Temperature Dependent Size Exclusion Chromatography for Investigating Thermoreversibly Bonding Polymer Systems

Brandt, Josef

01 August 2016

Polymers capable of thermally controlled reversible bonding reactions are promising candidates for stimuli responsive materials, as required for self-healing or drug delivery materials. In order to investigate how the dynamic reactions can be controlled, effective analytical tools are demanded that are capable of analyzing not only the polymers but can also monitor the respective bonding reactions. Herein, we employ size exclusion chromatography in a newly developed temperature dependent mode (TD SEC) for the in situ characterization of polymers that undergo retro Diels-Alder (rDA) reaction at temperatures higher than 60 °C. Monitoring the evolution of the molar mass distribution of the polymers during the rDA reaction and evaluating the data quantitatively gives detailed information about the extent of the reaction and allows elucidating structural parameters that can be used for controlling the polymers debonding behavior. In contrast to spectroscopic techniques, TD SEC analyzes only the size of the polymers, hence the polymers do not need to fulfill any particular requirements (e.g. presence of detectable functional groups) but only need to be soluble in the TD SEC, which makes the method universally applicable. Side effects that might bias the results are minimized by using a high temperature chromatograph that allows performing the analysis in a broad temperature range (60 – 200 °C) and in different solvents. Thus, the analysis can be performed under the exact conditions that are required for the bonding reactions and an in situ image is provided.

selbstheilende Materialien

in situ Analytik

self-healing materials

in situ analyses

ddc:540

rvk:VG 7207

Effect of ultrasound on transdermal permeation of diclofenac and the temperature effects on human skin

Basson, Erina

12 1900

Thesis (MScMed (Pharmacology))--University of Stellenbosch, 2005. / During the last two decades the effects of ultrasound on the transdermal diffusion of a wide variety of drugs have been extensively investigated. Because there is much uncertainty regarding the efficacy of and mechanisms involved in this mode of permeation enhancement, the objective of the study was to investigate the effect of ultrasound on the transdermal permeation of the nonsteroidal anti-inflammatory drug, diclofenac. For this purpose a dual-stage experimental design and a continuous flow-through diffusion system was used. Therapeutic levels of continuous ultrasound of 3 MHz at an intensity of 2 W/cm2 for 10 min, were used. It was clear from the present study that ultrasound enhanced the permeability of human skin to diclofenac released from a commercially available gel. These results were in contrast with those obtained for ibuprofen in an in vitro study across human skin, but in agreement with those obtained in two in vivo studies of the latter nonsteroidal anti-inflammatory drug. Steady state flux values of diclofenac remained approximately 1.26 times higher than those of controls during the 24 h of the experiment. These observations concurred with those made in two previous in vivo studies. Furthermore, the in vitro flow-through diffusion model was shown to have predictive value as an in vivo method for sonophoresis. Temperature-dependent flux rates for 3H2O across human skin were also studied. The mechanistic effects of ultrasound on the permeability characteristics of human skin have been reported on in a number of studies. Although various mechanisms have been proposed, there is no consensus regarding their relative importance. In addition the temperature-dependent flux changes of 3H2O across human skin were investigated using a continuous flow-through diffusion system. The same ultrasound parameters as in the permeability experiments were used. The results obtained showed that temperature increases of approximately 10 °C occurred following sonication. The flux changes of 3H2O across human skin between 37 °C and 42 °C were shown to be reversible. The results from the present study do not support the sonication-heating theory in which permeability changes in skin are primarily attributed to thermally-induced changes in stratum corneum lipids. It was therefore concluded that the enhancement of diclofenac permeation by sonication could not be adequately explained primarily on a thermal basis.

Diclofenac

Nonsteroidal anti-inflammatory agents

Skin absorption

Transdermal diffusion

Temperature-dependent flux rates

Dissertations -- Pharmacology

Theses -- Pharmacology

Insights into the mating systems of green turtle populations from molecular parentage analyses

