19 %G eng %N 13 %R 10.1002/anie.201712454 %0 Journal Article %J CHEMSUSCHEM %D 2018 %T Free-Standing Hybrid Graphene Paper Encapsulating Nanostructures for High Cycle-Life Supercapacitors %A Jiao, Xinyan %A Hao, Qingli %A Xia, Xifeng %A Lei, Wu %A Ouyang, Yu %A Ye, Haitao %A Mandler, Daniel %X The incorporation of spacers between graphene sheets has been investigated as an effective method to improve the electrochemical performance of graphene papers (GPs) for supercapacitors. Here, we report the design of free-standing GP@NiO and GP@Ni hybrid GPs in which NiO nanoclusters and Ni nanoparticles are encapsulated into graphene sheets through electrostatic assembly and subsequent vacuum filtration. The encapsulated NiO nanoclusters and Ni nanoparticles can mitigate the restacking of graphene sheets, providing sufficient spaces for high-speed ion diffusion and electron transport. In addition, the spacers strongly bind to graphene sheets, which can efficiently improve the electrochemical stability. Therefore, at a current density of 0.5 Ag-1, the GP@NiO and GP@Ni electrodes exhibit higher specific capacitances of 306.9 and 246.1 Fg(-1) than the GP electrode (185.7 Fg(-1)). The GP@NiO and GP@Ni electrodes exhibit capacitance retention of 98.7% and 95.6% after 10000 cycles, demonstrating an outstanding cycling stability. Additionally, the GP@NiO vertical bar GP@Ni delivers excellent cycling stability (93.7% after 10000 cycles) and high energy density. These free-standing encapsulated hybrid GPs have great potential as electrode for high-performance supercapacitors. %B CHEMSUSCHEM %V 11 %P 907-915 %8 MAR 9 %G eng %N 5 %R 10.1002/cssc.201702283 %0 Journal Article %J HUNGARIAN CULTURAL STUDIES %D 2018 %T Modern Jewish Scholarship in Hungary - the ``Science of Judaism'' Between East and West %A Mandler, David %B HUNGARIAN CULTURAL STUDIES %V 11 %P 196-201 %G eng %R 10.5195/ahea.2018.341 %0 Journal Article %J CHEMISTRY-A EUROPEAN JOURNAL %D 2018 %T Selective Binding and Precipitation of Cesium Ions from Aqueous Solutions: A Size-Driven Supramolecular Reaction %A Bengiat, Ravell %A Bogoslaysky, Benny %A Mandler, Daniel %A Almog, Joseph %X The nuclear disasters of Chernobyl and Fukushima presented an urgent need for finding solutions to treatment of radioactive wastes. Among the by-products of nuclear fission is radioactive Cs-137, which evokes an environmental hazard due to its long half-life (> 30 years) and high solubility in water. In this work, a water-soluble organic ligand, readily obtained from alloxan and 1,3,5-benzenetriol, has been found to selectively bind and precipitate Cs+ ions from aqueous solutions. The special rigid structure of the ligand, which consists of a ``tripodal'' carbonyl base above and below an aromatic plane, contributes to the size-driven selectivity towards the large Cs+ ions and the formation of a giant, insoluble supramolecular complex. In addition to the low costs of the ligand, high yields and effectiveness in precipitating Cs+ ions, the Cs- complex revealed a high endurance to continuous doses of gamma-radiation, increasing its potential to act as a precipitating agent for Cs-137. %B CHEMISTRY-A EUROPEAN JOURNAL %V 24 %P 3161-3164 %8 MAR 2 %G eng %N 13 %R 10.1002/chem.201706181 %0 Journal Article %J JOURNAL OF ELECTROANALYTICAL CHEMISTRY %D 2018 %T SP1 based self-assembled selective molecular nanochannels %A Gdor, Efrat %A Levy, Dorit %A Aharon, Linoy %A Shoseyov, Oded %A Mandler, Daniel %X Controlling the permeability and porosity of an inorganic layer using biomolecule building blocks has raised interest for nanotechnological applications. The challenge lies mostly in the fabrication, usually a long, expensive and tedious process, involving many steps. Using biomaterials for this purpose is highly appealing; due to both ease of fabrication and the final output, that contains a bioelement. The biomolecule, specifically, stable protein 1 (SP1), serving as the scaffold for our pattern, is of great stability and durability, and presents size, charge and structural selectivity towards electroactive species. Here, we demonstrate the ability of SP1 to form a rigid template within a sol-gel matrix, allowing selective electron transfer to the gold electrode. Specifically, a thiolated SP1 was first adsorbed on a gold surface followed by filling the non-occupied areas by sol-gel. The latter was electrochemically deposited. The various steps were carefully characterized. Finally, we studied the electrochemistry of numerous redox couple at the Au/SP1/sol-gel interface and found that the nanochannel array shows