Adriano Ambrosi, PhD
Adriano Ambrosi, PhD
College of Chemistry and Molecular Engineering, Qingdao University of Science and Technology
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Cited by
Cited by
Graphene for electrochemical sensing and biosensing
M Pumera, A Ambrosi, A Bonanni, ELK Chng, HL Poh
TrAC Trends in Analytical Chemistry 29 (9), 954-965, 2010
Electrochemistry of graphene and related materials
A Ambrosi, CK Chua, A Bonanni, M Pumera
Chemical reviews 114 (14), 7150-7188, 2014
3D-printing technologies for electrochemical applications
A Ambrosi, M Pumera
Chemical society reviews 45 (10), 2740-2755, 2016
Electrochemistry of nanostructured layered transition-metal dichalcogenides
X Chia, AYS Eng, A Ambrosi, SM Tan, M Pumera
Chemical reviews 115 (21), 11941-11966, 2015
Layered transition metal dichalcogenides for electrochemical energy generation and storage
M Pumera, Z Sofer, A Ambrosi
Journal of Materials Chemistry A 2 (24), 8981-8987, 2014
2H→ 1T phase transition and hydrogen evolution activity of MoS 2, MoSe 2, WS 2 and WSe 2 strongly depends on the MX 2 composition
A Ambrosi, Z Sofer, M Pumera
Chemical Communications 51 (40), 8450-8453, 2015
Graphenes prepared by Staudenmaier, Hofmann and Hummers methods with consequent thermal exfoliation exhibit very different electrochemical properties
HL Poh, F Šaněk, A Ambrosi, G Zhao, Z Sofer, M Pumera
Nanoscale 4 (11), 3515-3522, 2012
Graphene and its electrochemistry–an update
A Ambrosi, CK Chua, NM Latiff, AH Loo, CHA Wong, AYS Eng, A Bonanni, ...
Chemical Society Reviews 45 (9), 2458-2493, 2016
Enhanced gold nanoparticle based ELISA for a breast cancer biomarker
A Ambrosi, F Airo, A Merkoši
Analytical chemistry 82 (3), 1151-1156, 2010
“Metal‐free” catalytic oxygen reduction reaction on heteroatom‐doped graphene is caused by trace metal impurities
L Wang, A Ambrosi, M Pumera
Angewandte Chemie 125 (51), 14063-14066, 2013
Double-codified gold nanolabels for enhanced immunoanalysis
A Ambrosi, MT Casta˝eda, AJ Killard, MR Smyth, S Alegret, A Merkoši
Analytical Chemistry 79 (14), 5232-5240, 2007
Electrochemistry at chemically modified graphenes
A Ambrosi, A Bonanni, Z Sofer, JS Cross, M Pumera
Chemistry–A European Journal 17 (38), 10763-10770, 2011
Electrochemistry of transition metal dichalcogenides: strong dependence on the metal-to-chalcogen composition and exfoliation method
AYS Eng, A Ambrosi, Z Sofer, P Simek, M Pumera
Acs Nano 8 (12), 12185-12198, 2014
Electrochemically exfoliated graphene and graphene oxide for energy storage and electrochemistry applications
A Ambrosi, M Pumera
Chemistry–A European Journal 22 (1), 153-159, 2016
Lithium Intercalation Compound Dramatically Influences the Electrochemical Properties of Exfoliated MoS2
A Ambrosi, Z Sofer, M Pumera
Small 11 (5), 605-612, 2015
Electrochemical exfoliation of layered black phosphorus into phosphorene
A Ambrosi, Z Sofer, M Pumera
Angewandte Chemie International Edition 56 (35), 10443-10445, 2017
Layered Platinum Dichalcogenides (PtS2, PtSe2, and PtTe2) Electrocatalysis: Monotonic Dependence on the Chalcogen Size
X Chia, A Adriano, P Lazar, Z Sofer, J Luxa, M Pumera
Advanced Functional Materials 26 (24), 4306-4318, 2016
Noble metal (Pd, Ru, Rh, Pt, Au, Ag) doped graphene hybrids for electrocatalysis
M Giovanni, HL Poh, A Ambrosi, G Zhao, Z Sofer, F Šaněk, B Khezri, ...
Nanoscale 4 (16), 5002-5008, 2012
Electrocatalysis of layered Group 5 metallic transition metal dichalcogenides (MX 2, M= V, Nb, and Ta; X= S, Se, and Te)
X Chia, A Ambrosi, P Lazar, Z Sofer, M Pumera
Journal of materials chemistry A 4 (37), 14241-14253, 2016
Chemically reduced graphene contains inherent metallic impurities present in parent natural and synthetic graphite
A Ambrosi, CK Chua, B Khezri, Z Sofer, RD Webster, M Pumera
Proceedings of the National Academy of Sciences 109 (32), 12899-12904, 2012
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