Your search keyword '"Roland U"' showing total 24 results

1. Dataset on the decolorization of Naphthol Green B using a UV/sulfite system: Optimization by response surface methodology.

Author

Caguiat JME, Tiu ERU, Go AD, Dela Rosa FM, and Punzalan ER

Abstract

Naphthol Green B (NGB) is a synthetic azo dye widely used in various industries, including textiles and leathers. NGB poses significant environmental and ecological concerns when released into natural water systems. This paper investigates the decolorization of NGB using UV/sulfite system. The % decolorization of NGB was optimized using 3 2 Full Factorial Design (FFD), and the ANOVA results show that the model has a good fit for the data (R 2 = 99.54 %, R 2 (adj) = 98.76 %) and the significant factors contributing to the % decolorization are A, B, A 2 , and B 2 where A = mM sulfite and B = pH. The model predicted ≥100 % decolorization with the optimum conditions 12 mM sulfite and pH 10. An actual experiment was conducted to verify the response, resulting in 96.2 % decolorization which is in good agreement with the model., (© 2024 The Author(s).)

Published

2024

2. The Impact of Liquids and Saturated Salt Solutions on Polymer-Coated Fiber Optic Sensors for Distributed Strain and Temperature Measurement.

Author

Weisbrich M, Messerer D, Holzer F, Trommler U, Roland U, and Holschemacher K

Abstract

The application of distributed fiber optic strain and temperature measurement can be utilized to address a multitude of measurement tasks across a diverse range of fields, particularly in the context of structural health monitoring in the domains of building construction, civil engineering, and special foundation engineering. However, a comprehensive understanding of the influences on the measurement method and the sensors is essential to prevent misinterpretations or measurement deviations. In this context, this study investigated the effects of moisture exposure, including various salt solutions and a high pH value, on a distributed strain measurement using Rayleigh backscattering. Three fiber optic sensors with different coating materials and one uncoated fiber were exposed to five different solutions for 24 h. The study revealed significant discrepancies (∼38%) in deformation between the three coating types depending on the surrounding solution. Furthermore, in contrast to the prevailing literature, which predominantly describes swelling effects, a negative deformation (∼-47 με) was observed in a magnesium chloride solution. The findings of this study indicate that corresponding effects can impact the precision of measurement, potentially leading to misinterpretations. Conversely, these effects could be used to conduct large-scale monitoring of chemical components using distributed fiber optic sensing.

Published

2024

3. Bipolar hemiarthroplasty using microarc oxidation-coated cementless stem in patients with unstable intertrochanteric fracture.

Author

Lee YK, Won H, Roa KRU, Ha YC, and Koo KH

Subjects

Aged, Aged, 80 and over, Female, Hip Fractures diagnosis, Humans, Male, Periprosthetic Fractures diagnosis, Prosthesis Design, Radiography, Treatment Outcome, Arthroplasty, Replacement, Hip methods, Coated Materials, Biocompatible, Fracture Fixation, Internal methods, Hemiarthroplasty instrumentation, Hip Fractures surgery, Periprosthetic Fractures surgery

Abstract

Purpose: Treatment for an unstable intertrochanteric fracture in elderly patients is challenging. Bipolar hemiarthroplasty (HA) using microarc oxidation (MAO) coating has been a treatment option alternative to internal fixation. However, the outcome of bipolar HA using MAO-coated stem in these patients is unknown., Methods: From July 2007 to April 2016, 234 (older than 65 years) patients (234 hips) who were diagnosed as having unstable intertrochanteric fractures were treated with bipolar HA using a fully MAO-coated standard-length rectangular cementless stem. During the arthroplasty, the greater trochanteric and the medial fracture fragments were attached to the stem and fixed with two to three 16-gauge wires. Forty-eight patients (48 hips) died within postoperative 2 years. The remaining 186 patients (186 hips) were followed up for a mean of 4.3 (range 2-10) years., Results: With the exception of 4 patients who died during hospitalization, 176 of 230 ( 76.5%) patients could ambulate independently with or without an assistive device at the time of hospital discharge. Venous thromboembolism occurred in seven patients (3.0%). One hip dislocated due to a fall 1 month after the arthroplasty. Periprosthetic femoral fracture occurred in four patients and periprosthetic acetabular fracture in one patient. One patient had periprosthetic of acute pyelonephritis. There was no focal osteolysis around the femoral stem., Conclusion: The result of cementless HA using MAO-coated stem enabled early ambulation in most (76.5%) of elderly patients with unstable intertrochanteric fractures and the results were encouraging.