charge and structural selectivity, which is based on the interactions between the redox species and the functionalities of SP1. The resulted surface shows promise towards electrochemical sensing applications. %B JOURNAL OF ELECTROANALYTICAL CHEMISTRY %V 819 %P 220-225 %8 JUN 15 %G eng %N SI %R 10.1016/j.jelechem.2017.10.036 %0 Journal Article %J CORROSION SCIENCE %D 2018 %T The synergistic effect of benzotriazole and trimethylsiloxysilicate towards corrosion protection of printed Cu-based electronics %A Geuli, Ori %A Mandler, Daniel %X The development of printed electronics has gained much attention as an alternative for conventional metal-based electronics, mainly due to the ability to print electronic circuits on plastics and by much cheaper means as compared with conventional microelectronics. Here we report on a single stage formation of a highly corrosion resistance coating with hydrophobic properties on printed-Cu nanoparticles. Our method is based on the synergistic effect of benzotriazole (BTA) as corrosion inhibitor and trimethylsiloxysilicate (TMS) as hydrophobic component. Printed-Cu coated with such TMS/BTA layer exhibited excellent corrosion resistance in 3.5% NaCl solution, reducing the dissolution of Cu into soluble species by one order of magnitude. %B CORROSION SCIENCE %V 143 %P 329-336 %8 OCT %G eng %R 10.1016/j.corsci.2018.08.027 %0 Journal Article %J JOURNAL OF MATERIALS CHEMISTRY C %D 2018 %T TiO2-WO3 core-shell inverse opal structure with enhanced electrochromic performance in NIR region %A Ling, Han %A Yeo, Loo Pin %A Wang, Zhiwei %A Li, Xianglin %A Mandler, Daniel %A Magdassi, Shlomo %A Tok, Alfred Iing Yoong %X More than 50% of solar energy comes from the infrared region (as radiant heat) of the solar spectrum. Electrochromic (EC) materials, which can dynamically modulate the transmittance of infrared (IR) radiation, can be effectively applied in smart windows for thermal management in buildings. In this work, a core-shell TiO2-WO3 inverse opal (IO) structure was fabricated through the electrodeposition of WO3 onto TiO2 IO templates. The TiO2 IO templates were synthesized by introducing TiO2 into the voids of a polystyrene (PS) colloidal crystal template, followed by calcination to remove the PS microspheres. It was found that the TiO2-WO3 IO core-shell structure can modulate NIR transmittance at wavelengths from 700 to 1600 nm in the NIR range when potential is applied in LiClO4/PC electrolyte. When -0.3 V is applied, up to 60% of NIR radiation in this range can be blocked. The NIR transmittance can be modulated by tuning the applied potential. This study focuses on comparing the novel TiO2-WO3 IO structure with electrodeposited WO3 thin film to fully elucidate the effect of the inverse opal morphology and the TiO2-WO3 hybrid system on the optical properties. Results show that the NIR blockage can be sustained up to 90% after 1200 reversible cycles for TiO2-WO3 IO structure. The greater surface area of the IO structure increases the number of active sites available for the redox reactions by providing a larger contact area with the electrolyte. The more electroactive area with improved charge transfer enhances the overall NIR transmittance contrast as compared to bulk WO3 thin film. Furthermore, the addition of WO3 to TiO2 to form a composite has been shown to enhance cycling performance and device lifespan. %B JOURNAL OF MATERIALS CHEMISTRY C %V 6 %P 8488-8494 %8 AUG 21 %G eng %N 31 %R 10.1039/c8tc01954a %0 Journal Article %J NANOSCALE %D 2018 %T Core-shell nanoparticles for gas phase detection based on silver nanospheres coated with a thin molecularly imprinted polymer adsorbed on a chemiresistor %A Shahar, Tehila %A Feldheim, Gil %A Marx, Sharon %A Mandler, Daniel %X We present a novel gas phase detection prototype based on assembling core-shell nanospheres made of a silver core and coated with a molecularly imprinted polymer (MIP) adsorbed onto an interdigitated array (IDA) electrode chemiresistor (CR). The core-shell nanospheres, AgNP@MIPs, were imprinted with linalool, a volatile terpene alcohol, as a model system. The thickness of the MIP layer was tuned to a few nanometers to enable the facile ingress and egress of the linalool, as well as to enhance the electrical transduction through the Ag core. The AgNP@MIPs were spread onto the IDA-CR modified with various positively charged polymers, by drop casting and dip-coating. The AgNP@MIPs were characterized by various techniques such as extra high-resolution scanning and tunnelling electron microscopy and X-ray diffraction. The MIP recognition