Mechanochemical preparation of Ag catalysts for the n-octane-SCR de-NOx reaction: Structural and reactivity effects

Mechanochemical preparation of Ag/Al2O3 catalysts used for the selective catalytic reduction of NOx using hydrocarbons has been shown to substantially increase the activity of the catalyst in comparison with Ag/Al2O3 prepared by wet impregnation. The effect of using different ball-milling experimental parameters on both the structure of the material as well as the catalyst activity has been investigated and the optimum conditions established. A phase transition from γ- to α-alumina was observed milling at high speeds which was found to result in lower catalyst activities. At lower milling speeds both fracturing and agglomeration of the alumina support can be observed depending on the grinding time. However, due to ball-milling, a general enhancement in the NOx reduction activity was observed for all catalysts compared with the conventionally prepared catalysts irrespective of the reductant used. Transient DRIFTS-MS experiments were performed to investigate the effect of H2 in the absence and presence of water on the SCR reaction over catalysts prepared by both ball milling and wet impregnation. In-situ DRIFTS-MS analysis revealed significant differences in both gas phase and surface species. Most notably, isocyanate species were formed significantly more quickly and at higher surface concentration in the case of the mechanochemically prepared catalyst.

Microwave-Assisted Preparation of Hydrogel-Forming Microneedle Arrays for Transdermal Drug Delivery Applications

A microwave (MW)-assisted crosslinking process to prepare hydrogel-forming microneedle (MN) arrays was evaluated. Conventionally, such MN arrays are prepared using processes that includes a thermal crosslinking step. Polymeric MN arrays were prepared using poly(methyl vinyl ether-alt-maleic acid) crosslinked by reaction with poly(ethylene glycol) over 24 h at 80 °C. Polymeric MN arrays were prepared to compare conventional process with the novel MW-assisted crosslinking method. Infrared spectroscopy was used to evaluate the crosslinking degree, evaluating the area of the carbonyl peaks (2000–1500 cm−1). It was shown that, by using the MW-assisted process, MN with a similar crosslinking degree to those prepared conventionally can be obtained in only 45 min. The effects of the crosslinking process on the properties of these materials were also evaluated. For this purpose swelling kinetics, mechanical characterisation, and insertion studies were performed. The results suggest that MN arrays prepared using the MW assisted process had equivalent properties to those prepared conventionally but can be produced 30 times faster. Finally, an in vitro caffeine permeation across excised porcine skin was performed using conventional and MW-prepared MN arrays. The release profiles obtained can be considered equivalent, delivering in both cases 3000–3500 μg of caffeine after 24 h.

Synthesis by extrusion: continuous, large-scale preparation of MOFs using little or no solvent

Grinding solid reagents under solvent-free or low-solvent conditions (mechanochemistry) is emerging as a general synthetic technique which is an alternative to conventional solvent-intensive methods. However, it is essential to find ways to scale-up this type of synthesis if its promise of cleaner manufacturing is to be realised. Here, we demonstrate the use of twin screw and single screw extruders for the continuous synthesis of various metal complexes, including Ni(salen), Ni(NCS)(2)(PPh3)(2) as well as the commercially important metal organic frameworks (MOFs) Cu-3(BTC)(2) (HKUST-1), Zn(2-methylimidazolate)(2) (ZIF-8, MAF-4) and Al(fumarate)(OH). Notably, Al(fumarate)(OH) has not previously been synthesised mechanochemically. Quantitative conversions occur to give products at kg h(-1) rates which, after activation, exhibit surface areas and pore volumes equivalent to those of materials produced by conventional solvent-based methods. Some reactions can be performed either under completely solvent-free conditions whereas others require the addition of small amounts of solvent (typically 3-4 mol equivalents). Continuous neat melt phase synthesis is also successfully demonstrated by both twin screw and single screw extrusion for ZIF-8. The latter technique provided ZIF-8 at 4 kg h(-1). The space time yields (STYs) for these methods of up to 144 x 10(3) kg per m(3) per day are orders of magnitude greater than STYs for other methods of making MOFs. Extrusion methods clearly enable scaling of mechanochemical and melt phase synthesis under solvent-free or low-solvent conditions, and may also be applied in synthesis more generally.

