Hani Nasser Abdelhamid

Bio: Hani Nasser Abdelhamid is an academic researcher from Assiut University. The author has contributed to research in topics: Zeolitic imidazolate framework & Mass spectrometry. The author has an hindex of 41, co-authored 121 publications receiving 4181 citations. Previous affiliations of Hani Nasser Abdelhamid include Stockholm University & National Sun Yat-sen University.

Multifunctional graphene magnetic nanosheet decorated with chitosan for highly sensitive detection of pathogenic bacteria.

Abstract: Multifunctional graphene magnetic nanosheet decorated with chitosan (GMCS) is demonstrated as a promising biosensor for fluorescence spectroscopy and it can be also applied for matrix assisted laser desorption/ionization mass spectrometry (MALDI-MS) for sensitive pathogenic bacteria detection. Graphene-magnetic@chitosan (GMCS) can be applied for multiple applications such as fluorescence biosensor, fluorescence background suppressor, acting as co-matrix, enriching nanoprobe, and separation by external magnets for pathogenic bacteria (Pseudomonas aeruginosa and Staphylococcus aureus) present in aqueous suspension or blood colloids. GMCS has been prepared and characterized using various techniques including TEM, UV, FTIR, XRD, Raman and fluorescence spectroscopy. Due to the non-covalent interactions among the pathogenic bacteria with the GMCS, fluorescence enhancement takes place as a function of bacterial cell number with a low number of cell detection (4.5 × 102 to 5.0 × 102 cfu mL−1) and wide linear dynamic range which indicates that the GMCS approach is an excellent quantitative methodology and highly sensitive approach for detection of bacteria cells. Graphene works intrinsically as a fluorescence quencher for blood fluorophores and cell autofluorescence as graphene typically has a long life time, which allows detection of the bacteria signals by direct fluorescence measurements. Because of the high fluorescence enhancement efficiency, and large surface area (to volume ratio) of graphene, GMCS exhibits extraordinarily high sensitivity for complex (blood) sample analysis. GMCS also can be applied as an efficient separation and preconcentration nanoprobe for surface assisted laser desorption/ionization (SALDI) and enhances the ionization of bacterial biomolecules during MALDI-MS analysis. The bacterial cell suspension was concentrated from 1 mL to 10 μL via an external magnetic field, thus it can enhance bacteria detection for MALDI-MS analysis. GMCS is an outstanding approach which is a rapid, sensitive, culture free technique and low cost biosensor for pathogenic bacteria detection.

CelloMOF: Nanocellulose Enabled 3D Printing of Metal–Organic Frameworks

Abstract: 3D printing is recognized as a powerful tool to develop complex geometries for a variety of materials including nanocellulose. Herein, a one-pot synthesis of 3D printable hydrogel ink containing ze ...

Series of Highly Stable Isoreticular Lanthanide Metal–Organic Frameworks with Expanding Pore Size and Tunable Luminescent Properties

Abstract: A series of highly porous isoreticular lanthanide-based metal–organic frameworks (LnMOFs) denoted as SUMOF-7I to SUMOF-7IV (SU = Stockholm University; Ln = La, Ce, Pr, Nd, Sm, Eu, and Gd) have been synthesized using tritopic carboxylates as the organic linkers. The SUMOF-7 materials display one-dimensional pseudohexagonal channels with the pore diameter gradually enlarged from 8.4 to 23.9 A, as a result of increasing sizes of the organic linkers. The structures have been solved by single crystal X-ray diffraction or rotation electron diffraction (RED) combined with powder X-ray diffraction (PXRD). The SUMOF-7 materials exhibit robust architectures with permanent porosity. More importantly, they exhibit exceptionally high thermal and chemical stability. We show that, by inclusion of organic dye molecules, the luminescence properties of the MOFs can be elaborated and modulated, leading to promising applications in sensing and optics.

Metal-organic frameworks: functional luminescent and photonic materials for sensing applications.

