Kooperativer Bibliotheksverbund

UID:

Content: The plasticization behavior of pure polymers is well studied in literature. However, there are only few studies on the plasticization behavior of mixed matrix membranes. In Chapter 2 of this thesis, pure and mixed gas plasticization behavior of MMMs prepared from mesoporous Fe(BTC) nanoparticles and the polymer Matrimid® is investigated. All experiments were carried with solution casted dense membranes. Mesoporous Fe(BTC) MOF particles showed reasonably good compatibility with the polymer. Incorporation of Fe(BTC) in Matrimid® resulted in membranes with increased permeability and selectivity. At low pressures of 5 bar the MMMs showed an increase of 60 % in CO2 permeability and a corresponding increase of 29 % in ideal selectivity over pure Matrimid® membranes. It was observed that the presence of Fe(BTC) particles increases the plasticization pressure of Matrimid® based MMMs. Furthermore, this pressure increases more with increasing MOF loading. This delay in plasticization is attributed to the reduced mobility of the polymer chains in the vicinity of the Fe(BTC) particles. Also, at higher Fe(BTC) loadings, the membranes showed more or less constant selectivity over the whole pressure range investigated. Chapter 3 subsequently presented the preparation and plasticization behavior of MMMs based on three distinctively different MOFs (MIL-53(Al) (breathing MOF), ZIF-8 (flexible MOF) and Cu3(BTC)2 (rigid MOF)) dispersed in Matrimid®. The ideal and mixed gas performance of the prepared MMMs was determined and the effect of MOF structure on the plasticization behavior of MMMs was investigated. Among the three MOF-MMMs, membranes based on Cu3(BTC)2 showed highest selectivity while ZIF-8 based membranes showed highest permeability. The respective increase in performance of the MMMs is very much dependent on the MOF crystal structure and its interactions with CO2 molecules. Chapter 4 described the preparation of Matrimid® polyimide (PI)/polysulfone (PSF)-blend membranes containing ZIF-8 particles for high pressure gas separation. An optimized PI/PSF blend ratio (3:1) was used and performance and stability of PI/PSF mixed matrix membranes filled with different concentrations of ZIF-8 were investigated. PI and PSF were miscible and provided good compatibility with the ZIF-8 particles, even at high loadings. The PI/PSF-ZIF-8 MMMs showed significant enhancement in CO2 permeability with increased ZIF-8 loading, which was attributed to a moderate increase in sorption capacity and faster diffusion through the ZIF-8 particles. In pure gas measurements, pure PI/PSF blend (3:1) membranes showed a plasticization pressure of ~18 bar while the ZIF-8 MMMs showed a higher plasticization pressures of ~25 bar. Mixed gas measurements of PI/PSF-ZIF-8 MMMs showed suppression of plasticization as confirmed by a constant mixed gas CH4 permeability and a nearly constant selectivity with pressure but the effect was stronger at high ZIF-8 loadings. Gas separation results of the prepared PI/PSF-ZIF-8 MMMs show an increased commercial viability of Matrimid® based membranes and broadened their applicability, especially for high-pressure CO2 gas separations. In Chapter 5, a novel route for the preparation of mixed matrix membranes via a particle fusion approach was introduced. Surface modification of the polymer with 1-(3-aminopropyl)-imidazole led to an excellent ZIF-8-Matrimid® interfacial compatibility. It was possible to successfully prepare MMMs with MOF loadings as high as 30 wt.