Preparation of Dess-Martin periodinane - The role of the morphology of 1-hydroxy-1,2-benziodoxol-3(1H)-one 1-oxide precursor

1-Hydroxy-1,2-benziodoxol-3(1H)-one I-oxide prepared by oxidation of o-iodobenzoic acid with potassium bromate forms either a microcrystalline powder, a macrocrystalline material, or a mixture of both forms. This difference in physical form is the source of the difficulty in reproducibly converting 1-hydroxy-1,2-benziodoxol-3(1H)-one 1-oxide to the corresponding I-triacetoxy derivative. A simple method is given for conversion of crystalline 1-hydroxy-1,2-benziodoxol-3(1H)-one 1-oxide to the more reactive powder form, The microcrystalline powder and macrocrystalline material are characterised by X-ray diffraction.

Simple preparation of positively charged silver nanoparticles for detection of anions by surface-enhanced Raman spectroscopy

Modification of citrate and hydroxylamine reduced Ag colloids with thiocholine bromide, a thiol functionalized quaternary ammonium salt, creates particles where the zeta potential is switched from the normal values of ca. -50 mV to ca. + 50 mV. These colloids are stable but can be aggregated with metal salts in much the same way as the parent colloids. They are excellent SERS substrates for detection of anionic targets since their positive zeta potentials promote adsorption of negatively charged ions. This is important because the vast majority of published SERS studies involve cationic or neutral targets. Moreover, the fact that the modifier is a quaternary ammonium ion means that the negative surface charge is maintained even at alkaline pH. The modified colloids can be used to detect compounds which cannot be detected using conventional negatively-charged citrate or hydroxylamine reduced metal nanoparticles, for example the detection limit was 5.0 x 10(-5) M for perchlorate and

Process for the preparation of heterocyclyl chalcogenones via reaction of elemental sulfur, selenium, or tellurium with heterocyclic cationic species.

Heterocyclic chalcogenones were prepd. by reaction of S, Se, or Te with ionic liqs. or salts [I; Ra = (substituted) alkyl, cycloalkyl, aryl, aralkyl, alkylaryl; Q = (unsatd.) (substituted) linker to form a ring of 5-10 members; X- = anion selected from conjugate bases of HX having a pKa value of >2.5]. Thus, 1-butyl-3-methylimidazolium acetate was heated with stoichiometric S at 75° for 48 h to give 1-butyl-3-methylimidazole-2-thione. [on SciFinder(R)]

Process for the preparation of water-soluble cellulose hydrolysis products.

The title process comprises admixing cellulose with an ionic liq. capable of solvating or dissolving at least some of the cellulose, the ionic liq. being a compd. comprised solely of cations and anions (e.g., 1-ethyl-3-methylimidazolium sulfate) and which exists in a liq. state at a temp. at or below 150°, and in which the anions are selected from sulfate, hydrogen sulfate and nitrate; and treating the resulting solvate or soln. with an acid in the presence of water, the acid having a pKa in water of less than 2 at 25°. [on SciFinder(R)]

Process for the preparation of water-soluble cellulose hydrolysis products.

The title process comprises admixing cellulose with an ionic liq. capable of solvating or dissolving at least some of the cellulose, the ionic liq. being a compd. comprised solely of cations and anions (e.g., 1-ethyl-3-methylimidazolium sulfate) and which exists in a liq. state at a temp. at or below 150°, the cations in the ionic liq. having the general formula R1Z(R2)(R3)R4: in which Z represents a nitrogen or phosphorus atom, R1 represents a Me or Et group, each of R2 and R3, which may be the same or different, is selected from C4-8alkyl, optionally-substituted benzyl, optionally-substituted Ph, and C5-7cycloalkyl, and R4 represents C1-8 alkyl, optionally-substituted benzyl, optionally-substituted Ph or C5-7cyclohexyl; in which the optional substituents on a benzyl or Ph ring are one, two or three substituents selected from C1-4alkyl or alkoxy groups, halogen atoms and nitro groups; and treating the resulting solvate or soln. with an acid in the presence of water, the acid having a pKa in water of less than 2 at 25°. [on SciFinder(R)]

Preparation of La2NiO4+δ powders as a cathode material for SOFC via a PVP-assisted hydrothermal route

Uniform submicron La₂NiO_4+δ (sm-LNO) powders have been synthesized by a facile polyvinylpyrrolidone (PVP)-assisted hydrothermal route. In the presence of PVP, sm-LNO of pure phase has been obtained by calcination at the relatively low temperature of 900 °C for 8 h. Compared micron-sized LNO (m-LNO) particles obtained at 1,000 °C by hydrothermal synthesis route without PVP assisted, the sm-LNO-PVP displays regularly shaped and well-distributed particles in the range of 0.3–0.5 μm. The scanning electron microscopy (SEM) results showed that the sm-LNO sample is submicronic and that the m-LNO sample shows agglomerates with a broad size distribution. The electrochemical performance of m-LNO and sm-LNO-PVP has been investigated by electrochemical impedance spectroscopy. The polarization resistance of the sm-LNO-PVP cathode reaches a value of 0.40 Ω cm² at 750 °C, which is lower than that of m-LNO (0.62 Ω cm²). This result indicates that a fine electrode microstructure with submicron particles can help to increase the active sites, accelerate oxygen diffusion, and reduce polarization resistance. An anode-supported single cell with sm-LNO cathode has been fabricated and tested over a temperature range from 650 to 800 °C. The maximum power density of the cell has achieved 834 mW cm⁻² at 750 °C. These results therefore show that this PVP-assisted hydrothermal method is an effective approach to construct submicron-structured cathode and enhance the performance of intermediate temperature solid oxide fuel cell.

In situ preparation of 3D graphene aerogels@hierarchical Fe3O4 nanoclusters as high rate and long cycle anode materials for lithium ion batteries

We describe a novel strategy for in situ fabrication of hierarchical Fe₃O₄ nanoclusters-GAs. Fe₃O₄ NCs-GAs deliver excellent rate capability (the reversible capacities obtained were 1442, 392 and 118 mA h g^-1 at 0.1C, 12C and 35C rates), and a high reversible capacity of 577 mA h g^-1 over 300 cycles at the current density of 5.2 A g^-1 (6C).