event was transduced into a measurable increase in the resistance. The response to linalool exposure and removal was fast and the device was fully recovered and could be reused. Finally, the difference in the resistance change between imprinted and non-imprinted nanospheres was substantial. %B NANOSCALE %V 10 %P 17593-17602 %8 OCT 7 %G eng %N 37 %R 10.1039/c8nr01437j %0 Journal Article %J ANALYTICA CHIMICA ACTA %D 2018 %T Electrochemical detection of dopamine by a calixarene-cellulose acetate mixed Langmuir-Blodgett monolayer %A Xu, Yujuan %A Hao, Qingli %A Mandler, Daniel %X The sensing performance of a Langmuir-Blodgett monolayer was significantly improved by controlling the film organization at the air-water interface. Cellulose acetate (CA) and 4-tert-butylcalix [6] arene (calix) were co-spread and formed a Langmuir film, which was efficiently transferred onto a preoxidized gold electrode, Au-ox. The modified gold electrode was applied as a fast, highly sensitive electrochemical sensing platform for the quantitative determination of a model molecule, dopamine (DA). The modified gold electrode, CA-calix/Au-ox, demonstrated better recognition and sensing ability towards dopamine as compared with electrodes modified by a single component. Under the optimized conditions, the reduction peak currents at the CA-calix/Au-ox increased linearly within the concentration range of dopamine from 5 to 100 and 100-7500 nM, and exhibited a very low limit of detection (LOD) of 2.54 nM (S/N = 3). These results suggest a simple, superior and efficient approach for the controllable rearrangement of Langmuir-Blodgett monolayers on a molecular level. The electroanalytical performance was optimized from the perspective of the electrode-electrolyte interface. (C 2018 Elsevier B.V. All rights reserved. %B ANALYTICA CHIMICA ACTA %V 1042 %P 29-36 %8 DEC 26 %G eng %R 10.1016/j.aca.2018.08.019 %0 Journal Article %J ACS APPLIED NANO MATERIALS %D 2018 %T Electrochemically Deposited Sol-Gel Based Nanoparticle-Imprinted Matrices for the Size-Selective Detection of Gold Nanoparticles %A Bruchiel-Spanier, Netta %A Giordano, Gianmarco %A Vakahi, Atzmon %A Guglielmi, Massimo %A Mandler, Daniel %X Nanoparticles imprinted matrices (NAIMs) is a new approach, in which nanoparticles (NPs) are imprinted in a matrix followed by their removal to form highly selective voids that can recognize the original NPs. In this study, the effect of a sol-gel matrix on the imprinting and reuptake of gold nanoparticles (AuNPs) is examined. Specifically, indium tin oxide (ITO) films were modified with a positively charged polymer, on which the negatively charged AuNPs stabilized with citrate (AuNPs-cit) were adsorbed. This was followed by the electrochemical deposition of sol-gel matrices with different thicknesses and functional groups onto the ITO/AuNPs-cit. Electrochemical oxidation dissolved the AuNPs-cit and formed cavities in the sol-gel films, which fit both the size and shape of the AuNPs-cit. Reuptake of these NPs from an aqueous solution was successful using the imprinted films, whereas the non-imprinted films did not re-uptake the AuNPs-cit. Furthermore, the thickness of the sol-gel layers as well as the type of the silanes that were deposited play an important role on the recognition ability of the NAIM. Finally, we found that the NAIMs are selective, and larger AuNPs-cit were not recognized by the imprinted matrix. %B ACS APPLIED NANO MATERIALS %V 1 %P 5612-5619 %8 OCT %G eng %N 10 %R 10.1021/acsanm.8b01215 %0 Journal Article %J PHYSICAL CHEMISTRY CHEMICAL PHYSICS %D 2018 %T The role of hydrophobic, aromatic and electrostatic interactions between amino acid residues and a titanium dioxide surface %A Leader, Avia %A Mandler, Daniel %A Reches, Meital %X Understanding the nature of interactions between inorganic surfaces and biomolecules, such as amino acids and peptides, can enhance the development of new materials. Here, we present single molecule force spectroscopy (SMFS) measurements of the interactions between an atomic force microscopy (AFM) probe, modified with various amino acids, and a titanium dioxide surface. Specifically, we study the affinity of amino acids toward a titanium dioxide surface bearing hydrophobic (Leu), aromatic (Phe) and hydrophilic (Orn) residues. We find that aromatic interactions dominate over aliphatic in their affinity to the titanium dioxide surface. In addition, we show that by combining aromatic and hydrophilic moieties in a single amino acid (NH2-Phe), the adhesion of the latter to the surface increases. Furthermore, the