Published

2019

4. Isotope fractionation in phase-transfer processes under thermodynamic and kinetic control - Implications for diffusive fractionation in aqueous solution.

Author

Kopinke FD, Georgi A, and Roland U

Abstract

Diffusive isotope fractionation of organic compounds in aqueous solution was investigated by means of liquid-liquid and liquid-gas partitioning experiments under kinetic control. The two-film model was used to describe phase-transfer kinetics. It assumes the diffusion of solutes across a stagnant water boundary layer as the rate-controlling step. For all investigated solutes (benzene-D 0 and -D 6 , toluene-D 0 , -D 5 , and -D 8 , cyclohexane-D 0 and -D 12 ), there was no significant observable fractionation effect between nondeuterated and perdeuterated isotopologues, resulting in a ratio of diffusion coefficients D light : D heavy =1.00±0.01. In addition, isotope fractionation due to equilibrium partitioning of solutes between water and n-octane or gas phase was measured. The deuterated compounds are more hydrophilic than their light isotopologues in all cases, giving rise to fractionation coefficients αH part =K octane/water,H : K octane/water,D =1.085 to 1.15. Thus, thermodynamic fractionation effects are much larger than diffusion fractionation effects. Methodical and environmental implications of these findings are discussed., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

5. Influence of low- and high-frequency heating on biodegrading microorganisms in soil: microbial degradation.

Author

Roland U, Holzer F, and Kopinke FD

Subjects

Biodegradation, Environmental radiation effects, Dose-Response Relationship, Radiation, Oxygen Consumption radiation effects, Radiation Dosage, Bacterial Physiological Phenomena radiation effects, Heating methods, Microwaves, Oxygen Consumption physiology, Soil chemistry, Soil Microbiology

Abstract

The influence of low-frequency (50 Hz) resistive and high-frequency (13.56 MHz, radio-frequency) dielectric heating in comparison to conventional heating on the microbial degradation of pollutants in soil was studied. The investigation of the biodegradation of model substances (benzoic acid, acetic acid, glucose, sodium acetate) added to a standard soil showed no significant influence of the electrical heating methods when compared with samples heated to the same temperature in a water bath. Therefore, a hindrance of the microbial degradation could be excluded as it was done for soil respiration in a previous study. This finding is especially relevant for the application of these electrical heating methods for thermally enhanced soil bioremediation as an option for making in situ or ex situ clean-up processes more efficient.

Published

2013

6. Influence of low- and high-frequency electrical heating on biodegrading microorganisms in soil: soil respiration.

Author

Roland U, Holzer F, and Kopinke FD

Subjects

Biodegradation, Environmental, Dose-Response Relationship, Radiation, Oxygen Consumption radiation effects, Radiation Dosage, Radio Waves, Bacterial Physiological Phenomena radiation effects, Heating methods, Microwaves, Oxygen Consumption physiology, Soil chemistry, Soil Microbiology

Abstract

The influence of electrical heating on microbiological processes in soil has been studied to evaluate the potential for enhancing biodegradation of pollutants by controlling the temperature. A frequency of 50 Hz (power line frequency) was applied for resistive heating. Dielectric heating was realized using a frequency of 13.56 MHz (radio frequency). Both techniques were compared with conventional heating in a water bath. For experiments in laboratory and full scale, a model soil and a contaminated original soil were used. It was shown that under conditions capable for heating soil to 35 degrees C or even 60 degrees C, soil respiration as a measure for microbial activity was not hindered by electrical heating when temperature and moisture content were comparable with conventional heating. The variations of soil respiration were reversible upon temperature changes. Under certain conditions, periodical fluctuations of microbiological activity were observed. Several possible explanations including chronobiology are discussed without being able to provide an unambiguous interpretation for this effect.