Wright, Lucy Isabel

January 2012

Gaining a good understanding of marine turtle mating systems is fundamental for their effective conservation, yet there are distinct gaps in our knowledge of their breeding ecology and life history, owing largely to the difficulty in observing these highly mobile animals at sea. Whilst multiple mating by females, or polyandry, has been documented in all marine turtle species, the fitness consequences of this behaviour have not been fully investigated. Furthermore, male mating patterns, operational sex ratios and the number of males contributing to breeding populations are poorly understood, impeding accurate assessments of population viability. In this thesis, I use molecular-based parentage analysis to study, in detail, the genetic mating system of two green turtle (Chelonia mydas) populations. In the focal population in northern Cyprus, I show that, despite exhibiting a strongly female-biased hatchling sex ratio and contrary to our expectations, there are at least 1.3 breeding males to every nesting female. I go on to assess the breeding frequency of male turtles in the population and determine that males do not breed annually at this site, demonstrating that the observed relatively equal sex ratio of breeders is not the result of a few males mating every year, but that the number of breeding males in the population is greater than expected. I show that 24% of nesting females in the population produce clutches with multiple paternity, but do not detect any fitness benefits to polyandrous females, and discuss the potential role of sexual conflict in influencing female mating decisions. Finally, I reveal a high frequency of multiple paternity in green turtle clutches on Ascension Island, one of the largest green turtle rookeries in the world, and discuss possible causes of variation in the level of polyandry among marine turtle populations. The results presented here shed new light on aspects of marine turtle mating systems that are challenging to study, and illustrate the value of molecular data, not only in describing mating patterns, but in elucidating aspects of life history and behaviour that would otherwise be very difficult to ascertain.

597.928

The ecology and sex determination of the pig-nosed turtle, Carettochelys insculpta, in the wet-dry tropics of Australia

