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CELF significantly reduces milling requirements and improves soaking effectiveness for maximum sugar recovery of Alamo switchgrass over dilute sulfuric acid pretreatment
BackgroundPretreatment is effective in reducing the natural recalcitrance of plant biomass so polysaccharides in cell walls can be accessed for conversion to sugars. Furthermore, lignocellulosic biomass must typically be reduced in size to increase the pretreatment effectiveness and realize high sugar yields. However, biomass size reduction is a very energy-intensive operation and contributes significantly to the overall capital cost.ResultsIn this study, the effect of particle size reduction and biomass presoaking on the deconstruction of Alamo switchgrass was examined prior to pretreatment by dilute sulfuric acid (DSA) and Co-solvent Enhanced Lignocellulosic Fractionation (CELF) at pretreatment conditions optimized for maximum sugar release by each pretreatment coupled with subsequent enzymatic hydrolysis. Sugar yields by enzymatic hydrolysis were measured over a range of enzyme loadings. In general, DSA successfully solubilized hemicellulose, while CELF removed nearly 80% of Klason lignin from switchgrass in addition to the majority of hemicellulose. Presoaking and particle size reduction did not have a significant impact on biomass compositions after pretreatment for both DSA and CELF. However, presoaking for 4 h slightly increased sugar yields by enzymatic hydrolysis of DSA-pretreated switchgrass compared to unsoaked samples, whereas sugar yields from enzymatic hydrolysis of CELF solids continued to increase substantially for up to 18 h of presoaking time. Of particular importance, DSA required particle size reduction by knife milling to < 2 mm in order to achieve adequate sugar yields by subsequent enzymatic hydrolysis. CELF solids, on the other hand, realized nearly identical sugar yields from unmilled and milled switchgrass even at very low enzyme loadings.ConclusionsCELF was capable of achieving nearly theoretical sugar yields from enzymatic hydrolysis of pretreated switchgrass solids without size reduction, unlike DSA. These results indicate that CELF may be able to eliminate particle size reduction prior to pretreatment and thereby reduce overall costs of biological processing of biomass to fuels. In addition, presoaking proved much more effective for CELF than for DSA, particularly at low enzyme loadings
Pairing symmetry of twisted bilayer graphene: a phenomenological synthesis
One of the outstanding questions in the study of twisted bilayer graphene --
from both experimental and theoretical points of view -- is the nature of its
superconducting phase. In this work we perform a comprehensive synthesis of
existing experiments, and argue that experimental constraints are strong enough
to allow the structure of the superconducting order parameter to be nearly
uniquely determined. In particular, we argue that the order parameter is nodal,
and is formed from an admixture of spin-singlet and spin-triplet Cooper pairs.
This argument is made on phenomenological grounds, without committing to any
particular microscopic model of the superconductor. Existing data is
insufficient to determine the orbital parity of the order parameter, which
could be either p-wave or d-wave. We propose a way in which the measurement of
Andreev edge states can be used to distinguish between the two.Comment: 10+12 pages; 3+5 figures; v3: highlighted result of STM conductance
calculatio
Lightest Nuclei in UHECR versus Tau Neutrino Astronomy
UHECR may be either nucleons or nuclei; in the latter case the Lightest
Nuclei, as He, Li, Be, explains at best the absence of Virgo signals and the
crowding of events around Cen-A bent by galactic magnetic fields. This model
fit the observed nuclear mass composition discovered in AUGER. However UHECR
nucleons above GZK produce EeV neutrinos while Heavy Nuclei, as Fe UHECR do not
produce much. UHECR He nuclei at few tens EeV suffer nuclear fragmentation
(producing low energetic neutrino at tens PeVs) but it suffer anyway photo-pion
GZK suppression (leading to EeV neutrinos) once above one-few 10^{20} eV. Both
these cosmogenic UHE secondary neutrinos signals may influence usual predicted
GZK Tau Neutrino Astronomy in significant and detectable way; the role of
resonant antineutrino electron-electron leading to Tau air-shower may also
rise.Comment: 5 pages, 5 figures, CRIS 200
Theory of magnetostriction for multipolar quantum spin ice in pyrochlore materials
Multipolar magnetism is an emerging field of quantum materials research. The
building blocks of multipolar phenomena are magnetic ions with a non-Kramers
doublet, where the orbital and spin degrees of freedom are inextricably
intertwined, leading to unusual spin-orbital entangled states. The detection of
such subtle forms of matter has, however, been difficult due to a limited
number of appropriate experimental tools. In this work, motivated by a recent
magnetostriction experiment on PrZrO, we theoretically investigate
how multipolar quantum spin ice, an elusive three dimensional quantum spin
liquid, and other multipolar ordered phases in the pyrochlore materials can be
detected using magnetostriction. We provide theoretical results based on
classical and/or quantum studies of non-Kramers and Kramers magnetic ions, and
contrast the behaviors of distinct phases in both systems. Our work paves an
important avenue for future identification of exotic ground states in
multipolar systems.Comment: 10 pages, 12 pages Supplementary Information (including References
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