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Whatutoto
  • Channels
Rapua ētahi atu hongere:

Kaupapa: n/a

  • Kaupapa: chitosan
  • Kaupapa: hydrogel
  • Kaupapa: mechanical properties
  • Kaupapa: tissue engineering
  • Kaupapa: adsorption
  • Kaupapa: carbon nanotubes
  • Kaupapa: cellulose
  • Kaupapa: compressive strength
  • Kaupapa: drug delivery
  • Kaupapa: hydrophobic
  • Kaupapa: nanocomposite
  • Kaupapa: thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and inf...
  • Kaupapa: thermal conductivity
  • Kaupapa: 3D printing
  • Kaupapa: LCA
  • Kaupapa: antioxidant activity
  • Kaupapa: bioactivity
  • Kaupapa: biocomposites
  • Kaupapa: biodegradation
  • Kaupapa: biofilms
  • Kaupapa: building envelope
  • Kaupapa: building materials
  • Kaupapa: cellulose nanocrystals
  • Kaupapa: durability
  • Kaupapa: electrospinning
  • Kaupapa: energy efficiency
  • Kaupapa: fly ash
  • Whakaatu tūemi hei hua rapu
  • Tūhuratia ngā hongere pātahi
  • Quick Look
    Aerogel Hybrids and Nanocomposites
  • Quick Look
    Biomimetic Scaffolds for Hard Tissue Surgery
  • Quick Look
    From Molecules to Materials, Devices and Processes
  • Quick Look
    Synthesis and Applications of Biopolymer Composites
  • Quick Look
    Nanocellulose and Nanocarbons Based Hybrid Materials
  • Quick Look
    Advanced Biopolymer-Based Nanocomposites and Hybrid Materials

Kaupapa: thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues

  • Kaupapa: chitosan
  • Kaupapa: hydrogel
  • Kaupapa: mechanical properties
  • Kaupapa: tissue engineering
  • Kaupapa: adsorption
  • Kaupapa: carbon nanotubes
  • Kaupapa: cellulose
  • Kaupapa: compressive strength
  • Kaupapa: drug delivery
  • Kaupapa: hydrophobic
  • Kaupapa: nanocomposite
  • Kaupapa: thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and inf...
  • Kaupapa: thermal conductivity
  • Kaupapa: 3D printing
  • Kaupapa: LCA
  • Kaupapa: antioxidant activity
  • Kaupapa: bioactivity
  • Kaupapa: biocomposites
  • Kaupapa: biodegradation
  • Kaupapa: biofilms
  • Kaupapa: building envelope
  • Kaupapa: building materials
  • Kaupapa: cellulose nanocrystals
  • Kaupapa: durability
  • Kaupapa: electrospinning
  • Kaupapa: energy efficiency
  • Kaupapa: fly ash
  • Whakaatu tūemi hei hua rapu
  • Tūhuratia ngā hongere pātahi
  • Quick Look
    Biomimetic Scaffolds for Hard Tissue Surgery
  • Quick Look
    New Concrete Materials
  • Quick Look
    Synthesis and Applications of Biopolymer Composites
  • Quick Look
    Nanocellulose and Nanocarbons Based Hybrid Materials
  • Quick Look
    Thermal Behaviour, Energy Efficiency in Buildings and Sustainable Construction
  • Quick Look
    Advanced Biopolymer-Based Nanocomposites and Hybrid Materials

