Das Schalentragwerk des Kuwait International Airport Terminal 2 - Bemessung und Ausführung einer komplexen Megastruktur in Zeiten der Digitalisierung. Stahlbau, (88)3:194--202, 2019. [PUMA: BIM, Digitalisierung, Entwerfen, Schalentragwerk, Verbundwirkung, compound design, digitalization, effect parametric parametrisches shell sobek structure,]
Beneficial effect of stress superposition on damage reduction in trimming processes. 2023. [PUMA: beneficial effect process superposition trimming]
High-yield design technologies for InAlAs/InGaAs/InP-HEMT analog-digital ICs. IEEE Transactions on Microwave Theory and Techniques, (44)12:2361-2368, December 1996. [PUMA: 12.05 4.49 GHz;0.1 ICs;low-noise MIMIC;millimetre amplifiers;Indium amplifiers;SCFL amplifiers;frequency analog-digital analogue-digital analysis arsenide;Frequency arsenide;III-V circuit circuits;field circuits;mixed compounds;Indium compounds;aluminium compounds;gallium computing;indium conversion;Low-noise dB;11.55 dB;InAlAs-InGaAs-InP;Indium design design;HEMT dividers;T-shaped dividers;circuit effect frequency gain;fabrication gallium gate;recess-etch integrated micron;4.11 noise;Circuit optimization;Circuit phosphide;HEMTs;Fabrication;Design resistance;circuit semiconductors;design semiconductors;high-yield simulation;60 stability static stopper;III-V technologies;HEMT to wave yield;integrated yield;load]
Metalloradical Compounds with 1,2-Dipivaloylhydrazido Ligands: Electron Transfer and Alkylation/Protonation Effects. European Journal of Inorganic Chemistry, (2019)21:2639--2647, 2019. [PUMA: alkylation calcn complex complex;spectroelectrochem crystal dipivaloylhydrazido effect mol osmium prepn protonation ruthenium structure structure;electron transfer]
Chemistry of C-Trimethylsilyl-Substituted Heterocarboranes. 21. Syntheses, Structures, EPR Spectra, and Reactivities of Bent-Sandwich and Half-Sandwich Titanacarboranes. Full Analysis of Spin-Spin Coupling in Two Structurally Characterized Titanium(III)-Carborane Dimers. Organometallics, (16)7:1365--1377, 1997. [PUMA: carborane coupling crystal dimer;EPR dimer;cyclic dimer;electrochem dimer;magnetic dimer;mol dimer;substituent dimer;titanacarborane effect prepn sandwich spin structure susceptibility titanium voltammetry]
Redox Properties of Ruthenium Nitrosyl Porphyrin Complexes with Different Axial Ligation: Structural, Spectroelectrochemical (IR, UV-Visible, and EPR), and Theoretical Studies. Inorganic Chemistry, (47)16:7106--7113, 2008. [PUMA: axial complex effect effect;spectroelectrochem electrochem ligand ligation nitrosyl porphyrin reaction redox ruthenium study tetraphenylporphyrin]
Homologous chromium, molybdenum, and tungsten derivatives of 6-chloro-2-hydroxypyridine. Inductive effects on the metal-metal bond length. Inorganic Chemistry, (19)6:1453--1457, 1980. [PUMA: binuclear binuclear;tungsten bond bond;inductive bond;molybdenum bond;structure chlorohydroxypyridine chromium effect metal transition]
Photochemical and Photophysical Deactivation of 2,4,6-Triaryl-1,3,5-triazines. Journal of Physical Chemistry A, (104)35:8296--8306, 2000. [PUMA: aryltriazine;triazine effect electron fluorescence intramol photoinduced protonation quenching transfer twisted]
Organoboron substituent effects in EPR/ENDOR spectroscopy. Radical ions with boron-carbon and boron-nitrogen bonds. Journal of the Chemical Society, Perkin Transactions 2: Physical Organic Chemistry, 9:1497--1501, 1992. [PUMA: ENDOR ENDOR;carbon ESR bond boron effect ion ion;ESR organo organoboron organoboron;nitrogen radical substituent]
Ruthenium complexes with vinyl, styryl, and vinylpyrenyl ligands: A case of non-innocence in organometallic chemistry. Journal of the American Chemical Society, (130)1:259--268, 2008. [PUMA: ESR carbonyl complex complex;crystal complex;mol complex;ruthenium conjugated conjugation effect electrooxidn;spectroelectrochem hexenyl oxidn phosphine pi potential prepn pyrenylethenyl pyridine ruthenium spectra structure styryl vinyl vinylruthenium]