Preparation of new materials by heterogeneous modification of cellulose

O presente trabalho teve como principal objectivo estudar a modificação química heterogénea controlada de fibras de celulose com diferentes reagentes de modo a alterar as suas propriedades de superfície, em especial em termos da criação de um carácter hidrofóbico e lipofóbico, preservando, sempre que possível, as suas propriedades mecânicas e, consequentemente, abrindo novas perspectivas de aplicação. O desenvolvimento do trabalho envolveu três abordagens principais, envolvendo, em cada caso, o estudo de diferentes condições reaccionais. Na primeira abordagem foram utilizados como reagentes de modificação compostos perfluorados, nomeadamente o anidrido trifluoroacético (TFAA), o cloreto de 2,3,4,5,6-pentafluorobenzoílo (PFBz) e o cloreto de 3,3,3- trifluoropropanoílo (TFP), para promover a acilação heterogénea da superfície das fibras. A segunda estratégia usada consistiu na preparação de híbridos de celulose do tipo orgânico-inorgânico classe-II, através da modificação das fibras de celulose com o (3-isocianatopropil)trietoxissilano (ICPTEOS), um reagente organossilano bifuncional. A ligação às fibras de celulose foi efectuada através das funções isocianato e, posteriormente, os grupos etoxissilano foram sujeitos a tratamentos de hidrólise ácida, como tal ou na presença de outros siloxanos, nomeadamente o tetraetoxissilano (TEOS) e o 1H,1H,2H,2Hperfluorodeciltrietoxissilano (PFDTEOS). Finalmente, a última abordagem foi baseada na modificação das fibras com triclorometilssilano (TCMS), através de uma reacção gás-sólido, que dispensou assim o uso de solventes orgânicos. A ocorrência de modificação química foi em cada caso confirmada por Espectroscopia de Infravermelho com Transformada de Fourier e Reflectância Total Atenuada (FTIR-ATR), Análise Elementar (EA) e determinação de ângulos de contacto. Adicionalmente, e dependendo de cada caso específico, diversas outras técnicas foram empregues na caracterização aprofundada dos materiais preparados, nomeadamente Ressonância Magnética Nuclear CPMAS no Estado Sólido (RMN), Espectroscopia de Difracção de Raios-X (XRD), Análise Termogravimétrica (TGA), Espectrometria de Massa de Iões Secundários com Análise de Tempo de Vôo (ToF-SIMS), Espectroscopia Fotoelectrónica de Raios-X (XPS) e Microscopia Electrónica de Varrimento (SEM). Relativamente à acilação das fibras de celulose com reagentes perfluorados, o sucesso da reacção foi comprovado por FTIR-ATR, EA, XPS e ToF-SIMS. Neste contexto, obtiveram-se fibras modificadas possuindo graus de substituição (DS) compreendidos entre 0.006 e 0.39. Verificou-se por XRD que, em geral, mesmo para os valores de DS mais elevados, a cristalinidade das fibras não foi afectada, indicando que a modificação foi limitada às camadas mais superficiais das mesmas ou a regiões amorfas das suas camadas mais internas. Adicionalmente, observou-se por ToF-SIMS que a distribuição dos grupos perfluorados à superfície das fibras foi, de facto, bastante heterogénea. Todos os derivados de celulose perfluorados apresentaram elevada hidrofobicidade e lipofobicidade, tendo-se atingido ângulos de contacto com água e diiodometano de 126º e 104º, respectivamente. Um aspecto interessante relativo a estes materiais é que a elevada omnifobicidade foi observada mesmo para valores de DS muito reduzidos, não se mostrando significativamente afectada pelo aumento dos mesmos. Em consonância, verificou-se por XPS que a cobertura da superfície das fibras de celulose com grupos perfluorados aumentou apenas ligeiramente com o aumento do DS, apontando para a esterificação de camadas mais internas das fibras, associada, neste caso, predominantemente aos seus domínios amorfos. No que diz respeito à estabilidade hidrolítica destes derivados, obtiveram-se dois tipos distintos de comportamento. Por um lado, as fibras de celulose trifluoroacetiladas são facilmente hidrolisáveis em meio neutro, e, por outro, as fibras pentafluorobenzoiladas e trifluoropropanoiladas mostram-se bastante resistentes face a condições de hidrólise em meio neutro e ácido (pH 4), podendo, contudo, ser facilmente hidrolisadas em meio alcalino (pH 9 e 12, para derivados do PFBz e do TFP, respectivamente). Na segunda abordagem verificou-se a ocorrência de reacção por FTIR-ATR e EA. Em geral, a modificação química com ICPTEOS ocorre predominantemente nas zonas mais superficiais das fibras de celulose ou em regiões amorfas. Contudo, em condições reaccionais mais severas (maior quantidade de reagente e tempo de reacção), esta atingiu também regiões cristalinas, afectando, consequentemente, a estrutura cristalina das fibras, como verificado por XRD. Por RMN de 29Si observou-se que após reacção com o ICPTEOS já existiam indícios de alguma hidrólise dos grupos etoxissilano, e que a sua subsequente condensação parcial tinha levado à formação de uma película inorgânica em redor das fibras (verificado por SEM), constituída maioritariamente por estruturas lineares, com uma contribuição mais modesta de estruturas “diméricas” e outras mais ramificadas. Consequentemente, este revestimento inorgânico transformou as fibras de celulose em materiais híbridos com elevada hidrofobicidade (ângulos de contacto com água entre 103-129º). A hidrólise ácida dos restantes grupos etoxissilano, como tal ou na presença de TEOS, originou híbridos de celulose com elevada hidrofilicidade, sendo impossível medirem-se os ângulos de contacto com água dos produtos finais, devido à presença maioritária de grupos silanol (Si-OH) e ligações Si-O-Si à superfície, os quais contribuíram para o consequente aumento de energia de superfície. No entanto, quando a hidrólise foi realizada na presença de PFDTEOS, obtiveram-se materiais híbridos com elevada hidrofobicidade e lipofobicidade (ângulos de contacto com água e diiodometano de 140º e 134º, respectivamente), devido à combinação da presença de grupos perfluorados e micro- e nano-rugosidades na superfície das fibras de celulose, conforme confirmado por SEM. Finalmente, a última abordagem permitiu preparar materiais derivados de celulose altamente hidrofóbicos e lipofóbicos (ângulos de contacto com água e diiodometano de 136º e 109º, respectivamente) por um processo simples, envolvendo tempos de tratamento tão curtos como 0.5 min. Este comportamento omnifóbico foi gerado pelo efeito sinergético entre a diminuição de energia de superfície das fibras, devido à presença de grupos metilo dos resíduos de TCMS ligados a estas, e a condensação dos resíduos de TCMS na forma de micro- e nano-partículas inorgânicas, que levou à criação de um revestimento rugoso à superfície das fibras, conforme observado por RMN de 29Si e SEM, respectivamente. A pré-humidificação das fibras de celulose demonstrou desempenhar um importante papel de “acelerador” dos processos de hidrólise e condensação das moléculas de TCMS. Nestas condições, o tempo de tratamento foi um dos parâmetros mais relevantes, pois para tempos de tratamento muito curtos (0.5 min) os materiais resultantes não apresentaram quaisquer diferenças a nível de propriedades físico-químicas em relação ao substrato de partida (a humidade em excesso consumiu todo o TCMS antes que este conseguisse reagir com os grupos hidroxilo das fibras de celulose), possuindo, por exemplo, valores de ângulos de contacto com água idênticos. Para tempos de tratamento mais longos, como 30 min, os materiais finais apresentaram a maior quantidade de componentes inorgânicos, tal como verificado por EA e TGA. Assim, o controlo da humidade das fibras é imperativo para se poder moldar as propriedades finais dos produtos. Esta última abordagem é particularmente promissora uma vez que tem como base um sistema simples e “verde” que pode ser facilmente implementado. Em conclusão, este trabalho permitiu demonstrar que a modificação química heterogénea controlada das fibras de celulose representa uma iniciativa promissora para a preparação de novos materiais obtidos a partir de recursos renováveis, com propriedades interessantes e passíveis de ser potencialmente aplicados em diferentes áreas. Para além do mais, as estratégias de modificação estudadas podem também ser precursoras de novos estudos que possam vir a ser desenvolvidos dentro do mesmo âmbito.