Kaituhi: Cinelli, Patrizia

  • Kaituhi: Díez-Pascual, Ana
  • Kaituhi: Hama, Rokuro
  • Kaituhi: Hamazaki, Tomohito
  • Kaituhi: Hashimoto, Yoko
  • Kaituhi: Kobayashi, Tetsuyuki
  • Kaituhi: Langsjoen, Peter
  • Kaituhi: Matricardi, Pietro
  • Kaituhi: Miyazawa, Daisuke
  • Kaituhi: Nakamura, Mikio
  • Kaituhi: Natori, Shunji
  • Kaituhi: Ogushi, Yoichi
  • Kaituhi: Oh-hashi, Kentaro
  • Kaituhi: Ohara, Naoki
  • Kaituhi: Okuyama, Harumi
  • Kaituhi: Sultan, Sheriff
  • Kaituhi: Tatematsu, Kenjiro
  • Kaituhi: Uchino, Hajime
  • Kaituhi: Watanabe, Shiro
  • Whakaatu tūemi hei hua rapu
  • Tūhuratia ngā hongere pātahi
  • Quick Look
    Synthesis and Applications of Biopolymer Composites

Kaituhi: De Rosa, Giuseppe

  • Kaituhi: Díez-Pascual, Ana
  • Kaituhi: Hama, Rokuro
  • Kaituhi: Hamazaki, Tomohito
  • Kaituhi: Hashimoto, Yoko
  • Kaituhi: Kobayashi, Tetsuyuki
  • Kaituhi: Langsjoen, Peter
  • Kaituhi: Matricardi, Pietro
  • Kaituhi: Miyazawa, Daisuke
  • Kaituhi: Nakamura, Mikio
  • Kaituhi: Natori, Shunji
  • Kaituhi: Ogushi, Yoichi
  • Kaituhi: Oh-hashi, Kentaro
  • Kaituhi: Ohara, Naoki
  • Kaituhi: Okuyama, Harumi
  • Kaituhi: Sultan, Sheriff
  • Kaituhi: Tatematsu, Kenjiro
  • Kaituhi: Uchino, Hajime
  • Kaituhi: Watanabe, Shiro
  • Whakaatu tūemi hei hua rapu
  • Tūhuratia ngā hongere pātahi
  • Quick Look
    Self-Organizing Nanovectors for Drug Delivery

Ngā tūemi rite: Aerogel Hybrids and Nanocomposites

  • Ngā tūemi rite: New Concrete Materials
  • Ngā tūemi rite: From Molecules to Materials, Devices and Processes
  • Ngā tūemi rite: Recent Developments in Wood Polymer Composites
  • Ngā tūemi rite: Self-Organizing Nanovectors for Drug Delivery
  • Ngā tūemi rite: Synthesis and Applications of Biopolymer Composites
  • Ngā tūemi rite: Advanced Coatings for Buildings
  • Ngā tūemi rite: Nanocellulose and Nanocarbons Based Hybrid Materials
  • Ngā tūemi rite: Thermal Behaviour, Energy Efficiency in Buildings and Sustainable Construction
  • Ngā tūemi rite: Advanced Biopolymer-Based Nanocomposites and Hybrid Materials
  • Tiro pūkete
  • Tūhuratia ngā hongere pātahi
  • Quick Look
    Biopolymers in Drug Delivery and Regenerative Medicine
  • Quick Look
    Gels for Removal and Adsorption
  • Quick Look
    Gels for Removal and Adsorption (2nd Edition)
  • Quick Look
    Catalytic Methods for the Synthesis of Carbon Nanodots and Their Applications
  • Quick Look
    Advanced Biopolymer-Based Nanocomposites and Hybrid Materials
  • Quick Look
    Heat and Mass Transfer in Building Energy Performance Assessment
  • Quick Look
    Biomimetic Scaffolds for Hard Tissue Surgery
  • Quick Look
    Recent Developments in Wood Polymer Composites
  • Quick Look
    Advanced Magnetic Nanocomposites
  • Quick Look
    Advanced Composite Biomaterials
  • Quick Look
    Materials Chemistry of Fullerenes, Graphenes, and Carbon Nanotubes
  • Quick Look
    Advances in Chitin/Chitosan Characterization and Applications
  • Quick Look
    Emerging Functions of Nano-Organized Polysaccharides
  • Quick Look
    Novel Technologies to Enhance Energy Performance and Indoor Environmental Quality of Buildings
  • Quick Look
    Synthesis and Applications of Biopolymer Composites
  • Quick Look
    Buildings of Tomorrow
  • Quick Look
    Volume III: Thermal Behaviour, Energy Efficiency in Buildings and Sustainable Construction
  • Quick Look
    Advanced Materials in 3D/4D Printing Technology
  • Quick Look
    Advanced Processing Technologies of Innovative Materials
  • Quick Look
    Volume II: Thermal Behaviour, Energy Efficiency in Buildings and Sustainable Construction
  • Quick Look
    Marine Polysaccharides Volume 2
  • Quick Look
    Marine Polysaccharides Volume 3
  • Quick Look
    Marine Polysaccharides Volume 1
  • Quick Look
    Transition-Metal-Containing Bifunctional Catalysts

