Tuesday 27 July 2021

Elektrohemijska sekcija SHD 
organizuje predavanje

Stanko R. Branković

Cullen College of Engineering, University of Houston, Houston TX 77204-4005

Metal Deposition Assisted by UPD Monolayers-Fundamentals and Applications

ponedeljak, 11. februar 2019, Svečana sala TMF Beograd, Karnegijeva 4, III sprat

Preuzmite apstrakt i biografiju kao pdf dokument


Abstract

The improved understanding of nucleation and growth kinetics provides the base for design of new experimental approaches where the thin film growth is manipulated to enhance the evolution of atomically flat epitaxial overlayers. Following this progress, a new protocols for electrochemical thin film growth were developed which benefit from the Underpotentially Deposited Monolayers (UPD ML) serving as a surfactants (SMG), flux mediators (DMG) or sacrificial templates (SLRR) in deposition process of thin films. In these examples, the 2D growth is achieved by precise control of the electrode potential, electrodeposition sequence and/or solution chemistry which enable particular action/benefit of the UPD ML to be fully exploited in the growth process.

In the first part of the talk we briefly review fundamentals of the electrochemical thin film growth assisted by UPD ML. Our results and discussion are focused on examining the extendibility of UPD assisted growth approach. Results focus on for technologically relevant systems such as synthesis of Pt ML catalyst and growth of Cu/Ru(hklm) thin films. Fundamental relations between experimental conditions and resulting morphology of Pt ML catalyst are reviewed as well as the results demonstrating that 2D growth of Cu on Ru can be radially achieved using UPD assisted electrodeposition methods.

In the second part of the talk we demonstrate a new phenomenon of electroless (e-less) Pb ML deposition. The application of this phenomenon is demonstrated through the example of improved morphology and magnetic properties of e-lessly deposited Co overlayers on Cu assisted by e-lessly deposited Pb ML serving as surfactant. The phenomenon of e-less UPD-like ML deposition as a prelude for e-less atomic layer deposition (E-less ALD) are discussed as well using the example of Pt ML catalyst synthesis and growth of Pt films on Cu substrate.

 

Apstrakt

Dobro poznavanje kinetike nukleacije i rasta pri elektrohemjskom taloženju metala predstavlja osnovu za dizajniranje novih eksperimentalnih pristupa taloženju tankih filmova sa izraženom strukturom atomski ravnih epitaksijalnih slojeva. U tom cilju razvijeni su novi elektrohemijski postupci rasta tankih filmova primenom potpotencijalnog taloženja monoslojeva koji služe kao surfaktanti, medijatori fluksa ili žrtvujuće strukture. Dvodimenzioni rast filma se postiže preciznom kontrolom elektrodnog potencijala, redosledom taloženja i/ili hemijskim sastavom rastvora, što doprinosi tome da monosloj metala istaloženog na potpotencijalu bude u potpunosti iskorišćen u procesu rasta filma.

Prvi deo predavanja posvećen je kratkom pregledu elektrohemijskog taloženja tankih filmova potpomognutog prethodno formiranim monoslojem na potpotencijalima. Rezultati i diskusija su fokusirani na ispitivanje mogućnosti proširenja primene ove metode taloženja metala i to prvenstveno u tehnološki značajnim procesima kao što su sinteza monoslojeva platine kao katalizatora i rast tankih filmova bakar/rutenijum(hkml). Dat je pregled osnovnih relacija između eksperimentalnih uslova i dobijene morfologije katalizatora platine, kao i rezultata koji pokazuju da se dvodimenzioni rast bakra na rutenijumu može lako ostvariti primenom pomenute metode.

Drugi deo predavanja odnosi se na novi fenomen spontanog taloženja monosloja olova. Primena ovog fenomena pokazana je kroz primer poboljšanja morfologije i magnetnih karakteritika spontano taložene prevlake Co na Cu potpomognute spontano taloženim monoslojem olova koji služi kao surfaktant. Fenomen spontanog taloženja monosloja, sličnog onom taloženom na potpotencijalima, koji služi kao priprema za spontano taloženje atomskih slojeva, razmatran je takođe i na primeru sinteze monosloja Pt kao katalizatora i rasta Pt filmova na Cu podlozi.


Curriculum Vitae

sbStanko R. Brankovic is professor at the Cullen College of Engineering, University of Houston. He obtained B.E. in Chemical and Biochemical Engineering in 1994 (University of Belgrade) and Ph.D. in Science and Engineering of Materials in 1999 (Arizona State University). Before joining the University of Houston in 2005, he spent two years as postdoctoral researcher at Brookhaven National Laboratory (1999-2001) and four years as a research staff member at the Seagate Research Center in Pittsburgh (2001-2005).