affinity of positively charged amino acids to the titanium dioxide surface is higher than that of uncharged, and can be increased more, with elevating the pH of the buffer above the pK(a) of the basic residues. The kinetic and thermodynamic parameters imply that the dynamics of the surface-amino acid interface are mostly governed by hydrophobic interactions. %B PHYSICAL CHEMISTRY CHEMICAL PHYSICS %V 20 %P 29811-29816 %8 DEC 21 %G eng %N 47 %R 10.1039/c8cp05775c %0 Journal Article %J ELECTROCHIMICA ACTA %D 2018 %T A high-performance electrochemical sensor based on g-C3N4-E-PEDOT for the determination of acetaminophen %A Xu, Yujuan %A Lei, Wu %A Su, Juan %A Hu, Jinjin %A Yu, Xiaodan %A Zhou, Tong %A Yang, Yun %A Mandler, Daniel %A Hao, Qingli %X A fast, ultrasensitive electrochemical sensing platform based on graphitic carbon nitride-electrochemically deposited-poly(3,4-ethylenedioxythiophene) (g-C3N4-E-PEDOT) composite was constructed by in-situ electropolymerization and applied for the quantitative determination of acetaminophen (AP). E-PEDOT was introduced as the conducting matrix for developing g-C3N4 composite to complement the poor conductivity disadvantage of g-C3N4. The strong affinity and synergetic effect between g-C3N4 and E-PEDOT, which were analyzed by PM6 computational calculation, highly improved the electron transfer property and remarkably enhanced the electrochemical catalytic activity of the composite. The g-C3N4-E-PEDOT modified glassy carbon electrode (GCE) demonstrated better electrocatalytic activity towards the oxidation of AP than bare, g-C3N4 and E-PEDOT modified ones. Under the optimized conditions, the oxidation peak currents at the g-C3N4-E-PEDOT/GCE increased linearly in the concentration range of AP from 0.01 to 2 mu M and 2-100 mu M, and an ultra-low limit of detection (LOD) of 34.28 nM was obtained (S/N = 3). In addition, the g-C3N4-E-PEDOT/GCE was successfully applied for the AP determination in the clinical human serum, and also exhibited excellent selectivity, reproducibility and stability. Except the novel AP determination approach, moreover, this work provided a new electrochemical application angle of graphitic carbon nitride theoretically as well as experimentally. (C) 2017 Elsevier Ltd. All rights reserved. %B ELECTROCHIMICA ACTA %V 259 %P 994-1003 %8 JAN 1 %G eng %R 10.1016/j.electacta.2017.11.034 %0 Journal Article %J JOURNAL OF ALLOYS AND COMPOUNDS %D 2018 %T Index-tunable anti-reflection coatings: Maximizing solar modulation ability for vanadium dioxide-based smart thermochromic glazing %A Liu, Chang %A Wang, Shancheng %A Zhou, Yang %A Yang, Haibo %A Lu, Qi %A Mandler, Daniel %A Magdassi, Shlomo %A Tay, Chor Yong %A Long, Yi %X Vanadium dioxide (VO2) nanoparticles with reversible semiconductor-metal phase transition holds the tremendous potential as a thermochromic material for the energy-saving smart glazing. However, the trade-off between improving the luminous transmittance (T-lum) while sacrificing the solar modulation ability (Delta T-sol) hampers its bench-to-market translation. Previous studies of anti-reflection coatings (ARCs) focused primarily on increasing Tlum while neglecting DTsol, which is a key energy-saving determinant. The intrinsically low Delta T-sol (< 16%) is due to the fact that VO2 has a higher refractive index (RI) from 500 nm to 2200 nm wavelength (lambda) below its critical transition temperature (tau(c)), which causes excessive reflection at a lower temperature. This study aims to investigate ARCs with tunable RI (1.47-1.92 at lambda = 550 nm) to improve the antireflection effect at a lower temperature, thereby maximizing Delta T-sol for various VO2 nanosubstrates, e.g. continuous thin films, nanocomposites, and periodic micro-patterning films. We showed that the best performing coatings could maximize Delta T-sol (from 15.7% to 18.9%) and increase T-lum(avg) (from 39% to 44%) simultaneously, which surpasses the current benchmark specifications ever reported for ARC-coated VO2 smart glazing. In addition, the cytotoxicity analyses evidence that ARCs are feasible to improve the cyto-compatibility of VO2 nanoparticles-based nanocomposites. The presented RI-tunable ARC, which circumvents the complex materials selection and optical design, not only paves the way for practical applications of VO2-based smart windows but also has extensive applications in the field of solar cells, optical lenses, smart display, etc. (C) 2017 Elsevier B.V. All rights reserved. %B JOURNAL OF ALLOYS AND COMPOUNDS %V 731 %P 1197-1207 %8 JAN 15 %G eng %R 10.1016/j.jallcom.2017.10.045