![Integration of 3D Printing–Coelectrospinning: Concept Shifting in Biomedical Applications | ACS Omega Integration of 3D Printing–Coelectrospinning: Concept Shifting in Biomedical Applications | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.3c03920/asset/images/large/ao3c03920_0008.jpeg)
Integration of 3D Printing–Coelectrospinning: Concept Shifting in Biomedical Applications | ACS Omega
![Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters](https://pubs.acs.org/cms/10.1021/acs.nanolett.2c04228/asset/images/large/nl2c04228_0003.jpeg)
Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters
![Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters](https://pubs.acs.org/cms/10.1021/acs.nanolett.2c04228/asset/images/medium/nl2c04228_0006.gif)
Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters
![Frontiers | High-entropy approach to double perovskite cathode materials for solid oxide fuel cells: Is multicomponent occupancy in (La,Pr,Nd,Sm,Gd)BaCo2O5+δ affecting physicochemical and electrocatalytic properties? Frontiers | High-entropy approach to double perovskite cathode materials for solid oxide fuel cells: Is multicomponent occupancy in (La,Pr,Nd,Sm,Gd)BaCo2O5+δ affecting physicochemical and electrocatalytic properties?](https://www.frontiersin.org/files/Articles/899308/fenrg-10-899308-HTML/image_m/fenrg-10-899308-g006.jpg)
Frontiers | High-entropy approach to double perovskite cathode materials for solid oxide fuel cells: Is multicomponent occupancy in (La,Pr,Nd,Sm,Gd)BaCo2O5+δ affecting physicochemical and electrocatalytic properties?
![Multilayer MXene Heterostructures and Nanohybrids for Multifunctional Applications: A Review | ACS Materials Letters Multilayer MXene Heterostructures and Nanohybrids for Multifunctional Applications: A Review | ACS Materials Letters](https://pubs.acs.org/cms/10.1021/acsmaterialslett.2c00175/asset/images/medium/tz2c00175_0013.gif)
Multilayer MXene Heterostructures and Nanohybrids for Multifunctional Applications: A Review | ACS Materials Letters
![Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules](https://pubs.acs.org/cms/10.1021/acs.biomac.3c00098/asset/images/large/bm3c00098_0006.jpeg)
Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules
![Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules](https://pubs.acs.org/cms/10.1021/acs.biomac.3c00098/asset/images/large/bm3c00098_0003.jpeg)
Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules
![Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules](https://pubs.acs.org/cms/10.1021/acs.biomac.3c00098/asset/images/medium/bm3c00098_0009.gif)
Versatile Potential of Photo-Cross-Linkable Silk Fibroin: Roadmap from Chemical Processing Toward Regenerative Medicine and Biofabrication Applications | Biomacromolecules
![Earthicle and Its Discontents: A Historical Critical Review of Iron (Oxide) Particles Singly and Doubly Shelled with Silica and/or Carbon | ACS Earth and Space Chemistry Earthicle and Its Discontents: A Historical Critical Review of Iron (Oxide) Particles Singly and Doubly Shelled with Silica and/or Carbon | ACS Earth and Space Chemistry](https://pubs.acs.org/cms/10.1021/acsearthspacechem.0c00173/asset/images/large/sp0c00173_0017.jpeg)
Earthicle and Its Discontents: A Historical Critical Review of Iron (Oxide) Particles Singly and Doubly Shelled with Silica and/or Carbon | ACS Earth and Space Chemistry
![Smart Polymeric Hydrogels for Cartilage Tissue Engineering: A Review on the Chemistry and Biological Functions | Biomacromolecules Smart Polymeric Hydrogels for Cartilage Tissue Engineering: A Review on the Chemistry and Biological Functions | Biomacromolecules](https://pubs.acs.org/cms/10.1021/acs.biomac.6b01235/asset/images/large/bm-2016-012352_0007.jpeg)
Smart Polymeric Hydrogels for Cartilage Tissue Engineering: A Review on the Chemistry and Biological Functions | Biomacromolecules
![Transplantation of IGF-1-induced BMSC-derived NPCs promotes tissue repair and motor recovery in a rat spinal cord injury model - ScienceDirect Transplantation of IGF-1-induced BMSC-derived NPCs promotes tissue repair and motor recovery in a rat spinal cord injury model - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S2405844022016723-ga1.jpg)
Transplantation of IGF-1-induced BMSC-derived NPCs promotes tissue repair and motor recovery in a rat spinal cord injury model - ScienceDirect
![Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters Ultrasensitive, Fast-Responsive, Directional Airflow Sensing by Bioinspired Suspended Graphene Fibers | Nano Letters](https://pubs.acs.org/cms/10.1021/acs.nanolett.2c04228/asset/images/large/nl2c04228_0004.jpeg)