Mohammadjavad Jahanshahi
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View article: The covering of the bunch tail by the polymer nanocomposite mitigates date bunch drying and wilting disorders and enhances fruit quality
The covering of the bunch tail by the polymer nanocomposite mitigates date bunch drying and wilting disorders and enhances fruit quality Open
Date bunch drying and wilting disorder (DBDWD) manifests in the development stage of date fruits from the Kharak to the Rutab of development, coinciding with the occurrence of hot and dry winds. This phenomenon presents a significant and d…
View article: Green synthesis of Ag2O/B@OP-CDs nanocomposite for pipette tip solid-phase extraction (PT-SPE) of mercury from food samples: optimization by artificial neural networks (ANN) and evolutionary polynomial regression (EPR)
Green synthesis of Ag2O/B@OP-CDs nanocomposite for pipette tip solid-phase extraction (PT-SPE) of mercury from food samples: optimization by artificial neural networks (ANN) and evolutionary polynomial regression (EPR) Open
Mercury contamination in food remains a critical public health concern due to its extreme toxicity and bioaccumulation in the environment. Developing rapid, sensitive, and environmentally sustainable methods for its detection is of great i…
View article: The Manufacture of Unbreakable Bionics via Multifunctional and Self‐Healing Silk–Graphene Hydrogels (Adv. Mater. 35/2021)
The Manufacture of Unbreakable Bionics via Multifunctional and Self‐Healing Silk–Graphene Hydrogels (Adv. Mater. 35/2021) Open
Biocompatible Materials The history of biomaterials began with naturally derived materials such as nacre and animal tissues. Gradually mankind developed more advanced materials such as metals, ceramics, alloys and polymers to yield prosthe…
View article: The Manufacture of Unbreakable Bionics via Multifunctional and Self‐Healing Silk–Graphene Hydrogels
The Manufacture of Unbreakable Bionics via Multifunctional and Self‐Healing Silk–Graphene Hydrogels Open
Biomaterials capable of transmitting signals over longer distances than those in rigid electronics can open new opportunities for humanity by mimicking the way tissues propagate information. For seamless mirroring of the human body, they a…
View article: Flexible Electronics: A Protein‐Based, Water‐Insoluble, and Bendable Polymer with Ionic Conductivity: A Roadmap for Flexible and Green Electronics (Adv. Sci. 5/2019)
Flexible Electronics: A Protein‐Based, Water‐Insoluble, and Bendable Polymer with Ionic Conductivity: A Roadmap for Flexible and Green Electronics (Adv. Sci. 5/2019) Open
In article number 1801241, Alireza Dolatshahi‐Pirouz and co‐workers develop an ultra‐sensitive, but low‐cost electrode with a broad range of exciting properties brought about through a simple “design and mixing procedure.” As examples, a t…
View article: A Protein‐Based, Water‐Insoluble, and Bendable Polymer with Ionic Conductivity: A Roadmap for Flexible and Green Electronics
A Protein‐Based, Water‐Insoluble, and Bendable Polymer with Ionic Conductivity: A Roadmap for Flexible and Green Electronics Open
Proteins present an ecofriendly alternative to many of the synthetic components currently used in electronics. They can therefore in combination with flexibility and electroactivity uncover a range of new opportunities in the field of flex…