Dominko, Robert
Robert Dominko researcher
VIAF ID: 114150565601106250689 ( Personal )
Permalink: http://viaf.org/viaf/114150565601106250689
Preferred Forms
- 100 1 _ ‡a Dominko, Robert
- 100 1 _ ‡a Dominko, Robert
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- 100 0 _ ‡a Robert Dominko ‡c researcher
4xx's: Alternate Name Forms (4)
Works
Title | Sources |
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Ab initio modelling of solvated Mg [sup] 2+ at Mg electrode | |
Analytical tool for organic batteries : in-operando ATR-IR spectroscopy | |
Can we control polysulfide formation and migration? | |
Challenges, possibilities and drawbacks of Li[sub]2MSiO[sub]4 cathode materials | |
Combined SXPS and SXAS study of the electrochemical intercalation reaction of Li2NiTiO4 cathodes | |
Cyclodextrin : a versatile supramolecular tool to extend lithium-based batteries lifespan : a versatile supramolecular tool to extend lithium-based batteries lifespan. | |
Designing of electrode properties in Li ion batteries by surface modification using polyelectrolytes : [plenary lecture] | |
Disordered Li[sub]2MTiO[sub]4 (M=Fe, Mn, Ni) cathode materials | |
Effect of salts on the electrochemical performance of Mg metal-organic battery | |
Élaboration de nouveaux matériaux à base de sulfates pour l'électrode positive des batteries à ions Li et Na | |
Electrochemical activity of Li2FeTiO4 and Li2MnTiO4 as potential active materials for Li ion batteries | |
Electrochemical behavior of Li[sub]2FeSiO[sub]4 with ionic liquids at elevated temperature | |
Electrochemically prepared LixMoS2 nanotubes | |
Exfoliated MoS[sub]2 nanotubes | |
Fluorinated ether based electrolyte for high-energy lithium-sulfur batteries Li [sup] + solvation role behind reduced polysulfide solubility | |
Frekvenca X | |
Gelatin-modified surfaces in selected electronic components | |
Impact of synthesis conditions on the structure and performance of Li2FeSiO4 | |
In situ XANES and EXAFS Study of Li2-xNiTiO4 cathode material for Li-ion batteries | |
Insertion cathode materials based on borate compounds | |
Is small particle size more important than carbon coating? An example study on LiFePO4 cathodes | |
Kje so meje zmogljivosti baterij? | |
LiMn2O4 composites for higher power Li-ion batteries | |
Li[sub]2MnSiO[sub]4 as a potential Li-battery cathode material | |
Magnetic properties of MoS [sub] 2 nanotubes doped with lithium | |
The mechanism of Li [sub] 2S activation in lithium-sulfur batteries : can we avoid the polysulfide formation? | |
Mechanisms leading to formation of high-performance porous, carbon-painted LiFePO[sub]4 and other cathode materials : [oral presentation] | |
Modèles mathématiques pour la compréhension des phénomènes des batteries lithium-soufre. | |
Multivalent batteries alternative path of development through application of organic cathodes | |
Napredni elektroliti za kalcijeve akumulatorje | |
Physical properties of intercalated inorganic nanotubes | |
Polymorphs of Li2MnSiO4. The role of pressure | |
Porous, carbon-decorated LiFePO[sub]4 prepared by sol-gel method based on citric acid | |
Porous olivin composites synthesized by sol-gel technique : [poster] | |
Printed cathode of rechargeable lithium-ion battery | |
Printing cathodes in secondary lithium batteries with screen printing | |
Razvoj katodnega kompozita za AS baterije : končno poročilo | |
Razvoj ogljikovih in baterijskih tehnologij Center za brezogljične tehnologije v Zasavju, Oddaja Znanost in tehnologija, TV Slovenija, 8.9.2022 | |
Reciklaža Li-ion akumulatorjev na osnovi NMC katod : magistrsko delo | |
Redox-active functionalized graphene nanoribbons as electrode material for Li-ion batteries | |
Reversible lithium insertion into A[sub]2Ti[sub]6O[sub](13) structures (A=Li, Na, K) | |
A roadmap for transforming research to invent the batteries of the future designed within the European large scale research initiative BATTERY 2030+ | |
The role of binders in insertion anodes | |
The role of carbon black distribution in cathodes for Li ion batteries | |
Routes towards very-high-rate Li ion insertion cathodes | |
RuO[sub]2-wired nanoparticulate anatase TiO[sub]2 : suppression of particle growth using silica | |
Spin-out of National Institute of Chemistry | |
Stabilized organic molecules as electrode material | |
The strongly correlated 1D spin state in Li-doped Mo-S nanotubes | |
Structural and electrochemical characterisation of lithiated vanadium titanates "LixVTiO4" | |
Študij vpliva izbranih procesov in parametrov na notranjo upornost litij-žveplovih akumulatorjev | |
Sulfur based batteries studied by in-operando S K-edge RIXS and XAS spectroscopy | |
Sulfur valence-to-core X-ray emission spectroscopy study of lithium sulfur batteries | |
[sup]6Li MAS NMR spectroscopy of Li[sub]2MnSiO[sub]4 polymorphs | |
Sven_slo_bat : a swedish-slovenian nanomaterilas battery network : final report | |
Synthèse et étude électrochimique de matériaux silicates utilisés en tant qu'électrode positive pour les accumulateurs Li-Ion | |
Synthesis, structure and magnetic properties of iron-oxide nanowires | |
TFSI-based ionic liquids for the Li-ion batteries operating at elevated temperature | |
Transmission line model impedance analysis of lithium sulfur batteries influence of lithium sulfide deposit formed during discharge and self-discharge | |
Uporaba elektrokemijske impedančne spektroskopije za razločitev impedančnih prispevkov reakcije prenosa naboja in desolvatacije za Li kovinsko anodo : diplomsko delo | |
Utilisations de la cyclodextrine pour prolonger la durée de vie des batteries au lithium | |
Viable rechargeable Mg - organic batteries | |
Vpliv aditivov v žveplovo elektrodo na delovanje magnezijevega akumulatorja : diplomsko delo : visokošolski študijski program 1. stopnje Kemijska tehnologija | |
Vpliv različnih parametrov na kinetiko magnezij organskega akumulatorja : diplomsko delo | |
Vpliv sestave elektrolita na elektrokemijsko delovanje negrafitiziranega ogljika v Na-ion akumulatorju : diplomsko delo | |
Vpliv uporabe različnih Mg elektrolitov na delovanje Mg kovinske anode : magistrsko delo | |
Vpliv veziv na tiskanje in delovanje litij žveplovih baterij : magistrsko delo = Impact of binders on printing and performance of lithium sulfur batteries : masterʼs thesis | |
Which process limits the operation of a Li-S system? | |
Wired porous cathode materials: a novel concept for synthesis of LiFePO4 | |
Začeta raziskovalna avantura baterij prihodnosti intervju v oddaji Pogled v znanost, Radio Slovenija, tretji program (ARS), 4. 3. 2019 | |
Zbornik radova |