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Martin Pumera
Martin Pumera
Professor, Head of Future Energy & Innovation Lab, CEITEC Brno; Natl. Cntr. Industrial 3D printing
Verified email at ceitec.vutbr.cz - Homepage
Title
Cited by
Cited by
Year
Chemical reduction of graphene oxide: a synthetic chemistry viewpoint
CK Chua, M Pumera
Chemical Society Reviews 43 (1), 291-312, 2014
19392014
Graphene-based nanomaterials for energy storage
M Pumera
Energy & Environmental Science 4 (3), 668-674, 2011
14242011
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
13682010
Graphene-based nanomaterials and their electrochemistry
M Pumera
Chemical Society Reviews 39 (11), 4146-4157, 2010
12122010
Electrochemistry of graphene and related materials
A Ambrosi, CK Chua, A Bonanni, M Pumera
Chemical reviews 114 (14), 7150-7188, 2014
11742014
Graphene in biosensing
M Pumera
Materials today 14 (7-8), 308-315, 2011
9792011
3D-printing technologies for electrochemical applications
A Ambrosi, M Pumera
Chemical society reviews 45 (10), 2740-2755, 2016
9582016
Electrochemistry of nanostructured layered transition-metal dichalcogenides
X Chia, AYS Eng, A Ambrosi, SM Tan, M Pumera
Chemical reviews 115 (21), 11941-11966, 2015
7952015
Electrochemistry of graphene: new horizons for sensing and energy storage
M Pumera
The Chemical Record 9 (4), 211-223, 2009
7602009
New materials for electrochemical sensing VI: carbon nanotubes
A Merkoçi, M Pumera, X Llopis, B Pérez, M Del Valle, S Alegret
TrAC Trends in Analytical Chemistry 24 (9), 826-838, 2005
7252005
Fabrication of micro/nanoscale motors
H Wang, M Pumera
Chemical reviews 115 (16), 8704-8735, 2015
6602015
2D monoelemental arsenene, antimonene, and bismuthene: beyond black phosphorus
M Pumera, Z Sofer
Advanced Materials 29 (21), 1605299, 2017
6502017
Electrochemical nanobiosensors
M Pumera, S Sanchez, I Ichinose, J Tang
Sensors and Actuators B: Chemical 123 (2), 1195-1205, 2007
6412007
Characteristics and performance of two-dimensional materials for electrocatalysis
X Chia, M Pumera
Nature Catalysis 1 (12), 909-921, 2018
6342018
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
6272015
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
6242014
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
5282012
Magnetic control of tubular catalytic microbots for the transport, assembly, and delivery of micro‐objects
AA Solovev, S Sanchez, M Pumera, YF Mei, OG Schmidt
Advanced Functional Materials 20 (15), 2430-2435, 2010
4652010
Black phosphorus rediscovered: from bulk material to monolayers
R Gusmao, Z Sofer, M Pumera
Angewandte Chemie International Edition 56 (28), 8052-8072, 2017
4532017
The electrochemistry of carbon nanotubes: fundamentals and applications
M Pumera
Chemistry–A European Journal 15 (20), 4970-4978, 2009
4412009
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