From 4df49e91daf24f07fb8ca8a52807ec012fe28095 Mon Sep 17 00:00:00 2001 From: VsevolodX <79542055+VsevolodX@users.noreply.github.com> Date: Mon, 6 Jan 2025 14:17:19 -0800 Subject: [PATCH] update: rename to reflect categories --- ...planar-grain-boundary-2d-boron-nitride.md} | 2 +- ...ar-grain-boundary-3d-fcc-metals-copper.md} | 2 +- ...m-island-molybdenum-disulfide-platinum.md} | 2 +- ...ioxide-hafnium-dioxide-titanium-nitride.md | 2 +- ...rface-film-xy-position-graphene-nickel.md} | 2 +- mkdocs.yml | 38 +++++++++---------- 6 files changed, 24 insertions(+), 24 deletions(-) rename lang/en/docs/tutorials/materials/specific/{grain-boundary-2d-boron-nitride.md => defect-planar-grain-boundary-2d-boron-nitride.md} (98%) rename lang/en/docs/tutorials/materials/specific/{grain-boundary-3d-fcc-metals-copper.md => defect-planar-grain-boundary-3d-fcc-metals-copper.md} (98%) rename lang/en/docs/tutorials/materials/specific/{defect_point_adatom_island_mos2_pt.md => defect-point-adatom-island-molybdenum-disulfide-platinum.md} (99%) rename lang/en/docs/tutorials/materials/specific/{optimize-film-position-graphene-nickel-interface.md => optimization-interface-film-xy-position-graphene-nickel.md} (98%) diff --git a/lang/en/docs/tutorials/materials/specific/grain-boundary-2d-boron-nitride.md b/lang/en/docs/tutorials/materials/specific/defect-planar-grain-boundary-2d-boron-nitride.md similarity index 98% rename from lang/en/docs/tutorials/materials/specific/grain-boundary-2d-boron-nitride.md rename to lang/en/docs/tutorials/materials/specific/defect-planar-grain-boundary-2d-boron-nitride.md index fde46572..94f4b6fd 100644 --- a/lang/en/docs/tutorials/materials/specific/grain-boundary-2d-boron-nitride.md +++ b/lang/en/docs/tutorials/materials/specific/defect-planar-grain-boundary-2d-boron-nitride.md @@ -142,7 +142,7 @@ The following JupyterLite notebook demonstrates the complete process. Select "Ru {% with origin_url=config.extra.jupyterlite.origin_url %} {% with notebooks_path_root=config.extra.jupyterlite.notebooks_path_root %} -{% with notebook_name='specific_examples/grain_boundary_2d_boron_nitride.ipynb' %} +{% with notebook_name='specific_examples/defect_planar_grain_boundary_2d_boron_nitride.ipynb' %} {% include 'jupyterlite_embed.html' %} {% endwith %} {% endwith %} diff --git a/lang/en/docs/tutorials/materials/specific/grain-boundary-3d-fcc-metals-copper.md b/lang/en/docs/tutorials/materials/specific/defect-planar-grain-boundary-3d-fcc-metals-copper.md similarity index 98% rename from lang/en/docs/tutorials/materials/specific/grain-boundary-3d-fcc-metals-copper.md rename to lang/en/docs/tutorials/materials/specific/defect-planar-grain-boundary-3d-fcc-metals-copper.md index 3abf646a..9a770385 100644 --- a/lang/en/docs/tutorials/materials/specific/grain-boundary-3d-fcc-metals-copper.md +++ b/lang/en/docs/tutorials/materials/specific/defect-planar-grain-boundary-3d-fcc-metals-copper.md @@ -138,7 +138,7 @@ The following JupyterLite notebook demonstrates the complete process. Select "Ru {% with origin_url=config.extra.jupyterlite.origin_url %} {% with notebooks_path_root=config.extra.jupyterlite.notebooks_path_root %} -{% with notebook_name='specific_examples/grain_boundary_3d_fcc_metals_copper.ipynb' %} +{% with notebook_name='specific_examples/defect_planar_grain_boundary_3d_fcc_metals_copper.ipynb' %} {% include 'jupyterlite_embed.html' %} {% endwith %} {% endwith %} diff --git a/lang/en/docs/tutorials/materials/specific/defect_point_adatom_island_mos2_pt.md b/lang/en/docs/tutorials/materials/specific/defect-point-adatom-island-molybdenum-disulfide-platinum.md similarity index 99% rename from lang/en/docs/tutorials/materials/specific/defect_point_adatom_island_mos2_pt.md rename to lang/en/docs/tutorials/materials/specific/defect-point-adatom-island-molybdenum-disulfide-platinum.md index b731f052..a7422bad 100644 --- a/lang/en/docs/tutorials/materials/specific/defect_point_adatom_island_mos2_pt.md +++ b/lang/en/docs/tutorials/materials/specific/defect-point-adatom-island-molybdenum-disulfide-platinum.md @@ -158,7 +158,7 @@ The following embedded notebook demonstrates the complete process. Select "Run" {% with origin_url=config.extra.jupyterlite.origin_url %} {% with notebooks_path_root=config.extra.jupyterlite.notebooks_path_root %} -{% with notebook_name='specific_examples/defect_point_adatom_island_mos2_pt.ipynb' %} +{% with notebook_name='specific_examples/defect_point_adatom_island_molybdenum_disulfide_platinum.ipynb' %} {% include 'jupyterlite_embed.html' %} {% endwith %} {% endwith %} diff --git a/lang/en/docs/tutorials/materials/specific/heterostructure-silicon-silicon-dioxide-hafnium-dioxide-titanium-nitride.md b/lang/en/docs/tutorials/materials/specific/heterostructure-silicon-silicon-dioxide-hafnium-dioxide-titanium-nitride.md index 6fd2fda8..de60dec2 100644 --- a/lang/en/docs/tutorials/materials/specific/heterostructure-silicon-silicon-dioxide-hafnium-dioxide-titanium-nitride.md +++ b/lang/en/docs/tutorials/materials/specific/heterostructure-silicon-silicon-dioxide-hafnium-dioxide-titanium-nitride.md @@ -199,7 +199,7 @@ The following JupyterLite notebook demonstrates the process of creating target m {% with origin_url=config.extra.jupyterlite.origin_url %} {% with notebooks_path_root=config.extra.jupyterlite.notebooks_path_root %} -{% with notebook_name='specific_examples/heterostructure_high_k_metal_gate_stack.ipynb' %} +{% with notebook_name='specific_examples/heterostructure_silicon_silicon_dioxide_hafnium_dioxide_titanium_nitride.ipynb' %} {% include 'jupyterlite_embed.html' %} {% endwith %} {% endwith %} diff --git a/lang/en/docs/tutorials/materials/specific/optimize-film-position-graphene-nickel-interface.md b/lang/en/docs/tutorials/materials/specific/optimization-interface-film-xy-position-graphene-nickel.md similarity index 98% rename from lang/en/docs/tutorials/materials/specific/optimize-film-position-graphene-nickel-interface.md rename to lang/en/docs/tutorials/materials/specific/optimization-interface-film-xy-position-graphene-nickel.md index 677f11a1..91d837a5 100644 --- a/lang/en/docs/tutorials/materials/specific/optimize-film-position-graphene-nickel-interface.md +++ b/lang/en/docs/tutorials/materials/specific/optimization-interface-film-xy-position-graphene-nickel.md @@ -140,7 +140,7 @@ The following JupyterLite notebook demonstrates the complete process. Select "Ru {% with origin_url=config.extra.jupyterlite.origin_url %} {% with notebooks_path_root=config.extra.jupyterlite.notebooks_path_root %} -{% with notebook_name='specific_examples/optimize_film_position_graphene_nickel_interface.ipynb' %} +{% with notebook_name='specific_examples/optimization_interface_film_xy_position_graphene_nickel.ipynb' %} {% include 'jupyterlite_embed.html' %} {% endwith %} {% endwith %} diff --git a/mkdocs.yml b/mkdocs.yml index c516086e..5abd913d 100644 --- a/mkdocs.yml +++ b/mkdocs.yml @@ -224,28 +224,28 @@ nav: - Import materials from files in various formats: tutorials/materials/import-from-files.md - Specific: - - Substitutional Point Defects in Graphene: tutorials/materials/specific/defect-point-substitution-graphene.md - - Vacancy-Substitution Pair Defects in GaN: tutorials/materials/specific/defect-point-pair-gallium-nitride.md - - Vacancy Point Defect in h-BN: tutorials/materials/specific/defect-point-vacancy-boron-nitride.md - - Interstitial Point Defect in SnO: tutorials/materials/specific/defect-point-interstitial-tin-oxide.md - - Island Surface Defect Formation in TiN: tutorials/materials/specific/defect-surface-island-titanium-nitride.md - - Step Surface Defect on Pt(111): tutorials/materials/specific/defect-surface-step-platinum.md - - Twisted Bilayer h-BN nanoribbons: tutorials/materials/specific/interface-bilayer-twisted-nanoribbons-boron-nitride.md - - Twisted Bilayer MoS2 commensurate lattices: tutorials/materials/specific/interface-bilayer-twisted-commensurate-lattices-molybdenum-disulfide.md - - Adatom Surface Defects on Graphene: tutorials/materials/specific/defect-surface-adatom-graphene.md - - H-Passivated Silicon Nanowire: tutorials/materials/specific/passivation-edge-silicon-nanowire.md + - Substitutional Point Defects in Graphene: tutorials/materials/specific/defect-point-substitution-graphene.md + - Vacancy-Substitution Pair Defects in GaN: tutorials/materials/specific/defect-point-pair-gallium-nitride.md + - Vacancy Point Defect in h-BN: tutorials/materials/specific/defect-point-vacancy-boron-nitride.md + - Interstitial Point Defect in SnO: tutorials/materials/specific/defect-point-interstitial-tin-oxide.md + - Island Surface Defect Formation in TiN: tutorials/materials/specific/defect-surface-island-titanium-nitride.md + - Step Surface Defect on Pt(111): tutorials/materials/specific/defect-surface-step-platinum.md + - Twisted Bilayer h-BN nanoribbons: tutorials/materials/specific/interface-bilayer-twisted-nanoribbons-boron-nitride.md + - Twisted Bilayer MoS2 commensurate lattices: tutorials/materials/specific/interface-bilayer-twisted-commensurate-lattices-molybdenum-disulfide.md + - Adatom Surface Defects on Graphene: tutorials/materials/specific/defect-surface-adatom-graphene.md + - H-Passivated Silicon Nanowire: tutorials/materials/specific/passivation-edge-silicon-nanowire.md - H-Passivated Silicon (100) Surface: tutorials/materials/specific/passivation-surface-silicon-surface.md - - Gold Nanoclusters: tutorials/materials/specific/nanocluster-gold.md + - Gold Nanoclusters: tutorials/materials/specific/nanocluster-gold.md - SrTiO3 Slab: tutorials/materials/specific/slab-strontium-titanate.md - Interface between Graphene and h-BN: tutorials/materials/specific/interface-2d-2d-graphene-boron-nitride.md - - Interface between Copper and SiO2 (Cristobalite): tutorials/materials/specific/interface-3d-3d-copper-silicon-dioxide.md - - Interface between Graphene and SiO2 (alpha-quartz): tutorials/materials/specific/interface-2d-3d-graphene-silicon-dioxide.md - - High-k Metal Gate Stack (Si/SiO2/HfO2/TiN): tutorials/materials/specific/heterostructure-silicon-silicon-dioxide-hafnium-dioxide-titanium-nitride.md - - Ripple perturbation of a Graphene sheet: tutorials/materials/specific/perturbation-ripples-graphene.md - - Grain Boundary in FCC Metals (Copper): tutorials/materials/specific/grain-boundary-3d-fcc-metals-copper.md - - Grain Boundary (2D) in h-BN: tutorials/materials/specific/grain-boundary-2d-boron-nitride.md - - Gr/Ni(111) Interface Optimization: tutorials/materials/specific/optimize-film-position-graphene-nickel-interface.md - - Pt Adatoms Island on MoS2: tutorials/materials/specific/defect_point_adatom_island_mos2_pt.md + - Interface between Copper and SiO2 (Cristobalite): tutorials/materials/specific/interface-3d-3d-copper-silicon-dioxide.md + - Interface between Graphene and SiO2 (alpha-quartz): tutorials/materials/specific/interface-2d-3d-graphene-silicon-dioxide.md + - High-k Metal Gate Stack (Si/SiO2/HfO2/TiN): tutorials/materials/specific/heterostructure-silicon-silicon-dioxide-hafnium-dioxide-titanium-nitride.md + - Ripple perturbation of a Graphene sheet: tutorials/materials/specific/perturbation-ripples-graphene.md + - Grain Boundary in FCC Metals (Copper): tutorials/materials/specific/defect-planar-grain-boundary-3d-fcc-metals-copper.md + - Grain Boundary (2D) in h-BN: tutorials/materials/specific/defect-planar-grain-boundary-2d-boron-nitride.md + - Gr/Ni(111) Interface Optimization: tutorials/materials/specific/optimization-interface-film-xy-position-graphene-nickel-interface.md + - Pt Adatoms Island on MoS2: tutorials/materials/specific/defect-point-adatom-island-molybdenum-disulfide-platinum.md # COMMON UI COMPONENTS - Interface Components: