12,544 research outputs found
Microencapsulation of imidazole curing agent by solvent evaporation method using W/O/W emulsion
The epoxy–imidazole resin system is used to form the anisotropic conducting film. The latent character of the system is very significant. In this study, imidazole (Im) or 2‐methylimidazole (2MI) was encapsulated for the latent curing system to use in the reaction of epoxy resin. Polycaprolactone was used as a wall material, and the solvent evaporation method was used to form the microcapsule using W/O/W emulsion. The shelf life of the microcapsules was studied for the epoxy resin, and the curing behavior of the microcapsules for epoxy resin was examined using a differential scanning calorimeter. The curing times at 150 and 180°C were estimated using an indentation method. The microcapsules of Im or 2MI exhibited a long shelf life for epoxy resin. When comparing the results of the previous methods with the results of this study using the W/O/W emulsion, finer microcapsules were formed and the microcapsule has longer shelf life. © 2012 Wiley Periodicals, Inc. J. Appl. Polym. Sci., 2013Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/98341/1/38767_ftp.pd
Observation of Topologically Stable 2D Skyrmions in an Antiferromagnetic Spinor Bose-Einstein Condensate
We present the creation and time evolution of two-dimensional Skyrmion
excitations in an antiferromagnetic spinor Bose-Einstein condensate. Using a
spin rotation method, the Skyrmion spin textures were imprinted on a sodium
condensate in a polar phase, where the two-dimensional Skyrmion is
topologically protected. The Skyrmion was observed to be stable on a short time
scale of a few tens of ms but to have dynamical instability to deform its shape
and eventually decay to a uniform spin texture. The deformed spin textures
reveal that the decay dynamics involves breaking the polar phase inside the
condensate without having topological charge density flow through the boundary
of the finite-sized sample. We discuss the possible formation of half-quantum
vortices in the deformation process.Comment: 5 pages, 5 figure
Engineering synthetic pathways for adipic acid biosynthesis
Utilization of petroleum in consumer product manufacturing is causing irreversible environmental damage. Its impact on land, sea, and air calls for the development of more sustainable technologies based on the use of renewable materials such as lignocellulosic biomass and its conversion into platform chemicals. Engineering microorganisms to produce chemicals is an important undertaking to address such issues and bio-based production of adipic acid especially has gained recent attention. In the present thesis I assess the in vivo and in silico action of enzymes involved in microbial production of adipic acid from simple sugar molecules. The aim of this work was to comprehensively map out the metabolic pathways leading to adipic acid biosynthesis and to investigate the enzymatic components of the L-lysine pathway, the reverse β-oxidation pathway, and cis,cis-muconic acid reduction.Investigation of theoretical and in silico aspects in the deamination step in the L-lysine pathway revealed deamination of L-lysine was determined to be chemically difficult to occur. Removal of the β-amino group from β-D-lysine was deemed more feasible than the α-amino group from L-lysine, and an alternative route via β-D-lysine deamination was suggested. Homology modeling and molecular docking studies shed light on the substrate binding mechanisms of enzymes responsible for the reduction of the intermediates in the L-lysine pathway. Potential mechanism and feasibility of α,β-reduction were explained in terms of substrate interaction in the enzyme-binding pockets. Corynebacterium glutamicum was chosen as the host chassis for achieving adipic acid synthesis via reverse β-oxidation. Stepwise construction of a five-step synthetic pathway demonstrated functionality of each step in C. glutamicum. Biosynthesized and secreted 3-hydroxyadipate was detected in the cultivation broth using GC/MS. Weak trans-2-hexenedioic acid and adipic acid signals was observed using LC/MS after concentrating the cultivation broth. Dehydration of 3-hydroxyadipyl-CoA was identified as a potential bottleneck hindering this pathway. While implementing the reverse β-oxidation pathway, a new pathway involving cis,cis-muconic acid and 3-oxoadipic acid was observed and experimented on. The modified strategy for bio-conversion of benzoic acid to cis,cis-muconic acid was successful and molecular docking studies were carried out to better understand how oxidoreductases might reduce cis,cis-muconic acid.Taking multiple approaches to generate adipic acid revealed different challenges in each pathway. One approach led to biosynthesis of adipic acid. Further investigation will allow multiple options for bio-based adipic acid production for better sustainability
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