Published

2013

7. Modeling of a thermo-chromatographic pulse (TCP) as radio-frequency (RF)-induced selective heating effect.

Author

Kraus M, Kopinke FD, and Roland U

Abstract

By utilizing the specific influence of water adsorption on the dielectric loss factor and, consequently, selective heating of the zeolite NaY in a radio-frequency (RF) electromagnetic field, a hot zone moving through the packed bed can be realized initiated by water injection. While the effect of water adsorption on RF heating and the phenomenon of the thermo-chromatographic pulse (TCP) itself were described in a previous paper, the present study presents a detailed model for the description and explanation of this effect. It involves the complex dependence of dielectric loss on temperature and moisture content, a diffusion model considering both hopping and Knudsen mechanisms and a power balance for a representative segment of the packed bed. The developed model was successfully applied to adequately describe various experimental situations observed for selective RF heating in a NaY zeolite bed.

Published

2013

8. Migrating temperature "thermo-chromatographic" pulses (TCP) initiated by radio-frequency (RF) heating.

Author

Kraus M, Kopinke FD, and Roland U

Subjects

Chromatography methods, Computer Simulation, Materials Testing, Radiation Dosage, Radio Waves, Temperature, Thermal Conductivity, Energy Transfer radiation effects, Heating methods, Microwaves, Models, Chemical, Water chemistry, Zeolites chemistry, Zeolites radiation effects

Abstract

In the present study, the astonishing influence of water dosage on a purged dry packed bed of NaY zeolite in the presence of an electric field with a frequency of 13.56 MHz was investigated. The injection of a small amount of water to the inlet of the bed led to pronounced selective heating of the inlet zone by more than 150 K. Thus, water represented a very effective coupling medium for dielectric heating. The selectively heated zone then slowly moved through the whole packed bed and a water pulse finally left the zeolite. This effect correlated with a coupled water and heat flux was called thermo-chromatographic pulse (TCP) emphasizing its analogy to chromatography. The phenomenon could not be performed by using conventional (convective) or microwave heating. It was demonstrated under various conditions and explained by a new model based on own experimental results as well as data from literature. The model will be the objective of a forthcoming publication.

Published

2012

9. Paramagnetic relaxation enhancement (PRE) as a tool for probing diffusion in environmentally relevant porous media.

Author

Furtado F, Galvosas P, Stallmach F, Roland U, Kärger J, and Kopinke FD

Subjects

Diffusion, Porosity, Cyclic N-Oxides chemistry, Magnetic Resonance Spectroscopy methods

Abstract

The transport diffusivity of the paramagnetic molecule 2,2,6,6-tetramethylpiperidine-1-oxyl (TEMPO) was measured by monitoring its influence on the NMR transverse relaxation time (T₂) on surrounding water protons - also known as paramagnetic relaxation enhancement (PRE). Due to the nature of the PRE effect, few paramagnetic molecules are able to simultaneously reduce the T₂ of many NMR active nuclei, which represents a significant gain in sensitivity. In an aqueous solution, the minimal detectable TEMPO concentration was around 70 ppm. The value of the diffusivity was estimated by fitting the relaxation data, collected as a function of time, with the appropriate solutions of the second Fick's law in respect to the corresponding sample geometry and dimensions. Considering the experimentally determined TEMPO relaxivity in water ("TEMPO-water relaxivity"; R(TEMPO) = (1.05 ± 0.12) × 10⁻³ ppm⁻¹ s⁻¹), the obtained diffusion coefficients (D) of TEMPO in homogeneous solution and in a water saturated sand column (D(bulk) = (6.7 ± 0.4) × 10⁻¹⁰ m² s⁻¹ and D(sand) = (1.4 ± 0.5) × 10⁻¹⁰ m² s⁻¹, respectively) are in good agreement with the expected values (literature values: D(bulk) = 6.6 × 10⁻¹⁰ m² s⁻¹, 1.3 × 10⁻¹⁰ m² s⁻¹ < D(sand) < 2.3 × 10⁻¹⁰ m² s⁻¹). This new approach enables one to determine the diffusivity of paramagnetic molecules in homogeneous (aqueous solution) and porous media with basic NMR equipment, at low concentrations and in a noninvasive manner.