The reduction behavior of pentacarbonylpyridinechromium, -molybdenum and -tungsten complexes. Zeitschrift fuer Naturforschung, Teil B: Anorganische Chemie, Organische Chemie, (39B)6:801--807, 1984. [PUMA: coordination deriv effect electrochem heterocyclic iodomethylate ligand metal pyridine redn;pentacarbonyl redn;substituent transition]
The \dqsupershort\dq chromium-to-chromium quadruple bond: Its occurrence in a tetracarboxamidatodichromium(II) compound. Journal of the American Chemical Society, (101)9:2506--2507, 1979. [PUMA: acetamidatochromium bond carboxamidato chromium complex;chromium complex;substituent crystal distance effect prepn quadruple structure;bond]
When Is an Odd-Electron Dinuclear Complex a Mixed-Valent Species? Tuning of Ligand-to-Metal Spin Shifts in Diruthenium(III,II) Complexes of Noninnocent Bridging Ligands OC(R)NNC(R)O. Inorganic Chemistry, (34)7:1924--1933, 1995. [PUMA: azodicarbonyl complex complex;electron complex;mixed complex;substituent configuration dinuclear effect electrochem ruthenium valence]
Analysis of Redox Series of Unsymmetrical 1,4-Diamido-9,10-anthraquinone-Bridged Diruthenium Compounds. Inorganic Chemistry, (55)5:2146--2156, 2016. [PUMA: ancillary bridged complex complex;cyclic complex;unsym crystal diamidoanthraquinone dinuclear diruthenium effect ligand prepn ruthenium spectroelectrochem structure unsym voltammetry]
Radical ions. XXX. Reduction of R3SiO substituted benzene derivatives. Zeitschrift fuer Anorganische und Allgemeine Chemie, (459):103--110, 1979. [PUMA: anion benzene effect redn;inductive trimethylsiloxy trimethylsiloxy;radical trimethylsiloxybenzene trimethylsiloxybenzene;redn trimethylsilyl]
Charge delocalization in a heterobimetallic ferrocene-(vinyl)Ru(CO)Cl(PiPr3)2 system. Organometallics, (28)14:4196--4209, 2009. [PUMA: calcn communication complex complex;frontier complex;mixed complex;solvent complex;vinylferrocene conjugation crystal effect electronic electrooxidn;mol ethenylruthenium ferrocenyl mixed orbital oxidn prepn ruthenium sigma spectra structure valence]
Substituent effects and perturbation of p systems, XXXV. Radical anions of tin-substituted naphthalenes. Zeitschrift fuer Naturforschung, Teil B: Anorganische Chemie, Organische Chemie, (33B)11:1223--1226, 1978. [PUMA: ESR anion;stannylnaphthalene anion;substituent effect pi radical stannyl stannylnaphthalene;naphthalene system]
Virtual levels of multi-particle quantum systems and their implications for the Efimov effect. Stuttgart, 2020. [PUMA: Quantum iadm from:elkepeter Efimov Systems Effect Bitter]
Virtual levels of multi-particle quantum systems and their implications for the Efimov effect. Stuttgart, 2020. [PUMA: Bitter Effect Efimov Quantum Systems iadm]
A Terahertz Wireless Communication Link Using a Superheterodyne Approach. IEEE Transactions on Terahertz Science and Technology, (10)1:32-43, January 2020. [PUMA: (THz) 10.2 100 300.0 GHz;bit Gbit/s;InGaAs;Complex Gbit/s;bit MIMIC;gallium amplitude analogue-digital applications;wireless arbitrary arsenide;HEMT binary channels;terahertz circuits;IEEE circuits;InGaAs circuits;modems;quadrature circuits;multichannel communication communication;high communications;wireless components;monolithic compounds;millimetre configuration;receiver;fast conversion;binary converters;frequency converters;multichannel data data;transmission distances;complex effect electron frequency;baseband generator;carrier generators;wireless high integrated link;low link;pseudorandom link;terahertz links;radio metamorphic millimeter mobility modulated modulation;millimeter modulation;radio monolithic point-to-point range;all-electronic rate rates;64-QAM;THz receivers;terahertz semiconductors;indium sequences;analog-to-digital sequences;field sequences;superheterodyne signal;digital signals;16-QAM;32-QAM;baseband standard;wireless standards;III-V technology;IEEE terahertz transistor transmission;channel transmission;radio transmissions;modems;superheterodyne transmitters;random wave waveform waves;waveform wireless]