Doody, J. Sean, n/a

January 2002

Much of what we know about temperature-dependent sex determination (TSD) in reptiles stems from constant temperature incubation studies in the laboratory. In recent years, as TSD studies moved into the field it became evident that TSD was much more complex than previously thought. The present study attempted to reveal the complexity of TSD, as it relates to other features of the species' biology and physical characteristics tractable only in the field, such as fluctuations in incubation temperature and reproductive life history. To this end I studied the ecology of the turtle Carettochelys insculpta, a TSD species inhabiting the wet-dry tropics of northern Australia from 1996 to 1998. I tested hypotheses associated with movements, activity, behaviour, reproduction, nest site choice, nest temperatures, embryonic survival, embryonic aestivation, hatch-ling sex ratios, and emergence in the species. Each of these was also considered in the context of the influence of the wet-dry tropics. Compared to other turtles inhabiting lotic habitats, C. insculpta occupied considerably larger home ranges, covering up to 10 km of river. Of previously published factors influencing home range size, low productivity of the (micro) habitat may best explain the extensive home ranges in C. insculpta. Patchiness and low nutrient value of the chief food (aquatic vegetation) of C. insculpta may force turtles to cover large expanses of river to acquire sufficient energy for growth and reproduction. Females were more active, moved farther, and occupied larger home ranges than males. Home ranges of females comprised 1-4 activity centres, many of which were associated with thermal springs. I suggest that females may exhibit increased activity and movements relative to males because of sexual inequality in parental investment, where food is particularly limiting (e.g., in species with biennial reproduction). Biennial reproduction in the population allowed the examination of the influence of reproductive condition on home range size, movements, and activity. Reproductive condition did not influence home range or activity, but gravid turtles moved father between successive sightings than non-gravid females. Individual data corroborate these findings, with females moving farther between successive sightings while gravid compared to while spent. Contrary to previous reports, turtles did not appear to move into estuarine areas or lowland flood plains during the wet season, but moved into the riparian forest and possibly into wetlands adjacent to the main channel in the vicinity of their dry season home ranges. During the study I documented the turtles' use of small, localized thermal springs discharging from the river bottom. Dataloggers attached to the carapace to monitor ambient water temperatures recorded the frequency and duration of thermal spring use by individuals. Turtles used the thermal springs frequently during the winter (4-6 months) when river temperatures were lower than that of the thermal springs (8 = 29 � 0.52� C). Turtles often utilized thermal springs for several consecutive hours, leaving the springs only to surface for air. Thermal springs may be derived from ground water (which maintains a temperature equivalent to the annual mean air temperature), rather than from a specific geothermal heat source. Nine of 19 radio-telemetered adult females were seen to use thermal springs, of which seven were gravid and two non-gravid. Thus, gravid turtles may seek thermal springs more than non-gravid turtles. Frequency, duration, and timing of usage collectively suggest active thermoregulation as the primary function of thermal spring use. Utilization of thermal springs probably permits turtles to be more active in cooler months, which may enhance growth rates and accumulation of energy for reproduction. Onset of nesting along river stretches with thermal springs preceded nesting in a stretch not known to have thermal springs by 24 days. Thus, I speculate that by warming themselves on thermal springs in the months prior to nesting, turtles may have accelerated follicular development and nested earlier. Female C. insculpta matured at ca. 6 kg body mass (38.0 cm carapace length, 30.5 cm plastron length). Turtles produced egg sizes and clutch sizes similar to that of other turtle species of similar size. Turtles reproduced every second year, but produced two clutches in each breeding year, ca. 40 days apart. Thus, it appeared that females were energy limited, possibly due to the low available energy content of the dry season diet (aquatic vegetation). Life history theory predicts that if some costly behaviour is associated with reproduction, skipping years could reduce that cost and allow savings to be directed into future reproduction. The present study revealed no obvious accessory behaviour in the population. Within years, clutch mass did not differ between early (first) and late (second) clutches. However, earlier clutches tended to have more and smaller eggs per clutch but than later clutches, a new finding for turtles that has been demonstrated in lizards and other animals. Because the study spanned both years with 'big' and 'small' wet seasons, I was able to examine how the magnitude of the wet season influenced reproductive characteristics. Following big wet seasons turtles produced larger, heavier, and more eggs per clutch than they did after small wet seasons. Relationships among body size, egg size, and clutch size were evident after two big wet seasons but not apparent after two small wet seasons. Collectively, annual variation in reproductive characteristics and current life history theory suggest that a big wet season is a plentiful time for the turtles. I investigated beach selection of nesting pig-nosed turtles (Carettochelys insculpta) along a 63 km stretch of river in 1997 and 1998. I used three classes of beaches to examine beach choice: beaches with nests, beaches with only crawls, andbeaches without nests or crawls. Across these beach types I compared aspect, solar exposure, temperature, substrate moisture, height, water depth at approach, and the height of cohesive sand. I located 82 nesting beaches with 221 nests, and identified 171 potential nesting beaches based on previously published criteria. Beaches with nests had a greater substrate moisture content and corresponding higher cohesive sand line (hereafter CSL) than beaches without nests. Beaches with nests also had a higher CSL than beaches with only crawls. Apparently, turtles could not excavate a nest chamber above the CSL due to loose substrate consistency causing sand to fall in on itself. Turtles could only nest at low elevations below the CSL on beaches with lower substrate moisture. Turtles apparently avoided nesting on these beaches due to the higher probability of nest flooding, as corroborated by a concurrent study. Beach temperatures increased with a seasonal increase in air temperatures, and were influenced by aspect and total angle of solar exposure. Temperatures did not differ among beaches with nests, beaches with only crawls, and beaches without crawls or nests. Therefore, there was no indication that turtles were manipulating offspring sex through choice of nesting beach. However, turtles may be manipulating sex by nesting in areas with particular