Published

2011

10. Mobile aliphatic domains in humic substances and their impact on contaminant mobility within the matrix.

Author

Fomba KW, Galvosas P, Roland U, Kaerger J, and Kopinke FD

Subjects

Adsorption, Diffusion, Magnetic Resonance Spectroscopy, Temperature, Toluene chemistry, Environmental Pollutants analysis, Humic Substances analysis, Motion

Abstract

Using a novel NMR option, magic angle spinning pulsed field gradient (MAS PFG) NMR, the mobility of aliphatic domains in humic substances in the presence of toluene (about 4.5 wt. %) has been monitored. Results show a strong correlation between the diffusivities of the mobile aliphatic chains and those of the adsorbed toluene molecules in the matrix as a function of temperature. Particularly, a strong influence of structural relaxation of the humic matrix on the diffusivity of toluene is observed. Our findings confirm that the aliphatic domains in humic substances play an important role in the mobility of sorbed contaminants within this matrix. These findings further confirm the potential of MAS PFG NMR method in monitoring diffusion processes in particulate humic substances.

Published

2011

11. Influence of moisture content and temperature on the dielectric permittivity of zeolite NaY.

Author

Kraus M, Kopinke FD, and Roland U

Abstract

The influence of moisture content and temperature on the dielectric permittivity (complex resistance) of the zeolite NaY was investigated for a fixed radio frequency (RF) of 13.56 MHz. Sealed glass tubes containing zeolite with defined moisture contents were simultaneously heated in a homogeneous high-frequency electromagnetic field. The dielectric loss factor, i.e. the imaginary part of the permittivity ε(r)″, was calculated from the obtained heating rates. On the basis of the resulting values for various moisture contents and temperatures and utilizing the knowledge of elementary cation hopping processes occurring at low and high frequencies (LF and HF) from the literature, a new model was introduced for the description of dielectric radio-frequency heating of moist zeolites. Since adsorption of water is correlated with an enhancement of the activation energy of the cations on SII sites, cations in the zeolite NaY are moving from SII sites to unoccupied SIII sites when the water content is increasing. Thus, four different transfer processes for the cations have to be considered in total. On the basis of these assumptions, the resulting dielectric loss factor ε(r)″ as a function of water content and temperature for a fixed frequency of 13.56 MHz was modelled. The experimental data are in good agreement with the values obtained from the model. Especially, the measured pronounced maximum of dielectric loss at temperatures below 300 °C and water contents below 4 wt.-% can be explained by the new model.

Published

2011

12. Guest diffusion in interpenetrating networks of micro- and mesopores.

Author

Furtado F, Galvosas P, Gonçalves M, Kopinke FD, Naumov S, Rodríguez-Reinoso F, Roland U, Valiullin R, and Kärger J

Abstract

Pulsed field gradient NMR is applied for monitoring the diffusion properties of guest molecules in hierarchical pore systems after pressure variation in the external atmosphere. Following previous studies with purely mesoporous solids, also in the material containing both micro- and mesopores (activated carbon MA2), the diffusivity of the guest molecules (cyclohexane) is found to be most decisively determined by the sample "history": at a given external pressure, diffusivities are always found to be larger if they are measured after pressure decrease (i.e., on the "desorption" branch) rather than after pressure increase (adsorption branch). Simple model consideration reproduces the order of magnitude of the measured diffusivities as well as the tendencies in their relation to each other and their concentration dependence.

Published

2011

13. Ambivalent role of water in thermodesorption of hydrocarbons from contaminated soil.

Author

Roland U, Holzer F, and Kopinke FD

Subjects

Adsorption, Gases chemistry, Heating, Humidity, Temperature, Environmental Restoration and Remediation methods, Hydrocarbons chemistry, Soil chemistry, Soil Pollutants chemistry, Water chemistry

Abstract

Thermodesorption studies with soil samples from a former filling station for light crude oil contaminated with mineral oil hydrocarbons (mainly benzene, toluene, ethylbenzene, xylenes, naphthalene, alkylnaphthalenes, and C(10) to C(14) alkanes) have revealed an ambivalent influence of water on desorption rates. Particularly, the influences of soil moisture content, humidity of the purge gas, temperature, and content of soil organic matter (SOM) were studied. At low temperature, purge gas humidity strongly affected the mobility of hydrocarbons in the soil organic matter (SOM) leading to an enhanced release of contaminants at higher moisture contents. Heating resulted in a decrease of thermodesorption when connected with desiccation of soil, in spite of the strong temperature impact on the vapor pressure of contaminants. At high water content of the SOM, the transfer of the pollutant molecules into the gas phase was found to be markedly hindered by the formation of water films or pore-filling by bulk water, both acting as diffusion barriers.