Preparation of SrMgx-Ru1-xO3 thin films by pulsed laser deposition /

SrMg^Rui-iOa thin films were made by using pulsed laser deposition on SrTiOa (100) substrates in either O2 or Ar atmosphere. The thin films were characterized by x-ray diffraction, energy dispersive x-ray microanalysis, dc resistivity measurement, and dc magnetization measurement. The effect of Mg doping was observed. As soon as the amount of Mg increased in SrMg-cRui-iOa thin films, the magnetization decreased, and the resistivity increased. It had little effect on the Curie temperature (transition temperature). The magnetization states of SrMgiRui-iOa thin films, for x < 0.15, are similar to SrRuOs films. X-ray diffraction results for SrMga-Rui-iOa thin films made in oxygen showed that the films are epitaxial. The thin films could not be well made in Ar atmosphere during laser ablation as there was no clear peak of SrMg^Rui-iOa in x-ray diffraction results. Substrate temperatures had an effect on the resistivity of the films. The residual resistivity ratios were increased by increasing substrate temperature. It was observed that the thickness of thin films are another factor for film quality: Thin films were epitaxial, but thicker films were not epitaxial.

Synthesis and utilization of guanidine catalysts for applications directed towards the preparation of butenolide and modified amino acid derivatives

Development of guanidine catalysts is explored through direct iminium chloride and amine coupling, alongside a 2-chloro-l,3-dimethyl-IH-imidazol-:-3-ium chloride (DMC) induced thiourea cyclization. Synthesized achiral catalyst N-(5Hdibenzo[ d,t][1,3]diazepin-6(7H)-ylidene)-3,5-bis(trifluoromethyl) aniline proved unsuccessful towards O-acyl migrations, however successfully catalyzed the vinylogous aldol reaction between dicbloro furanone and benzaldehyde. Incorporating chirality into the guanidine catalyst utilizing a (R)-phenylalaninol auxiliary, generating (R)-2-((5Hdibenzo[ d,t] [1,3 ]diazepin-6(7H)-ylidene ) amino )-3 -phenylpropan-l-ol, demonstrated enantioselectivity for a variety of adducts. Highest enantiomeric excess (ee) was afforded between dibromofuranone and p-chlorobenzaldehyde, affording the syn conformation in 96% ee and the anti in 54% ee, with an overall yield of30%. Attempts to increase asymmetric induction were focused on incorporation of axial chirality to the (R)phenylalaninol catalyst using binaphthyl diamine. Incorporation of (S)-binaphthyl exhibited destructive selectivity, whereas incorporation of (R)-binaphthyl demonstrated no effects on enantioselectivity. Current studies are being directed towards identifying the catalytic properties of asymmetric induction with further studies are being aimed towards increasing enantioselectivity by increasing backbone steric bulk.