A Miniaturized Unit Cell for Ultra-Broadband Active Millimeter-Wave Frequency Multiplication. Microwave Theory and Techniques, IEEE Transactions on, (62)6:1343--1351, June 2014. [PUMA: (MMIC) Field analysis;Logic and circuit circuits circuits;microwave devices devices;microwave effect frequency gates;MMICs;Millimeter integrated millimeter-wave monolithic multipliers;III--V multipliers;millimeter-microwave transistors;Harmonic transistors;Topology;GaAs wave]
Friction effect on the tensile strength of deviated CFRP-Strips. In Department of Structural Engineering Ain Shams University Faculty of Engineering (Eds.), 13th International Conference on Structural and Geotechnical Engineering, Cairo – Egypt, 27-29 Dec. 2009. [PUMA: saad strength knippers engineering friction cfrp strips 2009 from:petraheim effect hwash deviated bridge tensile]
Scale Effect in Bending-active Plates and a Novel Concept for Elastic Kinetic Roof Systems. Proceedings of the IASS Annual Symposium 2016, Tokyo, Japan, 26-30 Sept 2016. [PUMA: 2016 bending-active biomimetic concept effect elastic from:petraheim itke kinetic knippers koslowski körner novel plates roof scale system takahashi]
Friction effect on the tensile strength of deviated CFRP-Strips. In Department of Structural Engineering Ain Shams University Faculty of Engineering (Eds.), 13th International Conference on Structural and Geotechnical Engineering, Cairo – Egypt, 27-29 Dec. 2009. [PUMA: 2009 bridge cfrp deviated effect engineering friction hwash knippers saad strength strips tensile]
Effect of terminating and shunt resistors on the FRA method sensitivity. 2015. [PUMA: Effect FRA Method Resistors Sensitivity Shunt Terminating]
The effect of painting orientation during air transportation. Presentation at ICOMCC 14th Triennial Conference Preprints, The Hague, (12):16, 2005. [PUMA: The air during effect of orientation painting transportation]
Substituent effects and perturbation of p systems, XXXV. Radical anions of tin-substituted naphthalenes. Zeitschrift fuer Naturforschung, Teil B: Anorganische Chemie, Organische Chemie, (33B)11:1223--1226, 1978. [PUMA: ESR anion;stannylnaphthalene anion;substituent effect pi radical stannyl stannylnaphthalene;naphthalene system]
Charge delocalization in a heterobimetallic ferrocene-(vinyl)Ru(CO)Cl(PiPr3)2 system. Organometallics, (28)14:4196--4209, 2009. [PUMA: calcn communication complex complex;frontier complex;mixed complex;solvent complex;vinylferrocene conjugation crystal effect electronic electrooxidn;mol ethenylruthenium ferrocenyl mixed orbital oxidn prepn ruthenium sigma spectra structure valence]
Radical ions. XXX. Reduction of R3SiO substituted benzene derivatives. Zeitschrift fuer Anorganische und Allgemeine Chemie, (459):103--110, 1979. [PUMA: anion benzene effect redn;inductive trimethylsiloxy trimethylsiloxy;radical trimethylsiloxybenzene trimethylsiloxybenzene;redn trimethylsilyl]
Analysis of Redox Series of Unsymmetrical 1,4-Diamido-9,10-anthraquinone-Bridged Diruthenium Compounds. Inorganic Chemistry, (55)5:2146--2156, 2016. [PUMA: ancillary bridged complex complex;cyclic complex;unsym crystal diamidoanthraquinone dinuclear diruthenium effect ligand prepn ruthenium spectroelectrochem structure unsym voltammetry]
When Is an Odd-Electron Dinuclear Complex a Mixed-Valent Species? Tuning of Ligand-to-Metal Spin Shifts in Diruthenium(III,II) Complexes of Noninnocent Bridging Ligands OC(R)NNC(R)O. Inorganic Chemistry, (34)7:1924--1933, 1995. [PUMA: azodicarbonyl complex complex;electron complex;mixed complex;substituent configuration dinuclear effect electrochem ruthenium valence]
The \dqsupershort\dq chromium-to-chromium quadruple bond: Its occurrence in a tetracarboxamidatodichromium(II) compound. Journal of the American Chemical Society, (101)9:2506--2507, 1979. [PUMA: bond carboxamidato chromium complex;chromium crystal distance effect prepn quadruple structure;bond acetamidatochromium complex;substituent]
The reduction behavior of pentacarbonylpyridinechromium, -molybdenum and -tungsten complexes. Zeitschrift fuer Naturforschung, Teil B: Anorganische Chemie, Organische Chemie, (39B)6:801--807, 1984. [PUMA: coordination deriv effect electrochem heterocyclic iodomethylate ligand metal pyridine redn;pentacarbonyl redn;substituent transition]
