GELATIN

作品数:316被引量:566H指数:10
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相关机构:中国农业大学浙江大学东华大学天津大学更多>>
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Highly recyclable EDTA-crosslinked chitosan-gelatin biopolymer adsorbent for separation and recovery of rare earth elements from aqueous solution
《Frontiers of Environmental Science & Engineering》2025年第4期139-153,共15页Monu Verma Deepa Sachan Vinod Kumar Waseem Ahmad Nishesh Sharma Hyunook Kim 
the National Research Foundation of Korea(NRF)for funding provided by the Ministry of Science and ICT through the Brain Pool Program(RS-2024-00406513);supported by the Green Venture R&D program(S3051540)funded by the Ministry of SMEs and Startups(MSS,Republic of Korea);supported by the Strategic Academic Leadership Program of RUDN University,Russia.
A biopolymer adsorbent was prepared by crosslinking chitosan(CS)and gelatin(GL)with ethylenediaminetetraacetic acid(EDTA)for the separation and recovery of three famous rare earth elements(REEs),i.e.,lanthanum(La(Ⅲ))...
关键词:Adsorption recovery Rare earth elements Separation factor Industrial wastewater Recovery mechanism 
3D bioprinted chondrogenic gelatin methacrylate-poly(ethylene glycol)diacrylate composite scaffolds for intervertebral disc restoration
《International Journal of Extreme Manufacturing》2025年第1期610-621,共12页Maria D Astudillo Potes Maryam Tilton Indranath Mitra Xifeng Liu Babak Dashtdar Emily T Camilleri Benjamin D Elder Lichun Lu 
supported by NIH Grant(T32GM065841),Mayo Foundation for Education and Research.
Degenerative spine pathologies,including intervertebral disc(IVD)degeneration,present a significant healthcare challenge due to their association with chronic pain and disability.This study explores an innovative appr...
关键词:intervertebral disc regeneration 3D bioprinting gelatin-based hydrogels mesenchymal stem cell spheroids tissue engineering 
Injectable cartilage microtissues based on 3D cultureusing porous gelatin microcarriers for cartilagedefect treatment
《Regenerative Biomaterials》2025年第1期72-83,共12页Jing Zhu Qiuchen Luo Tiefeng Cao Guang Yang Lin Xiao 
supported by the National Natural Science Foundation of China(52173151,82002734,51803067);the Natural Science Foundation of Guangdong Province of China(2021A1515011084,2019A1515110312);the Fundamental Research Funds for the Central Universities(22qntd1302);the Shenzhen Outbound Postdoctoral Scientific Research Fund(SZBH202108).
Cartilage tissues possess an extremely limited capacity for self-repair,and current clinical surgical approaches for treating articular cartilage defects can only provide short-term relief. Despite significantadvances...
关键词:cartilage repair microtissue engineering MICROCARRIERS GELATIN BMSCS 
Graphene Oxide and Moringa oleifera Seed Oil Incorporated into Gelatin-Based Films:A Novel Active Food Packaging Material
《Journal of Renewable Materials》2025年第2期311-327,共17页María Fernanda Cardona Lunar Ramón Ordoñez Heidi Fonseca Florido Joaquín Hernández-Fernández Rodrigo Ortega-Toro 
the University of Cartagena for funding through the Strengthening Project Acta 048-2023.
The extensive use of polymeric materials in single-use packaging has driven the need to develop biodegradable alternatives.This study investigates the incorporation of graphene oxide(GO)and Moringa oleifera seed oil(M...
关键词:Biodegradable packaging graphene oxide Moringa oleifera seed oil mechanical properties thermal stability water vapor resistance food packaging applications 
3D bioprinted advanced cartilage organoids with engineered magnetic nanoparticles polarized-BMSCs/alginate/gelatin for cartilage tissue regeneration
《Nano Research》2025年第2期541-556,共16页Zhiyu Ding Junjie Huang Yijun Ren Ning Tang Xin Luo Huancheng Zhu Xu Cao Ming Zhao Song Wu 
This work was financially supported by Science and Technology Innovation Leading Plan of High-Tech Industry in Hunan Province(No.2020SK2011);The National Natural Science Foundation of China-Youth Science Fund(No.82204538);Macao Special Administrative Region Science and Technology Development Fund(No.0007/2021/AKP).