Dr. Brankovic currently serves as the Chair of the Electrodeposition Division. He also served as the chair of Electrochemical Material Science Division of the International Society of Electrochemistry (2015-2017). His work has been acknowledged by University of Houston Research and Excellence Award (2010) and National Science Foundation Faculty Early Career Development Award (2010). He is also recipient of the 2017 Electrodeposition Research Award of the Electrochemical Society and 2018 AlChE Award for the Best Fundamental Paper. More information about Dr. Brankovic's group and research interests are available at: http://ecnfg.ece.uh.edu.

 

 

Biografija

Stanko R. Branković je redovni profesor Univerziteta u Hjustonu, Cullen College of Engineering. Na Univerzitetu u Beogradu stekao je zvanje diplomiranog inženjera hemijskog i biohemijskog inženjerstva 1994. godine, a 1999. godine zvanje doktora nauka na Arizona State University u oblasti inženjerstva materijala. Pre dolaska na Univerzitet u Hjustonu dve godine proveo je u Nacionalnoj laboratoriji u Brukhejvenu kao post-doktorand (1999-2001), i četiri godine kao istraživač u Seagate Research centru u Pitsburgu (2001-2005).

Prof. Branković je trenutno predsednik Odeljenja za elektrodepoziciju u okviru Međunarodnog elektrohemijskog društva (ISE), a bio je i predsednik Odeljenja za nauku o materijalima (2015-2017). Za svoj rad dobio je nagradu Research and Excellence Award 2010. g. od strane Univerziteta u Hjustonu, kao i nagradu National Science Foundation Faculty Early Career Development Award (2010). Takođe je dobitnik nagrade Electrodeposition research Award (2017) elektrohemijskog društva (ECS) i nagrade Best Fundamental Paper AlChE Award 2018. Više informacija o grupi i oblasti istraživanja dr Brankovića dostupno je na linku http://ecnfg.ece.uh.edu.

best Running shoes brand | BAPE adidas Superstar Green Camo GZ8981 Release Date - SBD

Вести : : News

  • CoverEV 2021 V86 No6 400
    Vol 86 No 6 was published

    IF 2020 1.240


    New Articles OLF

    Solid-liquid phase equilibria in the ternary systems H2O+ZnCl2+NaCl at temperatures of 298, 313 and 333 K
    Sevilay Demirci, Vedat Adıgüzel, Omer Sahin
    10682 Graphical Abstract

    Structural stability of biofilms produced from silkworm cocoon fibers
    Ana Lúcia de Souza Madureira Felício, Henrique de Santana
    10850 Graphical Abstract 71586 1 2 20210611 1


     
  • Списак активних чланова Друштва 
    је ажуриран 9. марта 2021

    Списак чланова са плаћеном чланарином за 2021.
    је ажуриран 5. јула 2021.

     

     
  • 57shd720

    Имена добитника признања и награда додељених на 57. Саветовању Српског хемијског друштва налази се ОВДЕ.

     
  • Websites posts 900 x 5633 900x563

    2021 DAC-EuChemS
    Lectures Awardees webinar

    četvrtak. 16. septembar 2021. 
    11:00- 13.30 časova

    detaljnije...

    Sport media | Autres  
  • logo 300x263
    4
    th International Meeting on Materials Science for Energy Related Applications
    ONLINE MEETING - 22-23 September 2021

    No Registration Fee

    Детањније..  Read more....

    Running Sneakers Store | Buy Yeezy Slides 'Core' - Kanye West x Adidas — Ietp  
  • Green sample prep

    Студијска група и мрежа за припрему узорака EuChemS-DAC

    Члан се постаје лако, а чланство је бесплатно.

    Детањније...

    best shoes | Women's Nike Air Force 1 Shadow trainers - Latest Releases , Ietp  
  • Logo YUCOMAT 2021

    22nd Conference on Material Science
    Herceg Novi, Montenegro
    August 30 - September 3, 2021

    detaljnije...

     
    jordan release date | New Balance 530 Til Kvinder, hvid - MR530SG  
  • 16th International Symposium on Applied Bioinorganic Chemistry
    Ioannina- Greece, June 6-10, 2021
    ОДЛОЖЕНО ЗА 2023.

     

     
    Asics footwear | Air Jordan 1 Retro High OG "UNC Patent" Obsidian/Blue Chill-White For Sale – Fitforhealth