ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Electronic Resource

Investigation of electrochemical properties of lead ethyl xanthate by linear potential sweep voltammetry (1986)

Hamilton, I. C. ; Woods, R.

s.l. : American Chemical Society

Langmuir 2 (1986), S. 770-773

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ISSN: 1520-5827

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/la00072a017

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2

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Buffer systems for use with the fluoride electrode in flow-injection analysis (1987)

Cardwell, T. J. ; Cattrall, R. W. ; Hauser, P. C. ; [et al.]

s.l. : American Chemical Society

Analytical chemistry 59 (1987), S. 206-208

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ISSN: 1520-6882

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/ac00128a045

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3

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The rate of turnover of the adenosine triphosphate pool of Escherichia coli growing aerobically in simple defined media (1972)

Holms, W. H. ; Hamilton, I. D. ; Robertson, A. G.

Springer

Archives of microbiology 83 (1972), S. 95-109

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ISSN: 1432-072X

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary 1. Methods are described for measuring the ATP pool in batch cultures of bacteria and of computing the rate of ATP synthesis from the rates of oxygen consumption and substrate utilisation. 2. The ATP pool of Escherichia coli (ML 308) growing aerobically at the expense of a variety of single carbon sources falls within the range 4.5–7.5 μmoles/g dry wt of cells. On any given compound the pool is constant during logarithmic growth. There is no simple relationship between growth rate and the size of the ATP pool. 3. The rate of synthesis of ATP is also constant during logarithmic growth and falls within the range 1.7–2.4 mmoles/g dry wt/min, assuming a P/2e ratio of 3. 4. During logarithmic growth the rate of turnover of the ATP pool falls within the range 250–450 times min-1. 5. Alterations in rate of growth and ATP synthesis occur simultaneously. These changes can be large and rapid (e.g. on exhaustion of a limiting nutrient) but are not reflected in the rate of change of the ATP pool which is much slower.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00425016

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4

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The Rydberg states of FH2 (1988)

Petsalakis, I. D. ; Theodorakopoulos, G. ; Wright, J. S. ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 88 (1988), S. 7633-7637

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The ground and first few excited electronic states of FH2 have been calculated by the MRD-CI method, in an effort to make predictions on the Rydberg spectrum of this molecule. The results show that the excited Rydberg states, up to the 4p levels (in the united atom notation), are bound and have minima at geometries similar to that of the cation FH+2 except the first excited state, which is also found to be bound but with minimum energy at a considerably longer bond length. The most intense bound–bound transitions are predicted to occur from the 3d, 4p, and 4s states to the first excited state 1 2B2(3p).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.454745

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5

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Theoretical investigation involving electronic and vibrational calculations of the 2 2A1(3p)→1 2B2(3p) and the 3 2A1(4s)→1 2B2(3p) transitions in FH2 and FD2 (1988)

Petsalakis, I. D. ; Theodorakopoulos, G. ; Wright, J. S. ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 89 (1988), S. 6841-6849

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Theoretical calculations have been carried out on the X 2A1, 1 2B2(3p), 2 2A1(3p), and 3 2A1(4s) electronic states of FH2. Equilibrium geometries and rotational constants as well as the first few vibrational levels of the excited states have been calculated, in order to obtain theoretical information on the 2 2A1(3p)→1 2B2(3p) and the 3 2A1(4s)→1 2B2(3p) transitions in FH2, which might be relevant to the observed spectra at about 7500 and 8000 A(ring). The results show that the equilibrium geometry of the first excited state of FH2, 1 2B2(3p), is quite different from those of the other excited states. The estimated transition energies (ΔE0) in FH2 are 1.68 and 1.97 eV for the transitions 2 2A1(3p)→1 2B2(3p) and 3 2A1(4s)→1 2B2(3p), respectively, while in FD2 the corresponding quantities are 1.65 and 1.95 eV, respectively. A search for a minimum on the ground state surface of FH2, which has been carried out near two saddle point geometries, has not found one. Thus the present calculations do not find a metastable ground state species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.455358

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6

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Thermal dissociation of diatomics in inert gases: A Nosé equation approach (1990)

Hamilton, I. P. ; Liu, L.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 93 (1990), S. 5616-5620