Ngā tūemi rite: Biomimetic Scaffolds for Hard Tissue Surgery

  • Ngā tūemi rite: New Concrete Materials
  • Ngā tūemi rite: From Molecules to Materials, Devices and Processes
  • Ngā tūemi rite: Recent Developments in Wood Polymer Composites
  • Ngā tūemi rite: Self-Organizing Nanovectors for Drug Delivery
  • Ngā tūemi rite: Synthesis and Applications of Biopolymer Composites
  • Ngā tūemi rite: Advanced Coatings for Buildings
  • Ngā tūemi rite: Nanocellulose and Nanocarbons Based Hybrid Materials
  • Ngā tūemi rite: Thermal Behaviour, Energy Efficiency in Buildings and Sustainable Construction
  • Ngā tūemi rite: Advanced Biopolymer-Based Nanocomposites and Hybrid Materials
  • Tiro pūkete
  • Tūhuratia ngā hongere pātahi
  • Quick Look
    Bio-Inspired Materials for Biomedical Applications
  • Quick Look
    Inorganic Biomaterials
  • Quick Look
    Advanced Polymeric Scaffolds for Stem Cell Engineering and Regenerative Medicine
  • Quick Look
    Chapter Fabrication Methodologies of Biomimetic and Bioactive Scaffolds for Tissue Engineering Applications
  • Quick Look
    Biomaterials for Bone Tissue Engineering 2020
  • Quick Look
    Biomaterials for Bone Tissue Engineering 2020
  • Quick Look
    Biomaterials for Tissue Engineering and Regeneration
  • Quick Look
    Moving toward Biomimetic Tissue Engineered Scaffolds
  • Quick Look
    Bone Regeneration and Repair Materials
  • Quick Look
    Electrospun Nanofibers for Biomedical Applications
  • Quick Look
    Functional Biomaterials for Regenerative Dentistry
  • Quick Look
    Novel Biomaterials for Tissue Engineering 2018
  • Quick Look
    Design of Materials for Bone Tissue Scaffolds
  • Quick Look
    Bioactive Dental Materials
  • Quick Look
    Polymer Materials for Drug Delivery and Tissue Engineering
  • Quick Look
    Bioceramics, Bioglasses and Gels for Tissue Engineering
  • Quick Look
    Feature Papers in Bone Biomaterials
  • Quick Look
    Bioceramic Composites
  • Quick Look
    Chapter 8 Non-thermal Plasma Technology for the Improvement of Scaffolds for Tissue Engineering and Regenerative Medicine - A Review
  • Quick Look
    Stem Cell and Biologic Scaffold Engineering
  • Quick Look
    Advance of Polymers Applied to Biomedical Applications: Cell Scaffolds
  • Quick Look
    Scaffolds and Implants for Bone Regeneration
  • Quick Look
    Blood-Derived Products for Tissue Repair/Regeneration
  • Quick Look
    Advanced Alloy Degradation and Implants

Ngā kōwhiringa rapu

  • Hītori rapu
  • Rapu Whatutoto

Kimihia ētahi atu

  • Tirotirohia te Putumōhio Tūemi
  • Tirotiro ā-Arapū
  • Tūhurahura Hongere