Tiva Sharifi
Overview
Explore the profile of Tiva Sharifi including associated specialties, affiliations and a list of published articles.
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Snapshot
Articles
15
Citations
125
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0
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Recent Articles
1.
Sandstrom R, Ekspong J, Annamalai A, Sharifi T, Klechikov A, Wagberg T
RSC Adv
. 2022 May;
8(72):41566-41574.
PMID: 35559311
Improving interfacial contact between each component in the proton exchange membrane fuel cell (PEMFC) can lead to a significant increase in power density and Pt utilization. In this work, the...
2.
Yadav T, Woellner C, Sharifi T, Sinha S, Qu L, Apte A, et al.
ACS Nano
. 2020 May;
14(6):7435-7443.
PMID: 32469491
Atomically thin metallic alloys are receiving increased attention due to their prospective applications as interconnects/contacts in two-dimensional (2D) circuits, sensors, and catalysts, among others. In this work, we demonstrate an...
3.
Swaminathan J, Puthirath A, Sahoo M, Nayak S, Costin G, Vajtai R, et al.
ACS Appl Mater Interfaces
. 2019 Oct;
11(43):39706-39714.
PMID: 31595745
To gain constructive insight into the possible effect of doping on the electrocatalytic activity of materials, a catalytic framework with a discrete distribution of dopants is an appropriate model system....
4.
Wu J, Sharifi T, Gao Y, Zhang T, Ajayan P
Adv Mater
. 2018 Dec;
31(13):e1804257.
PMID: 30589109
The electrocatalytic reduction of CO provides a sustainable way to mitigate CO emissions, as well as store intermittent electrical energy into chemicals. However, its slow kinetics and the lack of...
5.
Sharifi T, Zhang X, Costin G, Yazdi S, Woellner C, Liu Y, et al.
Nano Lett
. 2017 Nov;
17(12):7908-7913.
PMID: 29116809
We show that thermoelectric materials can function as electrocatalysts and use thermoelectric voltage generated to initiate and boost electrocatalytic reactions. The electrocatalytic activity is promoted by the use of nanostructured...
6.
Pham T, Sharifi T, Sandstrom R, Siljebo W, Shchukarev A, Kordas K, et al.
Sci Rep
. 2017 Jul;
7(1):6112.
PMID: 28733585
Herein we report a 3D heterostructure comprising a hierarchical macroporous carbon foam that incorporates mesoporous carbon nanotubes decorated with cobalt oxide nanoparticles as an unique and highly efficient electrode material...
7.
Sharifi T, Gracia-Espino E, Jia X, Sandstrom R, Wagberg T
ACS Appl Mater Interfaces
. 2015 Dec;
7(51):28148-55.
PMID: 26629887
We report efficient electrolysis of both water-splitting half reactions in the same medium by a bifunctional 3D electrode comprising Co3O4 nanospheres nucleated on the surface of nitrogen-doped carbon nanotubes (NCNTs)...
8.
Gracia-Espino E, Barzegar H, Sharifi T, Yan A, Zettl A, Wagberg T
ACS Nano
. 2015 Sep;
9(10):10516-22.
PMID: 26381227
One-dimensional (1D) zigzag [6,6]-phenyl-C61-butyric acid methyl ester (PCBM) nanoribbons are produced by folding two-dimensional ultrathin PCBM nanosheets in a simple solvent process. The unique 1D PCBM nanostructures exhibit uniform width...
9.
Klechikov A, Mercier G, Sharifi T, Baburin I, Seifert G, Talyzin A
Chem Commun (Camb)
. 2015 Sep;
51(83):15280-3.
PMID: 26335949
Using an optimized KOH activation procedure we prepared highly porous graphene scaffold materials with SSA values up to 3400 m(2) g(-1) and a pore volume up to 2.2 cm(3) g(-1),...
10.
Klechikov A, Yu J, Thomas D, Sharifi T, Talyzin A
Nanoscale
. 2015 Sep;
7(37):15374-84.
PMID: 26332400
The change of distance between individual graphene oxide sheets due to swelling is the key parameter to explain and predict permeation of multilayered graphene oxide (GO) membranes by various solvents...