@article{alzagameem_klein_bergs_do_korte_dohlen_huewe_kreyenschmidt_kamm_larkins_et al._2019, title={Antimicrobial Activity of Lignin and Lignin-Derived Cellulose and Chitosan Composites against Selected Pathogenic and Spoilage Microorganisms}, volume={11}, ISSN={["2073-4360"]}, DOI={10.3390/polym11040670}, abstractNote={The antiradical and antimicrobial activity of lignin and lignin-based films are both of great interest for applications such as food packaging additives. The polyphenolic structure of lignin in addition to the presence of O-containing functional groups is potentially responsible for these activities. This study used DPPH assays to discuss the antiradical activity of HPMC/lignin and HPMC/lignin/chitosan films. The scavenging activity (SA) of both binary (HPMC/lignin) and ternary (HPMC/lignin/chitosan) systems was affected by the percentage of the added lignin: the 5% addition showed the highest activity and the 30% addition had the lowest. Both scavenging activity and antimicrobial activity are dependent on the biomass source showing the following trend: organosolv of softwood > kraft of softwood > organosolv of grass. Testing the antimicrobial activities of lignins and lignin-containing films showed high antimicrobial activities against Gram-positive and Gram-negative bacteria at 35 °C and at low temperatures (0–7 °C). Purification of kraft lignin has a negative effect on the antimicrobial activity while storage has positive effect. The lignin release in the produced films affected the activity positively and the chitosan addition enhances the activity even more for both Gram-positive and Gram-negative bacteria. Testing the films against spoilage bacteria that grow at low temperatures revealed the activity of the 30% addition on HPMC/L1 film against both B. thermosphacta and P. fluorescens while L5 was active only against B. thermosphacta. In HPMC/lignin/chitosan films, the 5% addition exhibited activity against both B. thermosphacta and P. fluorescens.}, number={4}, journal={POLYMERS}, author={Alzagameem, Abla and Klein, Stephanie Elisabeth and Bergs, Michel and Do, Xuan Tung and Korte, Imke and Dohlen, Sophia and Huewe, Carina and Kreyenschmidt, Judith and Kamm, Birgit and Larkins, Michael and et al.}, year={2019}, month={Apr} }
 @misc{alzagameem_bergs_do_klein_rumpf_larkins_monakhova_pude_schulze_2019, title={Low-Input Crops as Lignocellulosic Feedstock for Second-Generation Biorefineries and the Potential of Chemometrics in Biomass Quality Control}, volume={9}, ISSN={["2076-3417"]}, DOI={10.3390/app9112252}, abstractNote={Lignocellulose feedstock (LCF) provides a sustainable source of components to produce bioenergy, biofuel, and novel biomaterials. Besides hard and soft wood, so-called low-input plants such as Miscanthus are interesting crops to be investigated as potential feedstock for the second generation biorefinery. The status quo regarding the availability and composition of different plants, including grasses and fast-growing trees (i.e., Miscanthus, Paulownia), is reviewed here. The second focus of this review is the potential of multivariate data processing to be used for biomass analysis and quality control. Experimental data obtained by spectroscopic methods, such as nuclear magnetic resonance (NMR) and Fourier-transform infrared spectroscopy (FTIR), can be processed using computational techniques to characterize the 3D structure and energetic properties of the feedstock building blocks, including complex linkages. Here, we provide a brief summary of recently reported experimental data for structural analysis of LCF biomasses, and give our perspectives on the role of chemometrics in understanding and elucidating on LCF composition and lignin 3D structure.}, number={11}, journal={APPLIED SCIENCES-BASEL}, author={Alzagameem, Abla and Bergs, Michel and Do, Xuan Tung and Klein, Stephanie Elisabeth and Rumpf, Jessica and Larkins, Michael and Monakhova, Yulia and Pude, Ralf and Schulze, Margit}, year={2019}, month={Jun} }
 @article{alzagameem_el khaldi-hansen_buechner_larkins_kamm_witzleben_schulze_2018, title={Lignocellulosic Biomass as Source for Lignin-Based Environmentally Benign Antioxidants}, volume={23}, ISSN={["1420-3049"]}, DOI={10.3390/molecules23102664}, abstractNote={Antioxidant activity is an essential aspect of oxygen-sensitive merchandise and goods, such as food and corresponding packaging, cosmetics, and biomedicine. Technical lignin has not yet been applied as a natural antioxidant, mainly due to the complex heterogeneous structure and polydispersity of lignin. This report presents antioxidant capacity studies completed using the 2,2-diphenyl-1-picrylhydrazyl (DPPH) assay. The influence of purification on lignin structure and activity was investigated. The purification procedure showed that double-fold selective extraction is the most efficient (confirmed by ultraviolet-visible (UV/Vis), Fourier transform infrared (FTIR), heteronuclear single quantum coherence (HSQC) and 31P nuclear magnetic resonance spectroscopy, size exclusion chromatography, and X-ray diffraction), resulting in fractions of very narrow polydispersity (3.2–1.6), up to four distinct absorption bands in UV/Vis spectroscopy. Due to differential scanning calorimetry measurements, the glass transition temperature increased from 123 to 185 °C for the purest fraction. Antioxidant capacity is discussed regarding the biomass source, pulping process, and degree of purification. Lignin obtained from industrial black liquor are compared with beech wood samples: antioxidant activity (DPPH inhibition) of kraft lignin fractions were 62–68%, whereas beech and spruce/pine-mixed lignin showed values of 42% and 64%, respectively. Total phenol content (TPC) of the isolated kraft lignin fractions varied between 26 and 35%, whereas beech and spruce/pine lignin were 33% and 34%, respectively. Storage decreased the TPC values but increased the DPPH inhibition.}, number={10}, journal={MOLECULES}, author={Alzagameem, Abla and El Khaldi-Hansen, Basma and Buechner, Dominik and Larkins, Michael and Kamm, Birgit and Witzleben, Steffen and Schulze, Margit}, year={2018}, month={Oct} }