New Journal of Chemistry

Journal: New Journal of Chemistry

Abbreviation

New J. Chem.

Publisher

Royal Society of Chemistry

ISSN

1144-0546
0398-9836
1369-9261

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Publications 1 - 10 of 23

Synthesis and structural characterization of Zn-containing DAF-1
Pinar, Ana B.; McCusker, Lynne B.; Baerlocher, Christian; et al. (2016)
New Journal of Chemistry
Solvophobically-driven 3-D self-assembly of exploded-type polyphenylene dendrimers
Clark, Christopher G.; Wenzel, Ryan J.; Andreitchenko, Ekaterina V.; et al. (2007)
New Journal of Chemistry
Non-charged, water soluble dendronized polymers
Zhang, Baozhong; Schlüter, A. Dieter (2012)
New Journal of Chemistry
Dendritic vectors for gene transfection
Guillot-Nieckowski, Marine; Eisler, Sara; Diederich, François (2007)
New Journal of Chemistry
Silica-supported single-site catalysts: to be or not to be? A conjecture on silica surfaces
Gajan, David; Copéret, Christophe (2011)
New Journal of Chemistry
Enhanced cytotoxicity by a benzothiazole-containing cisplatin derivative in breast cancer cells
You, Chaoqun; Yu, Jia; Sun, Yu; et al. (2017)
New Journal of Chemistry
Challenges and benefits of post-lithium-ion batteries
Walter, Marc; Kovalenko, Maksym V.; Kravchyk, Kostiantyn V. (2020)
New Journal of Chemistry
At present, rechargeable batteries composed of sodium, magnesium and aluminum are gaining attention as potentially less toxic and more economical alternatives to lithium-ion batteries. From this perspective, the last two decades have seen a surge of reports on various anodes and cathodes for post-lithium-ion batteries, including sodium-, magnesium-, and aluminum-ion batteries. Moreover, the new electrochemical concept of dual-ion batteries, such as magnesium–sodium and aluminum–graphite dual-ion batteries, has recently attracted considerable attention. In this focus article, the operational mechanisms of post-lithium-ion batteries are discussed and compared with lithium-ion technology, along with core challenges currently limiting their development and benefits of their practical deployment.
Hemoglobin immobilized on mesoporous silica as effective material for the removal of polycyclic aromatic hydrocarbons pollutants from water
Laveille, Paco; Falcimaigne, Aude; Chamouleau, Françoise; et al. (2010)
New Journal of Chemistry
Free hemoglobin (Hb) in water at pH 5 is able to oxidize 11 polycyclic aromatic hydrocarbons (PAH) (300 nM each) in the presence of H2O2 amounting to 75% PAH removal. PAH are carcinogenic, mutagenic and xenobiotic pollutants found in wastewaters of oil refineries. However Hb is pH sensitive and is effective only at pH 5. In order to use Hb for real wastewater treatment (6.5 < pH < 8.5), Hb was immobilized by simple adsorption in selected large pore mesoporous silicas at a loading of 300 mg Hb per g silica. The reaction of Hb with PAH is pseudo-catalytic because an excess of H2O2 ([H2O2]/[PAH] > 2500) and of Hb ([Hb]/[PAH] > 2) is necessary to reach an optimal PAH removal. The excess of Hb depends on the PAH physico-chemical characteristics. At pH = 7, the activity of free Hb decreased to 47% of PAH removal, whereas the Hb-immobilized silica allowed 82% of PAH removal. Immobilization of Hb in silicas leads to a protection of Hb towards pH, solvent, temperature and inactivation by H2O2. These results open the perspective for a new biotechnology process aimed at cleaning contaminated wastewaters by a reactive adsorption process followed by filtration.
Mastering bioactive coatings of metal oxide nanoparticles and surfaces through phosphonate dendrons
Nguyen, Dinh-Vu; Hugoni, Ludivine; Filippi, Miriam; et al. (2020)
New Journal of Chemistry
We reported herein an efficient method for constructing dendritic bisphosphonic acid tweezers of generation 1 and 2, which have been proven as versatile surface coatings for metal oxides implants or nanoparticles. These dendritic structures were successfully utilized for different purposes: (i) biocompatible coverings for iron oxide nanoparticles through in vitro assays, (ii) antifouling surface coatings for silica through quartz crystal microbalance studies, and (iii) stabilizing ligands for magnetic nanoparticle–microbubble conjugates via preliminary Langmuir monolayer studies.
Experimental and ab initio calculated structures of 2-aminoindane-2-phosphonic acid, a potent inhibitor of phenylalanine ammonia-lyase, and theoretical studies of its binding to the model enzyme structure
Zon, J.; Szefczyk, B.; Sawka-Dobrowolska, W.; et al. (2004)
New Journal of Chemistry

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