Corrigendum to "Enhanced adhesive hydrogel for emergency hemostasis by balancing adhesion and cohesion" [International journal of biological macromolecules volume 284, part 1, page 138075] [0.03%]
关于“通过平衡粘附和内聚力用于紧急止血的增强型粘性水凝胶”的勘误(国际生物大分子杂志第284卷,第1期,第138075页)
Yalei Qiao,Xiang Zhao,Shunjun Wang et al.
Yalei Qiao et al.
Corrigendum to "Strengthening poly (lactic acid): The role of fractionated lignin in the development of sustainable films" [Int. J. Biol. Macromol. 320 (2025) 145912] [0.03%]
关于“强化聚乳酸:分级木质素在开发可持续薄膜中的作用”的勘误修正[Int. J. Biol. Macromol. 320 (2025) 145912]
Matheus Fernandes de Carvalho Reis,Gabriela de Oliveira Machado,Samiris Côcco Teixeira et al.
Matheus Fernandes de Carvalho Reis et al.
Corrigendum to "Antioxidant coatings with selenium nanoparticles, stabilized by chitosan and nanocellulose, for active paper packaging" [Int. J. Biol. Macromol. Volume 319, part 4, august 2025, 145721] [0.03%]
关于“用于活性纸包装的抗氧涂层,由硒纳米颗粒、壳聚糖和纳米纤维素稳定"[国际生物大分子杂志第319卷,第4期,2025年8月,145721]"的勘误通知
Samanta Sam,Roberto J Aguado,Nuria Fiol et al.
Samanta Sam et al.
Corrigendum to "pPB peptide-modified nanostructured lipid carriers loaded with astragaloside IV as a potential strategy for enhanced antifibrosis therapy" [Int. J. Biol. Macromol. 319 (2025) 145221] [0.03%]
“pPB肽修饰的纳米结构脂质载体加载黄芪皂苷IV作为潜在的抗纤维化增强治疗策略”一文中“图4A”的勘误修正[国际生物大分子杂志319(2025)145221]
Shasha Zhang,Xu Zhang,Min Wang et al.
Shasha Zhang et al.
Enhanced antimicrobial and anticancer activities of zein protein-agarose@Au composite hydrogel for controlled release of silibinin in colon cancer therapy [0.03%]
丝氨酸在结肠癌治疗中的控制释放的增強抗微生物和抗癌活性的玉米凝集素-琼脂糖@AU复合水凝胶
Ilknur Atli,Pinar Ilgin,Elif Sultan Karabayir et al.
Ilknur Atli et al.
In this study, biodegradable hydrogel films based on natural proteins and polysaccharides were synthesized in order to improve controlled drug release, cytocompatibility and antibacterial properties. Biosynthesized gold nanoparticles were i...
Injectable hydrogel based on the furoic acid-modified chitosan for accelerating wound healing [0.03%]
基于呋喃甲酸改性壳聚糖的伤口促愈合可注射水凝胶
Yingyu Su,Chunyan Li,Yanwei Hou et al.
Yingyu Su et al.
In this study, a novel injectable hydrogel, termed as FUA-CSgel, was developed based on furoic acid-modified chitosan (FUA-CS) and applied to accelerate wound healing. Initially, the gelation precursor, FUA-CS polymer, was synthesized by co...
Efficient removal of anionic dyes by chitosan-based hydrogels modified with SDS and NaOH: Structural optimization, adsorption performance, and mechanistic insights [0.03%]
壳聚糖基凝胶改性SDS和NaOH高效去除阴离子染料:结构优化、吸附性能及机理研究
Zijian Zhang,Jianhai Zhao,Wenpu Li et al.
Zijian Zhang et al.
The acceleration of industrial and urban development has intensified pollution from dye-containing wastewater, while conventional adsorbents demonstrate inadequate performance for complex wastewater remediation. This study develops two chit...
A computational pipeline for predicting distal hotspots in an artificial enzyme [0.03%]
人工酶远距离热点的计算预测管道
Mahdi Hassankalhori,Fabrizio Casilli,Ferran Sancho et al.
Mahdi Hassankalhori et al.
Targeting distal mutations holds promising implications for enzyme engineering. Here, we present an open-source computational workflow designed to explore the functional impact of distal sites, demonstrated on an artificial enzyme built on ...
Structural, elastic, and morphological studies of Musa sapientum and Colocasia esculenta natural fibres for sustainable bio-based applications [0.03%]
可持续生物基应用的Musa sapientum和Colocasia esculenta天然纤维的结构、弹性及形态研究
V V Manju
V V Manju
This research is focused on promoting the adoption of biodegradable and agricultural waste materials such as Musa and Colocasia fibres, exploring their microstructural and elasto-mechanical characteristics. Powder X-ray diffraction (PXRD) a...
Structural analysis of an expolysaccharide from Lactiplantibacillus plantarum PA01 and its immunoenhancing properties [0.03%]
植物乳桿菌PA01来源胞外多糖的结构分析及其免疫调节作用研究
Huimei Wang,Hanyue Wu,Haotian Zhang et al.
Huimei Wang et al.
The aim of this study was to structurally characterize exopolysaccharide EPS2 extracted from Lactiplantibacillus plantarum PA01, and to investigate its immunological activity in vitro and in vivo. Structural characterization revealed that E...