Cartilage defects are commonly observed in orthopedic clinical studies.Owing to the unique structure of cartilage tissue,current clinical treatments cannot fully address this issue.Cartilage organoids are three-dimens...
关键词:magnetic nanoparticles cell polarization three-dimensional(3D)bioprinting cartilage organoid cartilage repair 
Greener,Safer Packaging:Carbon Nanotubes/Gelatin-Enhanced Recycled Paper for Fire Retardation with DFT Calculations
《Journal of Renewable Materials》2024年第12期1963-1983,共21页Hebat-Allah S.Tohamy 
The research received funding from the PRIMA International Project,between the Academy of Scientific Research and Technology(ASRT)and PRIMA,through the Joint Agreement Project“Sustainable Antimicrobial Packaging Based on a Healthy Intelligent Renewable Approach”with acronym“SAPHIRA”.
Fire retardant CNTs/WPP/Gel composite papers were fabricated by incorporating bio-based carbon nanotubes(CNTs)recycled from mature beech pinewood sawdust(MB)and cellulosic waste printed paper(WPP)into a gelatin soluti...
关键词:Carbon nanotubes PACKAGING cellulosic waste printed paper flame retardancy DFT calculations 
On-demand engineered double-network gelatin/silicate composited hydrogels with enhanced wet adhesion and stable release of bioactive ion for promoting wound healing
《Collagen and Leather》2024年第4期64-81,共18页Xiaomin Luo Lufeng Ji Fen Ao Chen Yang Jiang Chang Changyu Yin Huijun Ren Ming Teng Liuying Li Xinhua Liu 
funding and generous support of National Natural Science Foundation of China(22278259 and 22278257);The Key R&D Program of Shaanxi Province(2022GY-272);The Scientific Research Program Funded by Shaanxi Provincial Education Department(22JY013);The Chinese Postdoctoral Science Foundation(2021M692000);Wenzhou Science and Technology Major Project(ZY2022028).
Silicate bioceramics have demonstrated great potential in hydrog el dressings for wound healing due to their special origins of promoting endothelial cell angiogenesis and inhibiting apoptosis of cardiomyocyte.However...
关键词:HYDROGEL Wound dressing Bioactive ion release Wet adhesion Promote wound healing 
Cancer cell membrane camouflaged biomimetic gelatin-based nanogel for tumor inhibition
《Chinese Chemical Letters》2024年第11期389-394,共6页Yuanzheng Wang Chen Zhang Shuyan Han Xiaoli Kong Changyun Quan Jun Wu Wei Zhang 
supported by grants from Science and Technology Program of Guangzhou,China(No.201804010146);Guangzhou Science and Technology Program City-University Joint Funding Project(No.2023A03J0001)。
Enhancing the active tumor targeting ability and decreasing the clearance of reticuloendothelial system(RES)are important issues for drug delivery systems(DDSs)in cancer therapy.In recent years,cell membrane camouflag...
关键词:Cell membrane camouflage BIOMIMETIC Gelatin nanogel Drug delivery Tumor therapy 
Thermosensitive and Wound-Healing Gelatin-Alginate Biopolymer Hydrogels Modified with Humic Acids
《Journal of Renewable Materials》2024年第10期1691-1713,共23页Denis Miroshnichenko Vladimir Lebedev Katerina Lebedeva Anna Cherkashina Sergey Petrushenko Olena Bogoyavlenska Anzhela Olkhovska Ihor Hrubnyk Liudmyla Maloshtan Natalja Klochko 
The main goal of the article is the creation and study of thermosensitive and wound-healing gelatin-alginate bio-polymer hydrogels modified with humic acids.Their rheological properties,swelling and contraction behavi...
关键词:Gelatin-alginate hydrogel humic acids wound healing rheological properties swelling THERMOSENSITIVITY CONTRACTION 
Gelatin and lipidoid integrate to create gelasomes to enhance siRNA delivery with low toxicity
《Bioactive Materials》2024年第10期557-570,共14页Abilash Gangula Dhananjay Suresh Agasthya Suresh Babu Zhaohui Li Anandhi Upendran Raghuraman Kannan 
the support of the NCI grant(R01-CA27467701)for funding this project.
RNAi therapeutics possess the potential to cure many uncurable human diseases.For instance,RNAi therapeutics using liposomes showed remarkable survival benefits in patients with liver diseases.However,the extension of...
关键词:doses INTEGRATE RENDER 
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