thermal characteristics within beaches. Two related aspects of hatchling emergence were studied. Using emergence phenology data, nest temperatures, historical weather data, and a developmental model, I tested the hypothesis that delayed hatching occurred in C. insculpta, and that such a delay would allow hatchlings to time their emergence to match the onset of the wet season. Hatchling C. insculpta emerged, on average, 17 days later than dates predicted from a developmental model. Combined with observations of hatchlings remaining in eggs until emergence, these results confirmed delayed hatching in nature. This delay was synchronized with initial river rises associated with the onsetof wet season rains, and is consistent with published criteria for embryonic aestivation. On a diel scale, I generated predictions of two potentially competing models for nocturnal emergence in hatchling turtles, based on the knowledge that air temperatures decrease with season during the emergence period. A test of those predictions for C. insculpta produced ambiguous results. However, further analysis indicated that C. insculpta, and probably other nocturnally emerging turtle species, respond to a decline in diel temperature rather than an absolute temperature. The former would ensure nocturnal emergence, while the latter is experienced during the day as well as at night. Nocturnal emergence may be associated with nesting in open microhabitats. The 'decision' of when and where to nest can influence both offspring survival and hatchling sex ratios in animals with temperature-dependent sex determination (TSD). Knowledge of how these maternal attributes influence the incubation environment is an important first step in hypothesizing why TSD evolved in a particular species. 1 studied the influence of nest site choice and timing of nesting on embryonic survival and hatchling sex ratios. Predation and flooding were the major sources of embryonic mortality. Embryonic survival was influenced by both lay date and nest site choice: In one year when nesting began later, nests laid later and at lower elevations were destroyed by early wet season river rises. In other years early nesting precluded flood mortality. However, turtles did not nest at the highest available elevations. I hypothesized that turtles were unable to nest at higher elevations because the sand was dry and not cohesive. A field experiment demonstrated that turtles were constrained to nest at lower elevations where they could construct a nest chamber. A mathematical model predicting hatchling sex from fluctuating temperatures was applied to temperature data from 102 natural nests. Resultsconfirmed a type la pattern of TSD, whereby males are produced from cooler temperatures and females from warmer temperatures. The principal determinant of hatchling sex was lay date. Clutches laid earlier in the season produced mainly males, while later clutches yielded mostly females, due to seasonal ramping of air and sand temperatures. However, nest site choice also exerted an influence on hatchling sex. Female-producing clutches were deposited at higher elevations than male-producing clutches. The onset of nesting was not influenced by water temperatures, but may have been related to the magnitude of the previous wet season(s). Turtles nested earlier after two 'big' wet seasons and later following two 'small' wet seasons. This pattern indicates that the wet season is a plentiful time for the turtles. Adaptive 'differential fitness' models for the evolution of TSD have recently been reviewed and clarified. The differential fitness model that best fits C. insculpta is the 'timematching' model, whereby one sex benefits more than the other from early hatching. Male C. insculpta hatched 2-3 weeks earlier then females, on average. Benefit to early hatching males and, therefore, the ultimate selective mechanism (e.g., growth, time to mature) is unknown. Obtaining such data will likely prove difficult in such a long-lived species. A recent adaptive explanation for the evolution and maintenance of temperaturedependent sex determination (TSD) in reptiles rests upon the assumption that mothers can predict or manipulate offspring sex. I postulated that four physiological and behavioural criteria must be met in order for this assumption to be valid: (1) a strong correlation must exist between substrate temperatures during nest site choice and nest temperatures during the period of development when sex is determined in the egg (thermosensitive period = TSP). (2) Assuming that (1) is possible, mothers would need to be capable of correcting for temporal factors obscuring the predictable thermalcharacteristics of nest sites. This could be accomplished in two ways. By contracting nesting times mothers could assess the relative temperatures of alternate nest sites with some accuracy. A protracted distribution of nesting times could greatly reduce a mother's ability to distinguish between, for example, a cooler nest site at a warmer time and a warmer nest site at a cooler time. Alternatively, mothers would need to be able to incorporate temporal changes in nest site temperatures. (3) Sufficient variation in thermal profiles among nest sites, relative to the breadth of temperatures producing both sexes (pivotal temperatures), would be necessary. For example, if most nests produced both sexes, then depth of the eggs would be the deciding factor determining sex, leaving little opportunity for nest site choice to produce one sex or the other. (4) Mothers would need access to nest sites spanning a range of thermal profiles in order to produce either offspring sex. To this end, home range size relative to the number and location of nesting beaches should be important. I tested these four predictions in Carettochelys insculpta, a beach nesting turtle with TSD, using three years of field data on nest site choice, nesting times, thermal characteristics of nests, hatchling sex ratios, and movements of nesting turtles. A strong positive correlation existed between assessable substrate temperatures at nest site choice and mean daily TSP temperatures in all three years. However, the proportion of explained variation was highly variable among years, and low in 1998. Accordingly, the proportion of nests in which substrate temperatures at nest site choice predicted offspring sex correctly was low in 1998 (48- 62 %, depending on treatment of the data). Nesting times were normally distributed, and combined with diel changes in nest site temperatures greatly reduce a turtle's ability to distinguish between sites that would produce different sexes. Considerable among-clutch variation in thermal profiles to produce variable sex ratios existed, agreeing with other studies on turtles. Radiotelemetry indicated that home rangesencompassed several nesting beaches with differing thermal profiles, indicating scope for producing the desired sex. However, the seasonal increase in air temperatures resulted in an overriding effect of mostly males being produced in early (first) clutches and mainly females being produced in late (second) clutches. Collectively, the results suggest that C. insculpta mothers would find it difficult to predict, and therefore, manipulate hatchling sex, supporting the conventional notion that TSD mothers have little or no control over offspring sex.