% without any non-selective defects. Upon increasing the ZIF-8 loading, MMMs showed significantly better performance in the separation of CO2/CH4 mixtures as compared to the native polymer. The CO2 permeability increased up to 200 % combined with a 65 % increase in CO2/CH4 selectivity, compared to the native Matrimid®. Chapter 6 finally discussed the conclusions and directions for future research based on the findings presented in this thesis. ; Le comportement plastifiant de polymères purs a été bien étudié dans la littérature. Toutefois, il n'y a eu que peu d'études concernant les membranes à matrices mixtes (MMM). Dans le chapitre 2 de cette thèse, le comportement plastifiant de MMM préparés à partir de nanoparticules mésoporeuses Fe(BTC) et du polymère Matrimid® est étudié avec un gaz pur ou en mélange. Les réseaux métaux-organiques (MOF) sous forme particulaires ont présenté une relativement bonne compatibilité avec le polymère. L'incorporation de Fe(BTC) dans du Matrimid® a permis d'augmenter la perméabilité et la sélectivité des membranes. Pour de faibles pressions de 5 bars, les MMM ont une perméabilité au CO2 de 60% plus grande ainsi qu'une sélectivité de 29% plus grande à comparer à la sélectivité idéale de membranes Matrimid®. Il a été observé que la présence de particules Fe(BTC) retardait l'effet plastifiant vers de plus grandes pressions. De plus, cette pression augmente avec le taux de MOF au sein du matériau. Ce retard est attribué à la mobilité réduite des chaînes polymères dans l'entourage des particules Fe(BTC). Egalement, pour des concentrations en MOF plus élevées, les membranes présentent une sélectivité plus ou moins constante sur toute la gamme de pression étudiée. Le chapitre 3 présente ensuite la préparation et le caractère plastifiant des MMMs basées sur trois types de MOFs (MIL-53(Al) (MOF « repirant »), ZIF-8 (MOF « flexible ») and Cu3(BTC)2 (MOF « rigide »)) dispersés dans le Matrimid®. Les performances en gaz pur ou en mélange ont été étudiées en fonction de la quantité de MOF introduite. Parmi les trois systèmes MOF-MMM, les membranes avec le Cu3(BTC)2 ont présenté la plus haute sélectivité alors que les membranes avec du ZIF-8 ont montré une plus grande perméabilité. Ces améliorations sont essentiellement le fait de la structure cristalline du MOF et de son interaction avec les molécules de CO2. Le chapitre 4 décrit la préparation de membranes à base de mélange Matrimid® polyimide (PI)/polysulfone (PSF) contenant des particules de ZIF-8 pour la séparation gazeuse à haute pression. Un mélange optimisé avec un rapport PI/PSF de 3:1 a été utilisé pour une étude sur la stabilité et la performance de ces MMMs incorporant différentes concentration de ZIF-8. PI et PSF étant miscibles, une bonne compatibilité avec les particules de ZIF-8 est observée. Les MMMs PI/PSF-ZIF-8 ont démontré une amélioration significative de la perméabilité en CO2 lors de l'augmentation de la concentration en ZIF-8, ce qui a été attribué à une augmentation modérée de la capacité de sorption et à une diffusion plus rapide au travers des particules de ZIF-8. Lors des mesures en gaz purs, les membranes PI/PSF (3:1) ont présenté une plastification vers 18 bars alors que l'introduction de ZIF-8 repousse cette valeur à 25 bars. En mélange de gaz, les MMMs PI/PSF-ZIF-8 ont abouti à une suppression de la plastification comme l'a confirmé une mesure constante de la perméabilité et de la sélectivité du CH4, et cet effet est plus accentué avec l'augmentation de la concentration en ZIF-8. Les résultats en séparation des gaz avec les MMMs PI/PSF-ZIF-8 montrent une performance supérieure à celle du Matrimid® ce qui laisse augurer un élargissement du spectre d'application de ces membranes, particulièrement pour la séparation du CO2 à haute pression. Dans le chapitre 5, une nouvelle voie de préparation des MMMs via la fusion contrôlée de particules a été introduite. La modification du Matrimid® par du 1-(3-aminopropyl)-imidazole a permis d'améliorer considérablement la compatibilité avec les particules de ZIF-8. Il a ainsi été possible de préparer des MMMs contenant 30% de MOF sans perte de sélectivité. En augmentant la concentration en ZIF-8, les MMMs ont de meilleures performances dans la séparation de mélange CO2/CH4 à comparer au polymère initial. La perméabilité a augmenté de plus de 200% avec une augmentation de 65% de sélectivité pour le mélange CO2/CH4.