Abstract: Metal–organic frameworks (MOFs) or porous coordination polymers (PCPs) are open, crystalline supramolecular coordination architectures with porous facets. These chemically tailorable framework materials are the subject of intense and expansive research, and are particularly relevant in the fields of sensory materials and device engineering. As the subfield of MOF-based sensing has developed, many diverse chemical functionalities have been carefully and rationally implanted into the coordination nanospace of MOF materials. MOFs with widely varied fluorometric sensing properties have been developed using the design principles of crystal engineering and structure–property correlations, resulting in a large and rapidly growing body of literature. This work has led to advancements in a number of crucial sensing domains, including biomolecules, environmental toxins, explosives, ionic species, and many others. Furthermore, new classes of MOF sensory materials utilizing advanced signal transduction by devices based on MOF photonic crystals and thin films have been developed. This comprehensive review summarizes the topical developments in the field of luminescent MOF and MOF-based photonic crystals/thin film sensory materials.

Biological Activity of Ionic Liquids and Their Application in Pharmaceutics and Medicine.

Abstract: Ionic liquids are remarkable chemical compounds, which find applications in many areas of modern science. Because of their highly tunable nature and exceptional properties, ionic liquids have become essential players in the fields of synthesis and catalysis, extraction, electrochemistry, analytics, biotechnology, etc. Apart from physical and chemical features of ionic liquids, their high biological activity has been attracting significant attention from biochemists, ecologists, and medical scientists. This Review is dedicated to biological activities of ionic liquids, with a special emphasis on their potential employment in pharmaceutics and medicine. The accumulated data on the biological activity of ionic liquids, including their antimicrobial and cytotoxic properties, are discussed in view of possible applications in drug synthesis and drug delivery systems. Dedicated attention is given to a novel active pharmaceutical ingredient-ionic liquid (API-IL) concept, which suggests using traditional drugs in ...

The Merck Index

Abstract: The Merck Index of Chemicals and Drugs An Encyclopedia for the Chemist, Pharmacist, Physician and Allied Professions Sixth edition Pp xiv + 1167 (Rahway, NJ: Merck and Company, Inc, 1952) 750 dollars; thumb-indexed, 8 dollars

Basic and Clinical Pharmacology

Abstract: This book succeeds Review of Medical Pharmacology , by Meyers, Jawetz, and Goldfien. Edited by B. G. Katzung, some of the important areas covered include drug receptors and pharmacodynamics, pharmacokinetics of absorption and biotransformation of drugs, autonomic pharmacology of cholinergic and adrenergic receptor stimulants and antagonists, antihypertensive agents, cardiac glycosides and other agents used in the treatment of congestive heart failure, therapeutic drugs for cardiac arrhythmias, diuretics, pharmacology of the CNS drugs such as anticonvulsants and anesthetics, antidepressants, narcotic analgesics, nonsteroidal anti-inflammatory agents, endocrine pharmacology, antimicrobial and antimycobacterial drugs, antiprotozoal and antihelmintic drugs, cancer chemotherapy, and drugs and the immune system. Written by several prominent researchers and scientists, each chapter begins with a section on the basic pharmacology, chemistry, pharmacokinetics, and pharmacodynamics of the agents under discussion. This is followed by a section on clinical pharmacology, which deals with relevant information regarding the clinical use of drugs on the various

Improving MOF stability: approaches and applications

Abstract: Metal-organic frameworks (MOFs) have been recognized as one of the most important classes of porous materials due to their unique attributes and chemical versatility. Unfortunately, some MOFs suffer from the drawback of relatively poor stability, which would limit their practical applications. In the recent past, great efforts have been invested in developing strategies to improve the stability of MOFs. In general, stable MOFs possess potential toward a broader range of applications. In this review, we summarize recent advances in the design and synthesis of stable MOFs and MOF-based materials via de novo synthesis and/or post-synthetic structural processing. Also, the relationships between the stability and functional applications of MOFs are highlighted, and finally, the subsisting challenges and the directions that future research in this field may take have been indicated.