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The thermal dissociation of diatomics in inert gases has been the subject of numerous experimental and theoretical studies. There is excellent agreement between the measured and calculated bimolecular rate constants for H2, and this has become a test case for master-equation and other approaches. In this paper we consider a Nosé equation approach, which is appropriate if the inert gas simply acts as a heat bath, as may be the case in the limit of infinite dilution of H2. We examine the extent to which the Nosé equation can thermalize the H2 dynamics for the temperature range 4000–10 000 K. We show that we can calculate meaningful pseudo-unimolecular rate constants for the temperature range 7000–10 000 K and, for this temperature range, we obtain an activation energy of 3.7±0.5 eV, which is compatible with the experimental value.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.459632

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7

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Potential energy surface for large-amplitude motion and vibrational spacings for FH+2 (1990)

Petsalakis, I. D. ; Theodorakopoulos, G. ; Wright, J. S. ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 92 (1990), S. 2440-2449

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Multireference configuration interaction calculations have been carried out on the ground electronic state of the fluoronium ion FH+2 . Both local (expansion about equilibrium geometry) and global (expansion about linear equidistant geometry) surface fits are obtained. The equilibrium geometry occurs at Re=1.812 35 bohr and (angle)HFH=112.30 deg. The proton affinity is 116.5 kcal/mol and the inversion barrier height is 19.25 kcal/mol. The surface is suitable for the study of large-amplitude motion, and we obtain vibrational energies up to 2 eV, which is well above the barrier height. For higher vibrational levels, we note the effect of the potential energy barrier on the vibrational spacing. The minimum in vibrational spacing for the bending progression is found to be in excellent agreement with the calculated barrier height.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.458566

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8

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Potential energy determination by inverse perturbation analysis with local correction functions (1986)

Hamilton, I. P. ; Light, J. C. ; Whaley, K. B.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 85 (1986), S. 5151-5157

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Inverse first order perturbation analysis is used iteratively to correct a potential energy surface. With local Gaussian correction functions the analysis is shown to be accurate, flexible, and rapidly convergent for both one and two dimensional examples. The analysis is employed to obtain an improved two dimensional potential energy surface for the twist–pucker motion in cyclopentene.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.451708

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9

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Generalized discrete variable approximation in quantum mechanicsf a@f ) (1985)

Light, J. C. ; Hamilton, I. P. ; Lill@f @f, J. V.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 82 (1985), S. 1400-1409

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The formal definition of the generalized discrete variable representation (DVR) for quantum mechanics and its connection to the usual variational basis representation (VBR) is given. Using the one dimensional Morse oscillator example, we compare the "Gaussian quadrature'' DVR, more general DVR's, and other "pointwise'' representations such as the finite difference method and a Simpson's rule quadrature. The DVR is shown to be accurate in itself, and an efficient representation for optimizing basis set parameters. Extensions to multidimensional problems are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.448462

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10

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The complex of HF2− and H2O: A theoretical study (2001)

Li, G. P. ; Reinhart, B. ; Hamilton, I. P.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 115 (2001), S. 5883-5890

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The complex of HF2− and H2O is studied using B3LYP, MP2, and QCISD methods. Energetics, geometries, and vibrational frequencies of the equilibrium structure and two transition states are calculated using 6-311++G(d,p), 6-311++G(2d,2p), and 6-311++G(2df,2pd) basis sets. For the equilibrium structure there is a hydrogen bond between one of the F atoms of HF2− and one of the H atoms of H2O. The two transition states are only about 0.5 kcal/mol higher. The HF2−–H2O equilibrium structure is planar and, at the B3LYP/6-311++G(2df,2pd) level, the F–H–O bond angle is nearly linear at 174.4° and the F–O distance is 2.59 Å. With zero point energy and counterpoise correction, the binding energy is 14.9 kcal/mol and the strong hydrogen bond of HF2− is weakened by 11.3 kcal/mol (25%). In HF2− the experimental F–F distance is 2.28 Å and the F–H–F bond angle is 180°. The most intense IR vibration is the F–H–F asymmetric stretch at 1331 cm−1. In HF2− the calculated F–F distance is 2.30 Å and in the HF2−–H2O equilibrium structure the F–H distance for the hydrogen bonded F atom is longer by 0.13 Å but the F–H distance for the free F atom is shorter by 0.10 Å and the F–F distance is only 0.03 Å longer. The F–H–F bond angle is very close to linear at 179.4°. The most intense IR vibration remains the F–H–F asymmetric stretch, blueshifted by 648 cm−1. The F–H–O asymmetric stretch is also an intense IR vibration, redshifted by 729 cm−1 from the O–H local mode stretch for H2O. © 2001 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1398094

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