Note: Dissertation HAL CCSD 2015

Language: English

URL: kostenfrei

UID:

ISSN: 2331-1975

Content: China–Pakistan Economic Corridor (CPEC), a multibillion-dollar partnered project is considered as a game-changer, as it combines the strategic interests of China and Pakistan that cannot be compromised. The mega-construction project has recently experienced xenophobic incidents involving Chinese and Pakistani nationals, creating significant harm towards the CPEC progress and success, especially under enormous geopolitical and economic threats. This sketches our motivation for conducting this research that focused on qualitative design based expert interviews of 8 individuals (i.e., both Chinese and Pakistani nationals) directly associated with CPEC. Drawing on a review of mainstream research, the article constructs a framework to explore the demotions of xenophobic behaviors at workplace and to explore the human resource diversity management (HRDM) practices (including intercultural training and development, flexible compensation, international staffing, work-design, and work-life balance) in coping with xenophobia and its sub-dimensions (including discrimination, prejudice, and stereotyping). Experts based interview findings confirm the presence of xenophobia in the CPEC. We propose a framework of various HRDM practices in managing the xenophobia at workplace, however, it is still in its infancy stage. Hence, the present study introduces a new operating model for future researchers, academicians, and management practitioners to cope with xenophobia based on the practices and insights that were explored during this research.

In: Cogent business & management, London : Taylor & Francis, 2014, 8(2021), 1, Artikel-ID 1883828, Seite 1-19, 2331-1975

In: volume:8

In: year:2021

In: number:1

In: elocationid:1883828

In: pages:1-19

Language: English

Keywords: Aufsatz in Zeitschrift

DOI: 10.1080/23311975.2021.1883828

URL: kostenfrei

URL: kostenfrei

URL: kostenfrei

UID:

Format: 1 DVD-Video (NTSC, alle Ländercodes, 106 Min.) , sd., farb. , 12 cm

Uniform Title: Kābula ekspresa

Content: Hindi motion picture

Note: Feature film. - Source used: videodisc container. - Originally released theatrically in 2006. - Sprache: Hindi. - Untertitel: engl.; arab.; franz.; span.; niederländ.; portug.; Tamil; Telugu; kanares.; Malayalam , Spielfilm. Indien. 2006

Language: Arabic , Dutch , English , French , Hindi , Kannada , Malayalam , Portuguese , Spanish , Tamil , Telugu

Keywords: Hindi ; Film ; Geschichte 2006 ; Film ; DVD-Video

UID:

Format: 1 Online-Ressource

ISBN: 9781119818816 , 1119818818 , 9781119818793 , 1119818796 , 9781119818809 , 111981880X

Content: The handbook provides a comprehensive view of cutting-edge research on biomass valorization, from advanced fabrication methodologies through useful derived materials, to current and potential application sectors. Industrial sectors, such as food, textiles, petrochemicals and pharmaceuticals, generate massive amounts of waste each year, the disposal of which has become a major issue worldwide. As a result, implementing a circular economy that employs sustainable practices in waste management is critical for any industry. Moreover, fossil fuels, which are the primary sources of fuel in the transportation sector, are also being rapidly depleted at an alarming rate. Therefore, to combat these global issues without increasing our carbon footprint, we must look for renewable resources to produce chemicals and biomaterials. In that context, agricultural waste materials are gaining popularity as cost-effective and abundantly available alternatives to fossil resources for the production of a variety of value-added products, including renewable fuels, fuel components, and fuel additives