Published

2011

14. Influence of in situ steam formation by radio frequency heating on thermodesorption of hydrocarbons from contaminated soil.

Author

Roland U, Bergmann S, Holzer F, and Kopinke FD

Subjects

Heating, Hydrocarbons analysis, Industrial Waste, Laboratories, Soil chemistry, Soil Pollutants analysis, Volatilization, Environmental Restoration and Remediation methods, Hydrocarbons chemistry, Radio Waves, Soil Pollutants chemistry, Steam

Abstract

Thermal desorption of a wide spectrum of organic contaminants, initiated by radio frequency (RF) heating, was studied at laboratory and pilot-plant scales for an artificially contaminated soil and for an originally contaminated soil from an industrial site. Up to 100 °C, moderate desorption rates were observed for light aromatics such as toluene, chlorobenzene, and ethylbenzene. Desorption of the less volatile contaminants was greatly enhanced above 100 °C, when fast evaporation of soil-water produced steam for hydrocarbon stripping (steam-distillation, desorption rates increased by more than 1 order of magnitude). For hydrocarbons with low water solubility (e.g., aliphatic hydrocarbons), the temperature increase above 100 °C after desiccation of soil again led to a significant increase of the removal rates, thus showing the impact of hydrocarbon partial pressure. RF heating was shown to be an appropriate option for thermally enhanced soil vapor extraction, leading to efficient cleaning of contaminated soils.

Published

2010

15. New option for characterizing the mobility of organic compounds in humic acids.

Author

Fomba KW, Galvosas P, Roland U, Kärger J, and Kopinke FD

Subjects

Diffusion, Thermodynamics, Toluene analysis, Humic Substances analysis, Motion

Abstract

A new NMR option for monitoring the mobility of organic contaminants in SOM in the solid state has been successfully applied for the first time. This recently available noninvasive technique, magic angle spinning pulsed-field gradient (MAS PFG) NMR, combines both NMR spectroscopy and diffusometry to selectively monitor the diffusion of compounds sorbed in porous media or polymer matrices. Using this technique, the diffusion of toluene in humic acid particles has been studied. Measurements were performed under varying temperatures from 25 to 80 degrees C. The obtained diffusion coefficients were found to be in good agreement with those obtained from computer simulations reported elsewhere. Our results show a strong influence of the interaction of toluene with humic acid on its diffusion in the matrix even at elevated temperatures of up to 80 degrees C. The Arrhenius plot of the diffusivities shows a decrease in the activation energy of diffusion above 50 degrees C by a factor of 3. This change of activation energy is attributed to a structural change in the humic acid matrix that influences the mobility of toluene.

Published

2009

16. Engineering aspects of radio-wave heating for soil remediation and compatibility with biodegradation.

Author

Roland U, Buchenhorst D, Holzer F, and Kopinke FD

Subjects

Pilot Projects, Environmental Restoration and Remediation methods, Radio Waves, Soil Pollutants metabolism

Abstract

Dielectric heating of soil using radio waves (RW) can be applied to support various remediation techniques, namely biodegradation and soil vapor extraction, under in situ, on site or ex situ conditions. To improve the spatial resolution of energy dissipation, the design of rod electrodes was modified with an air gap around the electrode allowing thermal treatment focused to the desired soil volume. A combination of low- and high-frequency electrical energy was successfully applied to homogeneously heat the capillary fringe, the boundary region of saturated and unsaturated zones. The energetic efficiency of the method was evaluated showing that an efficient transformation of RW energy to heat in the target volume can be achieved. By comparing biodegradation and soil respiration under conventional and electric (low-frequency resistive and dielectric RW) heating, the compatibility of the electric heating methods with bioremediation processes could be proven. Therefore, RW-supported microbial degradation of pollutants is a real option for accelerated soil remediation.

