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Carbohydrate Polymers
Resumen/Descripción – provisto por la editorial en inglés
Note: The Aims and Scope have been modified as of 28 October 2014Carbohydrate Polymers is a major journal within the field of glycoscience, and covers the study and exploitation of polysaccharides which have current or potential application in areas such as bioenergy, bioplastics, biomaterials, nanotechnology, biorefining, drug delivery, tissue engineering, food, chemistry, packaging , paper, pharmaceuticals, medicine, oil recovery, textiles and wood.
Research must be innovative and advance scientific knowledge.
The role of the well-characterized carbohydrate polymer must be the major proportion of the work reported, not peripheral. At least one named carbohydrate polymer must be cited and be the main focus of the title of the paper, and of the paper itself. It is essential that authors provide convincing evidence that the carbohydrate polymer is of high purity. Where a polysaccharide is obtained from a supplier, essential structural information which will affect its behavior in the subsequent work should be given. For example, molecular size/viscosity information, mannuronate/guluronate ratio for alginates, degree of esterification for pectin, degree of deacetylation for chitosan. Editors are unlikely to send papers for formal review with a statement such as ""sodium alginate was purchased from XXX Inc."" unless additional information is supplied. To be acceptable, the paper must include some characterization of the polysaccharide (if not already known) in addition to the application studied. Characterization by the authors is usually preferable to values quoted from the manufacturer, since manufacturer values may be averages or ranges rather than pertinent to the particular lot in question. If the study is concerned with a new polysaccharide the monosaccharide composition, linkage information, and preferably molecular weight and/or degree of polymerization must be supplied. It is acceptable to refer to previously published work but if this is not in the literature it is necessary to make the appropriate measurements and supply the information in the submitted paper.
Topics include:
• structure and property relationships
• analytical methods
• chemical, enzymatic and physical modifications
• biosynthesis (natural, or new sequence generation) of the polysaccharide
• natural functions (including biological activities)
• interactions with other materials
Examples of papers which are not appropriate for Carbohydrate Polymers include:
• papers which focus on biological, physiological and pharmacological aspects of non-carbohydrate molecules attached to, or mixed with, carbohydrate polymers.
• papers on the materials science of biocomposites where there is no mention of any specific carbohydrate polymer, or the role of the carbohydrate polymer is not the major proportion of the study.
• papers focusing on polyalkanoates, polylactic acid, saponins or lignin.
• routine studies of extraction yields without characterisation of the extracted polysaccharide.
• routine studies of complexation of a drug with a single cyclodextrin.
• applications of new polysaccharides where the structure of the polysaccharide is unknown.
• Papers on the production and isolation of enzymes which act on polysaccharides
• Papers where the degree of polymerization of the saccharide chain is less than four.
• Papers on starches (from different biological origins), unless the results provide some new insights of more general scientific interest or unusually specific application potential.
Palabras clave – provistas por la editorial
No disponibles.
Disponibilidad
| Institución detectada | Período | Navegá | Descargá | Solicitá |
|---|---|---|---|---|
| No detectada | desde sep. 1981 / hasta dic. 2023 | ScienceDirect |
Información
Tipo de recurso:
revistas
ISSN impreso
0144-8617
ISSN electrónico
1879-1344
Editor responsable
Elsevier
País de edición
Países Bajos
Fecha de publicación
1981-
Cobertura temática
Tabla de contenidos
Alkali-washing facilitates thermal-processed lignin to slow the hydrolysis of pancreatic α-amylase in starchy foods
Jian Zhu; Hongsheng Liu; Long Yu; Wei Zou
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119502
Modification of granular waxy, normal and high-amylose maize starches by maltogenic α-amylase to improve functionality
Jiayi Li; Xinjing Kong; Yongfeng Ai
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119503
Effect of water sorption on glass transition and microstructural variation of dextran & sugar mixtures
Wen Li; Liyuan Yun; Yunjiao Zhao; Zijian Zhi; Esther Mwizerwa Muhindo; Xiaoyuan Geng; Rui Liu; Tao Wu; Wenjie Sui; Min Zhang
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119505
Digital light processing-based 3D bioprinting of κ-carrageenan hydrogels for engineering cell-loaded tissue scaffolds
Sushma Kumari; Pritiranjan Mondal; Kaushik Chatterjee
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119508
Dual-pH responsive chitosan nanoparticles for improving in vivo drugs delivery and chemoresistance in breast cancer
Qiang Chen; Chaochao Jia; Yingran Xu; Zhuanzhuan Jiang; Ting Hu; Conghu Li; Xu Cheng
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119518
Hyaluronic acid-guided assembly of ceria nanozymes as plaque-targeting ROS scavengers for anti-atherosclerotic therapy
Sheng Wang; Jingwen Zhang; Wei Li; Dali Chen; Jiasheng Tu; Chunmeng Sun; Yunai Du
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119940
All-cellulose gel electrolyte with black phosphorus based lithium ion conductors toward advanced lithium-sulfurized polyacrylonitrile batteries
Yangze Huang; Yongqin Wang; Yu Fu
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119950
Polysaccharide-based hydrogels containing herbal extracts for wound healing applications
Morteza Abazari; Tayebeh Akbari; Mahdiye Hasani; Elham Sharifikolouei; Mohammad Raoufi; Alireza Foroumadi; Mohammad Sharifzadeh; Loghman Firoozpour; Mehdi Khoobi
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 119808
Polyethylene terephthalate hydrolysate increased bacterial cellulose production
Jiangang Zhou; Jidan Sun; Mati Ullah; Quan Wang; Yanbo Zhang; Gang Cao; Li Chen; Muhammad Wajid Ullah; Su Sun
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 120301
A multi-functional double cross-linked chitosan hydrogel with tunable mechanical and antibacterial properties for skin wound dressing
Fengling Liu; Lu Wang; Xinrang Zhai; Shunxian Ji; Jingjia Ye; Zhiqiang Zhu; Chong Teng; Wei Dong; Wei Wei
Palabras clave: Materials Chemistry; Polymers and Plastics; Organic Chemistry.
Pp. 121344