Note: Includes bibliographical references and index , Energy, Biofuels and Bio-Aromatics. Photocatalytic Biomass Valorization into Valuable Chemicals / Brajesh Kumar, Lovjeet Singh, Pawan Rekha, Pradeep Kumar -- Biobased Aromatics-Challenges and Opportunities for Development of Lignin as Future Building Blocks / S Samraj, K Senthilkumar, B Bharathiraja -- Biofuels and Fine Chemicals From Lignocellulosic Biomass: A Sustainable and Circular Economy / Sushma, Shivangi Chamoli, Sreedevi Upadhyayula, Firdaus Parveen -- Carbon-Based Catalysts for Biorefinery Processes: Carbon-Based Catalysts for Valorization of Glycerol Waste From Biodiesel Industry / Pawan Rekha, Lovjeet Singh, Brajesh Kumar, Indu Chauhan, Satyendra Prasad Chaurasia -- Catalysts for Conversion of Lignocellulosic Biomass Into Platform Chemicals and Bio-Aromatics / Anjireddy Bhavanam, Poonam Gera, Nitin Naresh Pandhare, Subhrajeet Dash -- Pyrolysis of Triglycerides for Fuels and Chemical Production / Luana Marcele Chiarello, Tuanne Gomes Porto, Gabriel Henrique Wienhage, Vanderleia Botton, Vinicyus Rodolfo Wiggers -- Drying of Agro-Industrial Residues for Biomass Applications / Hugo Perazzini, Maisa Tonon Bitti Perazzini -- Extraction Characterization and Production of Biofuels From Algal Biomass / Neeraj, Yadav Shashikant -- Valorization of Biomass Derived Aldehydes Into Oxygenated Compounds / Komal Kumar, Sreedevi Upadhyayula -- Food, Agricultural and Environmental Sectors. Advancements in Chemical and Biotechnical Approaches Towards Valorization of Wastes From Food Processing Industries / S Lakshmi Sandhya Rani, R Vinoth Kumar -- Photocatalytic Biomass Transformation into Valuable Products / Jasmita Chauhan, SB Rathod, Gaurav Sanghvi, Vidya Patil-Patankar -- Organic Materials Valorization: Agro-Waste in Environmental Remediation, Phytochemicals, Biocatalyst and Biofuel Production / S Samraj, K Senthilkumar, D Balaji -- Valorization of Secondary Metabolites in Plants / Vidya Patil-Patankar, Pallavi Yadav-Bhagwat, Pradnya Kedari -- Functional and Digestibility Properties of Native, Single, and Dual Modified Rice (Oryza sativa L.) Starches for Food Applications /hah Asma Iftikhar, Himjyoti Dutta -- Valorization of Agricultural Wastes: A Step Toward Adoption of Smart Green Materials with Additional Benefit of Circular Economy / Kiran Jeet, Vinay Kumar, Anushree, Raman Devi -- Valorization of Agricultural Wastes: An Approach to Impart Environmental Friendliness / S Wazed Ali, Satyaranjan Bairagi, Debarati Bhattacharyya -- Valorization of Biomass Into Value-Added Products and Its Application Through Hydrothermal Liquefaction / Chitra Devi Venkatachalam, Sathish Raam Ravichandran, Mothil Sengottian -- Industrial Applications of Cellulose Extracted from Agricultural and Food Industry Wastes / Sumira Rashid, Himjyoti Dutta -- Valorization of Lignin Toward the Production of Novel Functional Materials / Anjireddy Bhavanam, Raghavendra Gujjala, G Srinivasu, Shakuntala Ojha -- Characterization and Valorization of Sludge From Textile Wastewater Plant for Positive Environmental Applications / Shumaila Kiran, Abdul Ghaffar, Sarosh Iqbal, Sadia Javed, Nosheen Aslam, Muhammad Asim Rafique, Zohra Zreen, Gulnaz Afzal, Nusrat Parveen, Saba Naz -- Impact of Biofertilizers in Sustainable Growth of Agriculture Sector / Prajwalita Pathak, Kankan Kishore Pathak, Arun Kumar Pathak -- Valorization of Agricultural Wastes as Low-Cost Adsorbents Towards Efficient Removal of Aqueous Cr(VI) / Rashmi Acharya, Kulamani Parida -- Index

Additional Edition: Erscheint auch als 1119818737

Additional Edition: 9781119818731

Language: English

DOI: 10.1002/9781119818816

URL: lizenzpflichtig

URL: lizenzpflichtig

UID:

Format: 1 online resource

ISBN: 9781119818816 , 1119818818 , 9781119818793 , 1119818796 , 9781119818809 , 111981880X

Note: Energy, Biofuels and Bio-Aromatics. Photocatalytic Biomass Valorization into Valuable Chemicals / Brajesh Kumar, Lovjeet Singh, Pawan Rekha, Pradeep Kumar -- Biobased Aromatics-Challenges and Opportunities for Development of Lignin as Future Building Blocks / S Samraj, K Senthilkumar, B Bharathiraja -- Biofuels and Fine Chemicals From Lignocellulosic Biomass: A Sustainable and Circular Economy / Sushma, Shivangi Chamoli, Sreedevi Upadhyayula, Firdaus Parveen -- Carbon-Based Catalysts for Biorefinery Processes: Carbon-Based Catalysts for Valorization of Glycerol Waste From Biodiesel Industry / Pawan Rekha, Lovjeet Singh, Brajesh Kumar, Indu Chauhan, Satyendra Prasad Chaurasia -- Catalysts for Conversion of Lignocellulosic Biomass Into Platform Chemicals and Bio-Aromatics / Anjireddy Bhavanam, Poonam Gera, Nitin Naresh Pandhare, Subhrajeet Dash -- Pyrolysis of Triglycerides for Fuels and Chemical Production / Luana Marcele Chiarello, Tuanne Gomes Porto, Gabriel Henrique Wienhage, Vanderleia Botton, Vinicyus Rodolfo Wiggers -- Drying of Agro-Industrial Residues for Biomass Applications / Hugo Perazzini, Maisa Tonon Bitti Perazzini -- Extraction Characterization and Production of Biofuels From Algal Biomass / Neeraj, Yadav Shashikant -- Valorization of Biomass Derived Aldehydes Into Oxygenated Compounds / Komal Kumar, Sreedevi Upadhyayula -- Food, Agricultural and Environmental Sectors. Advancements in Chemical and Biotechnical Approaches Towards Valorization of Wastes From Food Processing Industries / S Lakshmi Sandhya Rani, R Vinoth Kumar -- Photocatalytic Biomass Transformation into Valuable Products / Jasmita Chauhan, SB Rathod, Gaurav Sanghvi, Vidya Patil-Patankar -- Organic Materials Valorization: Agro-Waste in Environmental Remediation, Phytochemicals, Biocatalyst and Biofuel Production / S Samraj, K Senthilkumar, D Balaji -- Valorization of Secondary Metabolites in Plants / Vidya Patil-Patankar, Pallavi Yadav-Bhagwat, Pradnya Kedari -- Functional and Digestibility Properties of Native, Single, and Dual Modified Rice (Oryza sativa L.) Starches for Food Applications /hah Asma Iftikhar, Himjyoti Dutta -- Valorization of Agricultural Wastes: A Step Toward Adoption of Smart Green Materials with Additional Benefit of Circular Economy / Kiran Jeet, Vinay Kumar, Anushree, Raman Devi -- Valorization of Agricultural Wastes: An Approach to Impart Environmental Friendliness / S Wazed Ali, Satyaranjan Bairagi, Debarati Bhattacharyya -- Valorization of Biomass Into Value-Added Products and Its Application Through Hydrothermal Liquefaction / Chitra Devi Venkatachalam, Sathish Raam Ravichandran, Mothil Sengottian -- Industrial Applications of Cellulose Extracted from Agricultural and Food Industry Wastes / Sumira Rashid, Himjyoti Dutta -- Valorization of Lignin Toward the Production of Novel Functional Materials / Anjireddy Bhavanam, Raghavendra Gujjala, G Srinivasu, Shakuntala Ojha -- Characterization and Valorization of Sludge From Textile Wastewater Plant for Positive Environmental Applications / Shumaila Kiran, Abdul Ghaffar, Sarosh Iqbal, Sadia Javed, Nosheen Aslam, Muhammad Asim Rafique, Zohra Zreen, Gulnaz Afzal, Nusrat Parveen, Saba Naz -- Impact of Biofertilizers in Sustainable Growth of Agriculture Sector / Prajwalita Pathak, Kankan Kishore Pathak, Arun Kumar Pathak -- Valorization of Agricultural Wastes as Low-Cost Adsorbents Towards Efficient Removal of Aqueous Cr(VI) / Rashmi Acharya, Kulamani Parida -- Index

Additional Edition: ISBN 1119818737

Additional Edition: ISBN 9781119818731

Language: English

Keywords: Electronic books.