Published

2008

17. Influence of salt impregnation on the initiation of thermo-chromatographic pulses by dielectric heating.

Author

Roland U, Kraus M, Trommler U, and Kopinke FD

Abstract

Selective dielectric heating using the influence of a coupling medium such as water can lead to the formation of combined temperature-mass transport pulses moving through a packed bed. Depending on the dielectric and sorption properties of the material, these so-called thermo-chromatographic pulses (TCP) can cause large temperature differences between the starting temperature and the peak temperature in the pulse. The impregnation of porous substances with various salts was shown to be a simple method for improving material properties leading to the formation of stable TCP. This procedure was proven to only slightly reduce the specific surface area and the sorption capacity towards organic compounds of the investigated sorbents. Consequently, a wide spectrum of silica gels, zeolites and porous alumina can be applied as matrices for TCP-based processes in chemical engineering and environmental technology.

Published

2008

18. Selectivity of dielectric heating: temperature-programmed desorption (TPD) experiments and initiation of thermo-chromatographic pulses.

Author

Roland U, Buchenhorst D, Kraus M, and Kopinke FD

Abstract

The occurrence and extent of selective dielectric heating with microwaves (MW) and radio waves (RW) was studied with a variety of model systems using temperature-programmed desorption (TPD). Over a wide pressure and temperature range, selectivity effects were neither found for polar adsorbates (compared to non-polar compounds) nor expressed by an overheating of metal clusters supported on a nearly MW- and RW-transparent support. In contrast, significant temperature gradients between particles consisting of materials with various dielectric losses could be established under certain conditions. The utilization of adsorbates significantly modifying the dielectric properties of a material was investigated as a further approach to initiate selective dielectric heating. Applying water as a coupling medium, a combined heat and mass transport, which we call a thermo-chromatographic pulse, can be created in a packed-bed column consisting of various zeolites. In this case, selective heating of bed zones by more than 100 K was observed. The suitability of a material for the creation of thermo-chromatographic pulses depends on its dielectric properties as well as on its sorption properties with respect to water or other coupling media. The study provided further insight into not only the potential but also the limitations of selective dielectric heating of solid materials relevant to chemical engineering, environmental technology and sorption processing.

Published

2008

19. Results of field tests on radio-wave heating for soil remediation.

Author

Roland U, Holzer F, Buchenhorst D, and Kopinke FD

Subjects

Environmental Restoration and Remediation methods, Hot Temperature, Radio Waves, Soil Pollutants

Abstract

After developing the radio-wave technique for various conditions in laboratory-scale and technical plant-scale experiments, field tests in combination with biodegradation and soil vapor extraction were carried out at three sites: (i) a bioremediation facility for ex situ cleaning of soil, (ii) in situ remediation of contamination at a former storage facility for organic solvents, and (iii) a polluted soil under a former petrol station. Various electrode arrangements such as parallel plates, rod arrays, and coaxial antenna were applied in order to meet the site-specific requirements optimally. Soil temperatures between 35 and 100 degrees C were established. The successful tests gave much insight into the engineering, physical, biological, and chemical aspects of radio-wave application. General conclusions on the appropriateness and competitiveness of the radio-wave method as well as on preferred application fields are drawn.

Published

2007

20. Coupling-isomerization synthesis of chalcones.

Author

Braun RU, Ansorge M, and Müller TJ

Subjects

Alkenes chemistry, Alkynes chemistry, Amines chemistry, Catalysis, Copper chemistry, Hydrocarbons, Halogenated chemistry, Isomerism, Kinetics, Magnetic Resonance Spectroscopy, Molecular Structure, Palladium chemistry, Propanols chemistry, Chalcones chemical synthesis

Abstract

The Sonogashira coupling of electron-deficient (hetero)aryl halides 1 and (hetero)aryl or alkenyl 1-propargyl alcohols 2 does not terminate at the stage of the expected internal propargyl alcohols, but rather gives rise to the formation of alpha,beta-unsaturated ketones 3 with a variety of acceptor substituents. This new domino reaction, a coupling-isomerization reaction (CIR), can be rationalized as a sequence of rapid Pd/Cu-catalyzed alkynylation followed by a slow amine-base-catalyzed propargyl alcohol-enone isomerization. Performing the CIR in deuterated protic solvents or with a selectively deuterated propargyl alcohol revealed that the base-catalyzed isomerization step proceeds through a formal 1,3-H shift with minimal H/D exchange with the surrounding solvent. Additionally, 19F NMR kinetic measurements on the isomerization step with the fluorinated propargyl alcohol 4 r support the mechanistic rationale.

