Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films for enhanced water electrolysis
Abstract Structure–activity relationships built on descriptors of bulk and bulk-terminated
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …
[PDF][PDF] Tuning electrochemically-driven surface transformation in atomically-flat LaNiO3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin, HP Martins… - publications.rwth-aachen.de
Structure-activity relationships built on descriptors of bulk and bulk-terminated surfaces are
the basis for the rational design of electrocatalysts. However, electrochemically-driven …
the basis for the rational design of electrocatalysts. However, electrochemically-driven …
[PDF][PDF] Tuning electrochemically-driven surface transformation in atomically-flat LaNiO3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin, HP Martins… - juser.fz-juelich.de
ABSTRACT 1 Structure-activity relationships built on descriptors of bulk and bulk-terminated
surfaces are 2 the basis for the rational design of electrocatalysts. However …
surfaces are 2 the basis for the rational design of electrocatalysts. However …
Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin, HP Martins… - Nature Materials, 2021 - lup.lub.lu.se
Structure–activity relationships built on descriptors of bulk and bulk-terminated surfaces are
the basis for the rational design of electrocatalysts. However, electrochemically driven …
the basis for the rational design of electrocatalysts. However, electrochemically driven …
[引用][C] Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin, HP Martins… - Nature Materials, 2021 - cir.nii.ac.jp
Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films
for enhanced water electrolysis | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …
for enhanced water electrolysis | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …
Tuning electrochemically driven surface transformation in atomically flat LaNiO 3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin… - Nature …, 2021 - research.utwente.nl
Abstract Structure–activity relationships built on descriptors of bulk and bulk-terminated
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …
Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films for enhanced water electrolysis.
C Baeumer, J Li, Q Lu, AY Liang, L Jin, HP Martins… - Nature …, 2021 - europepmc.org
Structure-activity relationships built on descriptors of bulk and bulk-terminated surfaces are
the basis for the rational design of electrocatalysts. However, electrochemically driven …
the basis for the rational design of electrocatalysts. However, electrochemically driven …
Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin… - Nature …, 2021 - pubmed.ncbi.nlm.nih.gov
Structure-activity relationships built on descriptors of bulk and bulk-terminated surfaces are
the basis for the rational design of electrocatalysts. However, electrochemically driven …
the basis for the rational design of electrocatalysts. However, electrochemically driven …
Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin… - Nature …, 2021 - ui.adsabs.harvard.edu
Abstract Structure-activity relationships built on descriptors of bulk and bulk-terminated
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …
Tuning electrochemically driven surface transformation in atomically flat LaNiO3 thin films for enhanced water electrolysis
C Baeumer, J Li, Q Lu, AYL Liang, L Jin… - Nature …, 2021 - portal.research.lu.se
Abstract Structure–activity relationships built on descriptors of bulk and bulk-terminated
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …
surfaces are the basis for the rational design of electrocatalysts. However, electrochemically …