about
Understanding oscillatory phenomena in molecular hydrogen generation via sodium borohydride hydrolysis.KNH2-KH: a metal amide-hydride solid solution.Melt-driven mechanochemical phase transformations in moderately exothermic powder mixtures.New amide-chloride phases in the Li-Al-N-H-Cl system: formation and hydrogen storage behaviour.Analysis of Polycaprolactone Microfibers as Biofilm Carriers for Biotechnologically Relevant BacteriaLocal Piezoelectric Behavior of Potassium Sodium Niobate Prepared by a Facile Synthesis via Water Soluble PrecursorsAdvanced Synthesis on Lead-Free Kx Na(1−x) NbO3 Piezoceramics for Medical Imaging ApplicationsInfluence of Three Commercial Graphene Derivatives on the Catalytic Properties of a Lactobacillus plantarum α-l-Rhamnosidase When Used as Immobilization MatricesIn Situ X-ray Diffraction Studies on the De/rehydrogenation Processes of the K2[Zn(NH2)4]-8LiH SystemA new potassium-based intermediate and its role in the desorption properties of the K–Mg–N–H systemA structural approach in the study of bones: fossil and burnt bones at nanosize scaleNi-, Pt- and (Ni/Pt)-doped TiO2 nanophotocatalysts: A smart approach for sustainable degradation of Rhodamine B dyeComparison of the thermochemical and mechanochemical transformations in the 2NaNH 2 –MgH 2 systemEvaluation of the anatase/rutile phase composition influence on the photocatalytic performances of mesoporous TiO2 powdersSorption properties and reversibility of Ti(IV) and Nb(V)-fluoride doped-Ca(BH4)2–MgH2 systemStructural evolution upon decomposition of the LiAlH4+LiBH4 systemEffect of the Partial Replacement of CaH2 with CaF2 in the Mixed System CaH2 + MgB2Hydrogen storage systems from waste Mg alloysAmmonia-free infiltration of NaBH4 into highly-ordered mesoporous silica and carbon matrices for hydrogen storageCa(BH4)2 + MgH2: Desorption Reaction and Role of Mg on Its ReversibilityChemical State, Distribution, and Role of Ti- and Nb-Based Additives on the Ca(BH4)2 SystemHighly ordered mesoporous magnesium niobate high-κ dielectric ceramic: synthesis, structural/mechanical characterization and thermal stabilityMechanochemical synthesis of NaBH4 starting from NaH–MgB2 reactive hydride composite systemHydrogen Sorption Performance of Mg–Ni–C–TiO 2 MixturesActivation of the reactive hydride composite 2NaBH4+MgH2Effect of Transition Metal Fluorides on the Sorption Properties and Reversible Formation of Ca(BH4)2Experimental Evidence of Ca[B12H12] Formation During Decomposition of a Ca(BH4)2 + MgH2 Based Reactive Hydride CompositeExperimental Evidence of Na2[B12H12] and Na Formation in the Desorption Pathway of the 2NaBH4+ MgH2SystemHydrogen sorption performance of MgH2 doped with mesoporous nickel- and cobalt-based oxidesStructure and Thermodynamic Properties of the NaMgH3Perovskite: A Comprehensive StudyThermodynamic and Kinetic Investigations on Pure and Doped NaBH4−MgH2 SystemCan Na2[B12H12] be a decomposition product of NaBH4?Effect of C (graphite) doping on the H2 sorption performance of the Mg–Ni storage systemMagnetic Measurements as a Sensitive Tool for Studying Dehydrogenation Processes in Hydrogen Storage MaterialsPressure Effect on the 2NaH + MgB2 Hydrogen Absorption ReactionSynergetic effect of C (graphite) and Nb2O5 on the H2 sorption properties of the Mg–MgH2 systemSynthesis of amorphous Mg(BH4)2 from MgB2 and H2 at room temperatureHydrogen desorption mechanism of 2NaBH4+MgH2 composite prepared by high-energy ball millingTheoretical Study on Molten Alkali Carbonate InterfacesInsights into the Rb–Mg–N–H System: an Ordered Mixed Amide/Imide Phase and a Disordered Amide/Hydride Solid Solution
P50
Q44097228-A4CEA242-5CF0-4486-9117-C4241F86A06DQ48054248-7E48489A-6215-4575-8DDF-DD389F63A907Q48266190-E1BD7D1C-4F3A-4A3F-9106-39A26011BDABQ53160005-5E8DAC27-05E5-474F-BF4A-B3396BA89FEDQ57578072-F710AFBA-E81B-4026-9E31-5B0DDA83F50FQ57578074-E40861E2-1D2C-442E-AD22-BD0541511942Q57578077-DA6B92A2-CA99-4234-BB41-048792CB5506Q57578081-1B886D2D-29E1-4F34-B6BD-EB08A044B686Q57578094-4A4DD47A-6FA8-4660-AE8D-313ED9A2848FQ57578102-8EF871AC-89F6-4C06-8CEB-892EDA926B02Q57578103-BF8B4B43-80FA-4F8F-9E70-9F667644F019Q57578108-C0DA8F18-0BD6-4BBC-AB52-80BB1CE31D16Q57578111-54E41A3E-EFFC-4B08-B48D-D235C5CCA1CEQ57578119-1DD27A1B-D095-4C66-A538-B87295F3EE76Q57578135-DDED7B99-5DBD-47B5-9409-B0687D3294A5Q57578139-D4F3263D-F665-4137-9D75-61C26028B580Q57578146-9F03CEAA-E04E-458D-B8F0-70FB65A576F9Q57578149-5EB9BA92-2416-4B3B-8454-0A6F58C7FD6BQ57578158-1DC9FB33-8294-463E-9025-CBEA0A2AE1E5Q57578160-74F0475E-C1D3-4044-9B94-3BDF3577684DQ57578161-69A1EF3F-4B49-4691-B71D-BA65CB598488Q57578163-241FEBA5-3C15-4873-9CAF-0469166C651CQ57578166-E7BDE567-7C55-49B2-91A5-2AE23162E6F1Q57578172-3D38DCCC-641B-405B-8CC1-10CDDBE83F19Q57578186-9D7B2B6F-10DD-4A8B-A172-75D76297534BQ57578189-9E36D014-18AE-4C27-B0A8-22E52D2E41DEQ57578193-CC2777CA-4F37-4EBE-8C00-5BEC6104A469Q57578196-4EC6845B-7175-433E-8A39-10FB63AB09F7Q57578198-EDF980D8-C9F9-485E-9FD9-A5BF13A4D5DCQ57578206-52E82BE5-8814-4722-8CC9-83D140C04808Q57578211-5F5EFC8A-30B3-4017-9A7F-99E20ECA75DAQ57578214-3C47D20F-A13C-47EA-84C9-76745C63B490Q57578216-5AEF3181-8231-4858-8D7E-43890F14E166Q57578220-7D1FC295-8577-4FF5-A85F-DB7BC28967AFQ57578222-29D747FE-4EA9-4E03-82BB-915FA75F9424Q57578225-AE0E33E3-A212-4A15-8021-C3B01DF6EB8DQ57578228-8995E771-CC24-430E-9783-026FFF4E36E7Q57578233-965B65F7-E8E7-4BEA-9596-F1DFAB825E24Q57966816-7C32BE11-C6DC-416E-A792-EC072299B62BQ58828312-3D7B42FB-9399-4E06-953A-AAD6E1F35290
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Sebastiano Garroni
@ast
Sebastiano Garroni
@en
Sebastiano Garroni
@es
Sebastiano Garroni
@nl
type
label
Sebastiano Garroni
@ast
Sebastiano Garroni
@en
Sebastiano Garroni
@es
Sebastiano Garroni
@nl
prefLabel
Sebastiano Garroni
@ast
Sebastiano Garroni
@en
Sebastiano Garroni
@es
Sebastiano Garroni
@nl
P1053
B-2877-2018
B-7530-2016
P106
P1153
19933372700
P31
P3829
P3835
sebastiano-garroni
P496
0000-0001-7686-6589