Published

2006

21. Coupling-isomerization-coupling sequences switched on by propargyl alcohol-enone-isomerization.

Author

Braun RU and Müller TJ

Subjects

Alcohols, Catalysis, Molecular Structure, Alkenes chemistry, Alkynes chemistry, Isomerism, Propanols chemistry

Abstract

The coupling-isomerization-reaction (CIR) of an electron-deficient halide 1 with 1-(p-bromo phenyl) propyne-1-ol (2) leads to an in-situ activation of the carbon-bromine bond towards oxidative addition and has been elaborated to a consecutive CIR-coupling sequence where subsequent palladium catalyzed coupling reactions such as Sonogashira, CIR, Heck, or Suzuki reactions allow a rapid construction of more complex frameworks in a one-pot reaction and in moderate to good yields.

Published

2003

22. Down-regulation by elicitors of phosphatidylcholine-hydrolyzing phospholipase C and up-regulation of phospholipase A in plant cells.

Author

Scherer GF, Paul RU, Holk A, and Martinec J

Subjects

Algal Proteins pharmacology, Cells, Cultured, Diglycerides metabolism, Down-Regulation, Enzyme Activation, Fungal Proteins, Hydrolysis, Intercellular Signaling Peptides and Proteins, Peptides, Petroselinum drug effects, Petroselinum enzymology, Nicotiana drug effects, Nicotiana enzymology, Up-Regulation, Wasp Venoms pharmacology, Phosphatidylcholines metabolism, Phospholipases A metabolism, Plant Proteins metabolism, Plants enzymology, Type C Phospholipases metabolism

Abstract

Phosphatidylcholine, labeled by two fluorescent fatty acids, was fed to cultured plant cells (Petrosilenum crispum, L.; VBI-0, Nicotiana benthiana, L.) and fluorescent diacylglycerol (DAG) was the major metabolite. When a glycoprotein elicitor, derived from Phytophthora sojae, was applied to the parsley cells and the small protein cryptogein from Phytophthora cryptogea was applied to the tobacco cells, these signal substances strongly and rapidly decreased the pool of fluorescent diacylglycerol and weakly increased the pool of free fluorescent fatty acid and of fluorescent lysophosphatidylcholine. The cells responded in a very similar way to the application of mastoparan, a wasp venom peptide. As phosphatidic acid was only a very minor fluorescent metabolite DAG is hypothesized to arise by the action of a phosphatidylcholine-hydrolyzing phospholipase C which was down-regulated by elicitors. Up-regulation of a phospholipase A by elicitors is also suggested by these results. This is the first evidence for phosphatidylcholine-hydrolyzing phospholipase C in plant signal transduction., (Copyright 2002 Elsevier Science (USA).)

Published

2002

23. [Von Békésy's audiometry in the diagnosis of cerebellopontile angle neoplasms].

Author

Rollin H and Roland U

Subjects

Adult, Auditory Threshold, Bone Conduction, Cerebellar Neoplasms complications, Child, Deafness etiology, Female, Humans, Meningioma complications, Methods, Middle Aged, Neurilemmoma complications, Neurilemmoma diagnosis, Peripheral Nervous System Neoplasms diagnosis, Vestibulocochlear Nerve, Audiometry, Cerebellar Neoplasms diagnosis, Cerebellopontine Angle, Deafness diagnosis, Meningioma diagnosis

Published

1971

24. [The pattern of masking in Meniére's disease recorded with Békésy audiometry (author's transl)].

Author

Neumann OG and Roland U

Subjects

Audiometry, Ear Diseases physiopathology, Humans, Meniere Disease physiopathology

Published

1973