pig-nosed turtle

sex determination in animals

applied biological science

Carettochelys insculpta

temperature-dependent sex determination

reptiles

wet-dry tropics

Zur Berechnung von Klebverbindungen hybrider Karosseriestrukturen beim Lacktrocknungsprozess

Menzel, Stephan

27 February 2012

Diese Arbeit liefert einen Beitrag zur Auslegung geklebter Karosserie-Mischbaustrukturen. Die derzeit verwendeten Strukturklebstoffe genügen komplexen mechanischen und schon im Fertigungsprozess hohen thermischen Beanspruchungen. Die Beschreibung der physikalischen, thermischen und mechanischen Eigenschaften des Klebstoffs über den gesamten Prozess hinweg ist für die Auslegung der Klebverbindung vor allem in Mischbaustrukturen entscheidend. Temperaturen von bis zu 200 °C im KTL-Lacktrocknungsprozess führen zum einen zur Vernetzung der Klebstoffe, zum anderen aber auch zur thermischen Ausdehnung der artfremden Werkstoffpaarungen. Die so auftretenden Relativverschiebungen in großflächigen, geklebten Mischbaustrukturen können aufgrund der in dieser Arbeit vorgestellten Vorgehensweise schon in der Konzeptphase numerisch berechnet und die damit verbundenen bleibenden Deformationen sowie festigkeitsrelevanten Bereiche in der Klebschicht prognostiziert werden. Für die Dimensionierung der Klebverbindungen ist hiermit ein Nachweis der temperatur- und vernetzungsgradabhängigen Klebstofffestigkeit unter mehrachsiger Beanspruchung erbracht worden.

Strukturklebstoffe

temperaturabhängig

vernetzungsgradabhängig

Klebstofffestigkeit

structural adhesiv

temperature-dependent

cure-dependent

strength

ddc:620

rvk:ZM 8470

rvk:ZO 4205

Temperature-dependent butterfly dynamics

Wheeler, Jeanette

Unknown Date

No description available.

climate change

temperature-dependent growth

population dynamics

Rocky Mountain Apollo

Parnassius smintheus

Bernoulli process model

alpine meadows

Temperature-dependent butterfly dynamics

Wheeler, Jeanette

11 1900

Climate change is currently a central problem in ecology, with far-reaching effects on species that may be diffcult to quantify. Ectothermic species which rely on environmental cues to complete successive stages of their life history are especially sensitive to temperature changes and so are good indicators of the impacts of climate change on ecosystems. Based on data collected in growth experiments for the alpine butterfly Parnassius smintheus (Rocky Mountain Apollo), a novel mathematical model is presented to study developmental rate in larval insects. The movement of an individual through larval instars is treated as a discrete-time four-outcome Bernoulli process, where class transition and death are assigned temperature-dependent probabilities. Transition and mortality probabilities are estimated using maximum likelihood estimation techniques. This adult emergence model is then integrated into a reproductive success model, and multi-year implications of climate change on the population dynamics of P. smintheus are explored. / Applied Mathematics

climate change

temperature-dependent growth

population dynamics

Rocky Mountain Apollo

Parnassius smintheus

Bernoulli process model

alpine meadows

Zur Berechnung von Klebverbindungen hybrider Karosseriestrukturen beim Lacktrocknungsprozess

Menzel, Stephan

22 September 2011

Diese Arbeit liefert einen Beitrag zur Auslegung geklebter Karosserie-Mischbaustrukturen. Die derzeit verwendeten Strukturklebstoffe genügen komplexen mechanischen und schon im Fertigungsprozess hohen thermischen Beanspruchungen. Die Beschreibung der physikalischen, thermischen und mechanischen Eigenschaften des Klebstoffs über den gesamten Prozess hinweg ist für die Auslegung der Klebverbindung vor allem in Mischbaustrukturen entscheidend. Temperaturen von bis zu 200 °C im KTL-Lacktrocknungsprozess führen zum einen zur Vernetzung der Klebstoffe, zum anderen aber auch zur thermischen Ausdehnung der artfremden Werkstoffpaarungen. Die so auftretenden Relativverschiebungen in großflächigen, geklebten Mischbaustrukturen können aufgrund der in dieser Arbeit vorgestellten Vorgehensweise schon in der Konzeptphase numerisch berechnet und die damit verbundenen bleibenden Deformationen sowie festigkeitsrelevanten Bereiche in der Klebschicht prognostiziert werden. Für die Dimensionierung der Klebverbindungen ist hiermit ein Nachweis der temperatur- und vernetzungsgradabhängigen Klebstofffestigkeit unter mehrachsiger Beanspruchung erbracht worden.