DOI: 10.1002/9781119818816

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781119818816

UID:

Format: 1 online resource (285 pages)

ISBN: 981-5036-72-6

Content: Advances in technology have enabled medicinal chemists to discover and formulate several highly specific, biocompatible, and non-toxic therapeutic agents for clinical applications. Nanotechnology has achieved significant progress in the last few decades and is crucial in every field of science and technology. Nanotechnology-based pharmaceuticals offer multifaceted and alternative methodologies in comparison to the limitations of many conventional clinical therapies. Expertise in designing and developing nanoformulations has helped in targeted drug delivery. Recently, the use of innovative therapeutic agents, particularly in nanomedicine, has accounted for a significant portion of the global pharmaceutical market and is predicted to continue to grow rapidly in the near future. Nanotherapeutic Strategies and New Pharmaceuticals is an accessible multi-part reference which informs the reader about several new techniques based on nanotechnology. The chapters explain relevant topics in detail. The book is designed to encourage and help undergraduate, graduate and post-graduate students in the field of nanotherapeutics, pharmaceuticals and bio-organic chemistry through the use of didactic language and simple illustrations. Part 2 of this book covers the potential of nanotherapeutics and natural therapies for treating neurological diseases, targeting ion channels, signal transduction therapy, gene therapy of single gene mutation diseases and for nanoformulations for special purposes such as wound healing and stimuli-responsive drug delivery. The book also features a chapter that summarizes the types of nanoparticles tailored for specific molecular targets that mediate different diseases. The book set serves as a textbook for students in pharmacology and medical biochemistry, as well as a quick reference for researchers on bio-organic chemistry, as well as general readers interested in nanomedicine.

Additional Edition: Print version: Khan, Shahid Ali Nanotherapeutic Strategies and New Pharmaceuticals: Part II Singapore : Bentham Science Publishers,c2021 ISBN 9789815036732

Language: English

UID:

Format: 1 Online-Ressource (xiii, 410 pages) , illustrations (some color)

ISBN: 9781119640868 , 1119640865 , 9781119641001 , 1119641004 , 9781119641018 , 1119641012

Series Statement: Emerging trends in medicinal and pharmaceutical chemistry

Content: "Over the past few decades, medicinal inorganic chemistry as an interdisciplinary sub-area of bioinorganic chemistry has received the growing attention of researchers in the search for promising antimicrobial, antimalarial, antiviral, and antitumor chemotherapeutic agents. An excellent compilation of reports on metal complexes has revealed the potency of metal complexes as better therapeutic agents. Metal-containing drugs have several promising advantages over organic ligands and have gained the trust of researches after the worldwide approval of the drug cisplatin. Their distinct mechanism of action makes them perfect candidates as alternatives to the conventional drugs to which resistance has already been shown. In this direction, a huge number of transition metal complexes have been synthesized and evaluated for their biological profiles"--...

