Refine
Year of publication
Institute
Language
- English (119) (remove)
Document Type
- Article (82)
- Conference Proceeding (24)
- Part of a Book (9)
- Book (4)
Keywords
- Clusterion (5)
- Air purification (4)
- Hämoglobin (4)
- Lipopolysaccharide (4)
- Luftreiniger (4)
- Plasmacluster ion technology (4)
- Raumluft (4)
- Sonde (4)
- Eisschicht (3)
- Kohlenstofffaser (3)
- lipopolysaccharides (3)
- Erythrozyt (2)
- Fibroblast (2)
- Pflanzenphysiologie (2)
- Pflanzenscanner (2)
- Stickstoffmonoxid (2)
- bacterial cellulose (2)
- carbonized rice husk (2)
- celldrum technology (2)
- nanostructured carbonized plant parts (2)
- nanostrukturierte carbonisierte Pflanzenteile (2)
- nitric oxide gas (2)
- plant scanner (2)
- prebiotic (2)
- Adsorption (1)
- Antarctic Glaciology (1)
- Autofluoreszenzverfahren (1)
- Bacillus sp (1)
- Bacterial cellulose (1)
- Bakterien (1)
- Bioreaktor (1)
- Biosolubilization (1)
- Blutzellenlagerung (1)
- Carbon sources (1)
- Cell permeability (1)
- CellDrum (1)
- Cellular force (1)
- Cellulose nanostructure (1)
- Circular Dichroism (1)
- Contractile tension (1)
- Culture media (1)
- Dattel (1)
- Dekontamination (1)
- Dry surfaces (1)
- ELISA (1)
- Elektrodynamik (1)
- Endothelial cells (1)
- Endothelzelle (1)
- Enzyme-linked immunosorbent assay (1)
- Epithel (1)
- Extraterrestrial Glaciology (1)
- FGF23 (1)
- Glaciological instruments and methods (1)
- Harnleiter (1)
- Hemoglobin structure (1)
- Hydrodynamik (1)
- Hydrogel (1)
- Hämoglobinstruktur (1)
- Klotho (1)
- Körpertemperatur (1)
- Lactobacillus rhamnosus GG (1)
- Lichtstreuungsbasierte Instrumente (1)
- Mechanische Beanspruchung (1)
- Medusomyces gisevi (1)
- Microbial adhesion (1)
- NONOate (1)
- Natriumhypochlorit (1)
- Niacin (1)
- Nitric Oxide (1)
- Nitric Oxide Donor (1)
- Organkultur (1)
- PTH (1)
- Peroxidase (1)
- Pflanzenstress (1)
- Phosphate (1)
- Proteine (1)
- Recombinant activated protein C (1)
- Red blood cell storage (1)
- Riboflavin (1)
- Sampling methods (1)
- Sepsis (1)
- Small Aral Sea (1)
- Subclacial exploration (1)
- Subglacial lakes (1)
- Surface microorganisms (1)
- Swabbing (1)
- Thiamine (1)
- Tissue Engineering (1)
- Vitamin A (1)
- Vitamin B (1)
- Vitamin D (1)
- Wasserbrücke (1)
- Wasserstoffperoxid (1)
- Wundheilung (1)
- activated nanostructured carbon (1)
- adsorption (1)
- aktivierte nanostrukturierte Kohlenstofffaser (1)
- aromatic amines (1)
- autofluorescence-based detection system (1)
- biofilms (1)
- coculture (1)
- contractile tension (1)
- crop yield (1)
- cytosolic water diffusion (1)
- date palm tree (1)
- ecological structure (1)
- epithelization (1)
- exopolysaccharides (1)
- hemoglobin (1)
- hemoglobin dynamics (1)
- human dermal fibroblasts (1)
- humic acid (1)
- hydrogel (1)
- immobilization (1)
- kontraktile Spannung (1)
- light scattering analysis (1)
- lignite (1)
- lipopolysaccharide (1)
- low-rank coal (1)
- metagenomics (1)
- microbial diversity (1)
- naphtols (1)
- phenols (1)
- plant stress (1)
- plasma generated ions (1)
- protein (1)
- pullulan (1)
- rhAPC (1)
- shotgun sequencing (1)
- soil amendment (1)
- soil health (1)
- soil remediation (1)
- subglacial aquatic ecosystems (1)
- subsurface ice (1)
- subsurface ice research (1)
- subsurface probe (1)
- surface modification (1)
- water bridge phenomenon (1)
- wound healing (1)
Biocomposite Materials Based on Carbonized Rice Husk in Biomedicine and Environmental Applications
(2020)
This chapter describes the prospects for biomedical and environmental engineering applications of heterogeneous materials based on nanostructured carbonized rice husk. Efforts in engineering enzymology are focused on the following directions: development and optimization of immobilization methods leading to novel biotechnological and biomedical applications; construction of biocomposite materials based on individual enzymes, multi-enzyme complexes and whole cells, targeted on realization of specific industrial processes. Molecular biological and biochemical studies on cell adhesion focus predominantly on identification, isolation and structural analysis of attachment-responsible biological molecules and their genetic determinants. The chapter provides a short overview of applications of the biocomposite materials based of nanostructured carbonized adsorbents. It emphasizes that further studies and better understanding of the interactions between CNS and microbial cells are necessary. The future use of living cells as biocatalysts, especially in the environmental field, needs more systematic investigations of the microbial adsorption phenomenon.
The absence of a general method for endotoxin removal from liquid interfaces gives an opportunity to find new methods and materials to overcome this gap. Activated nanostructured carbon is a promising material that showed good adsorption properties due to its vast pore network and high surface area. The aim of this study is to find the adsorption rates for a carboneous material produced at different temperatures, as well as to reveal possible differences between the performance of the material for each of the adsorbates used during the study (hemoglobin, serum albumin and lipopolysaccharide, LPS).
As a deduction from these results, we can conclude that proteins mainly in vitro, denaturate totally at a temperature between 57°C -62°C, and they also affected by NO and different ions types. In which mainly, NO cause earlier protein denaturation, which means that, NO has a destabilizing effect on proteins, and also different ions will alter the protein denaturation in which, some ions will cause earlier protein denaturation while others not.