info:eu-repo/classification/ddc/620

ddc:620

Insights on Protein Structure and Dynamics from Temperature-Dependent Molecular Dynamics and Normal Mode Analysis

Rehman, Habib Ur

17 May 2014

In this thesis we have employed two computational approaches, temperature-dependent molecular dynamics (MD) and normal mode analysis (NMA), to gain insights into the structureunction relationships between three structurally-related proteins, each possessing a central alpha/beta core. The three proteins studied here are: pnbCE from Bacillus subtilis, cutinase from Fusarium solani - both belong to the serine hydrolase family - and TTHA1554, from the thermophile Thermus thermophilus. Mutations at the gate residue 362, located at the side-door of the pnbCE enzyme, are known to alter the catalytic activity of this enzyme. In this work the modifications induced by mutating LEU362 on the structural and dynamical properties of pnbCE are also explored. From MD simulations at several temperatures, we propose a mechanism by which mutations at position 362 of pnbCE affect the stability and functionality of this enzyme. We have identified two coil residues, SER218 and GLN276, whose interactions with residue 362 in wild-type and mutant pnbCE enzymes control the dynamics of the side-door domain of pnbCE. A hydrogen bond between the GLN276 and ARG362 residues in the arginine substituted (L362R) pnbCE mutant enzyme appears to be responsible for locking the sidedoor domain region of the L362R enzyme, thus lowering the catalytic rates of the L362R mutant pnbCE enzyme compared to the wild-type. Similarly, a hydrogen bond formed between SER218 and ARG362 in L362R provides thermal stability to the arginine substituted mutant enzyme. This hydrogen bond is not as prevalent in the wild-type or other mutated pnbCEs, making them prone to structural fluctuations upon increasing temperature. The predominant lowrequency mode, obtained from normal mode analysis, reveals a collective scissor-like motion of residues surrounding the openings to the active site that validates the results of MD simulations on pnbCE systems. The collective motion of large loops also appear in the lowrequency modes of cutinase and TTHA1554, which correspond to particularly mobile regions in these proteins. An attempt to locate a putative active site of the thermophilic protein TTHA1554 was inconclusive. In general, useful comparisons of the flexibility, stability, and dynamic changes were calculated for the three selected proteins.

alpha/betaold

Serine hydrolases

pnbCE

Cutinase

TTHA1554

Stability

Flexibility

Dynamics

Temperature-dependent MD

Normal Mode Analysis

Docking

Temperature-dependent structure and dynamics of highly-branched poly(N -isopropylacrylamide) in aqueous solution

Al-Baradi, A.M., Rimmer, Stephen, Carter, Steven, de Silva, J.P., King, S.M., Maccarini, M., Farago, B., Noirez, L., Geoghegan, M.

28 May 2019

Yes / Small-angle neutron scattering (SANS) and neutron spin-echo (NSE) have been used to investigate the temperature-dependent solution behaviour of highly-branched poly(N-isopropylacrylamide) (HB-PNIPAM). SANS experiments have shown that water is a good solvent for both HB-PNIPAM and a linear PNIPAM control at low temperatures where the small angle scattering is described by a single correlation length model. Increasing the temperature leads to a gradual collapse of HB-PNIPAM until above the lower critical solution temperature (LCST), at which point aggregation occurs, forming disperse spherical particles of up to 60 nm in diameter, independent of the degree of branching. However, SANS from linear PNIPAM above the LCST is described by a model that combines particulate structure and a contribution from solvated chains. NSE was used to study the internal and translational solution dynamics of HB-PNIPAM chains below the LCST. Internal HB-PNIPAM dynamics is described well by the Rouse model for non-entangled chains.

Small-angle neutron scattering (SANS)

Neutron spin-echo (NSE)

Temperature-dependent solution behaviour

Aqueous solution