Note: Includes bibliographical references and index , Description based on online resource; title from digital title page (viewed on July 20, 2020)

Additional Edition: 9781119640424

Language: English

DOI: 10.1002/9781119640868

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781119640868

UID:

Format: 1 online resource (285 pages)

ISBN: 9789815036725

Content: Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- About the Editors -- List of Contributors -- Nanotherapeutics for Treatment of Neurological Disorders -- Phoebe Wilson1,* -- 1. INTRODUCTION -- 2. TRANSPORTATION MECHANISM -- 2.1. Paracellular Transportation -- 2.2. Transcellular Passive Diffusion -- 2.2.1. Transporters -- 2.2.2. Transcytosis -- 3. NPS TYPES -- 3.1. Lipid-Based NPs -- 3.2. Polymeric NPs -- 3.3. Inorganic NPs -- 4. NEUROLOGICAL DISORDERS AND TREATMENT STRATEGIES -- 4.1. Parkinson's Disease -- 4.2. Alzheimer's Disease -- 4.3. Glioblastoma -- 4.4. Vascular Occlusion -- 5. BIOLOGICAL BARRIERS FOR DRUG DELIVERY -- CONCLUDING REMARKS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Molecular Mechanism of Therapeutic Actions of Some Nanoparticles in Some Diseases -- Bello Aminu Bello1,*, Ibrahim Khalil Adam1, Sani S. Usman2, Yahaya Saidu Gwarzo1, Luqman Shah3 and Fatima Sulaiman Abdullahi4 -- 1. INTRODUCTION -- 2. THE MOLECULAR MECHANISMS OF THERAPEUTIC ACTION OF NPS IN SOME DISEASES -- 2.1. Molecular Mechanism of Anticancer Activities of NPs -- 2.1.1. Molecular Mechanism of Anticancer Activity of AgNPs -- 2.1.2. Molecular Mechanism of Anticancer Activity of AuNPs -- 2.1.3. Molecular Mechanism of Anticancer Activity of Iron Oxide NPs (FeO-NPs) -- 2.1.4. Molecular Mechanism of Anticancer Activity of Titanium Dioxide NPs -- 2.1.5. Molecular Mechanism of Anticancer Activity of Cerium Oxide NPs -- 2.1.6. Molecular Mechanism of Anticancer Activity of Zinc Oxide NPs -- 2.1.7. Molecular Mechanism of Anticancer Activity of Copper Oxide NPs -- 2.2. Molecular Mechanism of Anti-diabetic Activities of NPs -- 2.3. Molecular Mechanism of Anti-bacterial Activities of NPs -- 2.3.1. Molecular Mechanism of Antibacterial Activity of ZnO-NPs.

Note: Description based on publisher supplied metadata and other sources

Additional Edition: 9789815036732

Additional Edition: Erscheint auch als Druck-Ausgabe 9789815036732

Language: English

URL: lizenzpflichtig

UID:

Format: 1 Online-Ressource

ISBN: 9781119818816 , 1119818818 , 9781119818793 , 1119818796 , 9781119818809 , 111981880X

Note: Includes bibliographical references and index

Additional Edition: 1119818737

Additional Edition: 9781119818731

Language: English

Keywords: Electronic books

DOI: 10.1002/9781119818816

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781119818816

UID:

Format: 1 online resource (xiii, 410 pages) : , illustrations (some color).

ISBN: 9781119640868 , 1119640865 , 9781119641001 , 1119641004 , 9781119641018 , 1119641012

Series Statement: Emerging trends in medicinal and pharmaceutical chemistry

Content: "Over the past few decades, medicinal inorganic chemistry as an interdisciplinary sub-area of bioinorganic chemistry has received the growing attention of researchers in the search for promising antimicrobial, antimalarial, antiviral, and antitumor chemotherapeutic agents. An excellent compilation of reports on metal complexes has revealed the potency of metal complexes as better therapeutic agents. Metal-containing drugs have several promising advantages over organic ligands and have gained the trust of researches after the worldwide approval of the drug cisplatin. Their distinct mechanism of action makes them perfect candidates as alternatives to the conventional drugs to which resistance has already been shown. In this direction, a huge number of transition metal complexes have been synthesized and evaluated for their biological profiles"--

Additional Edition: Print version: Advances in metallodrugs Hoboken, NJ : Wiley-Scrivener, 2020. ISBN 9781119640424

Language: English

Keywords: Electronic books. ; Electronic books. ; Electronic books. ; Electronic books.

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781119640868

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781119640868

URL: Click to View

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781119640868