Ruthenium complexes with vinyl, styryl, and vinylpyrenyl ligands: A case of non-innocence in organometallic chemistry. Journal of the American Chemical Society, (130)1:259--268, 2008. [PUMA: ESR carbonyl complex complex;crystal complex;mol complex;ruthenium conjugated conjugation effect electrooxidn;spectroelectrochem hexenyl oxidn phosphine pi potential prepn pyrenylethenyl pyridine ruthenium spectra structure styryl vinyl vinylruthenium]
Organoboron substituent effects in EPR/ENDOR spectroscopy. Radical ions with boron-carbon and boron-nitrogen bonds. Journal of the Chemical Society, Perkin Transactions 2: Physical Organic Chemistry, 9:1497--1501, 1992. [PUMA: ENDOR ENDOR;carbon ESR bond boron effect ion ion;ESR organo organoboron organoboron;nitrogen radical substituent]
Photochemical and Photophysical Deactivation of 2,4,6-Triaryl-1,3,5-triazines. Journal of Physical Chemistry A, (104)35:8296--8306, 2000. [PUMA: aryltriazine;triazine effect electron fluorescence intramol photoinduced protonation quenching transfer twisted]
Homologous chromium, molybdenum, and tungsten derivatives of 6-chloro-2-hydroxypyridine. Inductive effects on the metal-metal bond length. Inorganic Chemistry, (19)6:1453--1457, 1980. [PUMA: binuclear binuclear;tungsten bond bond;inductive bond;molybdenum bond;structure chlorohydroxypyridine chromium effect metal transition]
Redox Properties of Ruthenium Nitrosyl Porphyrin Complexes with Different Axial Ligation: Structural, Spectroelectrochemical (IR, UV-Visible, and EPR), and Theoretical Studies. Inorganic Chemistry, (47)16:7106--7113, 2008. [PUMA: axial complex effect effect;spectroelectrochem electrochem ligand ligation nitrosyl porphyrin reaction redox ruthenium study tetraphenylporphyrin]
Chemistry of C-Trimethylsilyl-Substituted Heterocarboranes. 21. Syntheses, Structures, EPR Spectra, and Reactivities of Bent-Sandwich and Half-Sandwich Titanacarboranes. Full Analysis of Spin-Spin Coupling in Two Structurally Characterized Titanium(III)-Carborane Dimers. Organometallics, (16)7:1365--1377, 1997. [PUMA: carborane coupling crystal dimer;EPR dimer;cyclic dimer;electrochem dimer;magnetic dimer;mol dimer;substituent dimer;titanacarborane effect prepn sandwich spin structure susceptibility titanium voltammetry]
Metalloradical Compounds with 1,2-Dipivaloylhydrazido Ligands: Electron Transfer and Alkylation/Protonation Effects. European Journal of Inorganic Chemistry, (2019)21:2639--2647, 2019. [PUMA: alkylation calcn complex complex;spectroelectrochem crystal dipivaloylhydrazido effect mol osmium prepn protonation ruthenium structure structure;electron transfer]
Conduction anisotropy, Hall effect and magnetoresistance of (TMTSF)2ReO4 at high temperatures. Synthetic Metals, (137)1-3:1323-1324, Elsevier BV, April 2003. [PUMA: Hall TMTSF effect magnetoresistance] URL
Hall effect in the normal phase of the organic conductors: (TMTSF) 2ReO 4 vs. (TMTTF) 2AsF 6. J. Phys. IV France 114: 73, (114):73-76, 2004. [PUMA: Hall TMTSF effect]
Conduction anisotropy and Hall effect in the organic conductor (TMTTF)2AsF6: Evidence for Luttinger liquid behavior and charge ordering. Phys. Rev. B, (73)11:115102, American Physical Society, March 2006. [PUMA: Hall Luttinger TMTTF anisotropy effect] URL
Hall effect in Sr14-xCaxCu24O41. Physica B: Condensed Matter, (404)3-4:385-388, Elsevier BV, March 2009. [PUMA: Hall effect] URL
Nanometer size effect on the structure and magnetic properites of hige oxygen content ferromagnetic PrMnO3+δ nanoparticles. Journal of Applied Physics, (108)11:113901, December 2010. [PUMA: effect ferromagnetic nanometer nanoparticles size]
Numerical analysis of relaxation test based on Prony series material model: Numerical analysis of relaxation test based on Prony series material model. --, 2010. [PUMA: ∙ Boundary FEM Hypoviscoelastic ISW Prony Relaxation condition effect material modeling series test]