排序方式: 共有13条查询结果,搜索用时 17 毫秒
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Applied Biochemistry and Biotechnology - 相似文献
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Paul C. DeRose Melody V. Smith Klaus D. Mielenz Jeffrey R. Anderson Gary W. Kramer 《Journal of luminescence》2011,131(7):1294-1299
Standard Reference Material (SRM) 2942 is a cuvette-shaped, Ce-ion-doped glass, recommended for use for relative spectral correction of emission from 320 to 430 nm and day-to-day performance verification of steady-state fluorescence spectrometers. Properties of this standard that influence its effective use or contribute to the uncertainty in its certified emission spectrum were explored here. These properties include its photostability, absorbance, dissolution rate in water, anisotropy and temperature coefficient of fluorescence intensity. The expanded uncertainties in the certified spectrum are about 9% around the peak maximum at 330 nm, using an excitation wavelength of 310 nm. The SRM also exhibits a strong resistance to photodegradation, with no measurable decrease in fluorescence intensity even after 25 h of irradiation with UV light>280 nm from a Xe lamp. 相似文献
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Paul C. DeRose Melody V. Smith Klaus D. Mielenz Douglas H. Blackburn Gary W. Kramer 《Journal of luminescence》2008,128(2):257-266
Standard Reference Material® (SRM®) 2941 is a cuvette-shaped, uranyl-ion-doped glass, recommended for use for relative spectral correction of emission and day-to-day performance validation of fluorescence spectrometers. Properties of this standard that influence its effective use or contribute to the uncertainty in its certified emission spectrum have been explored here. These properties include its photostability, absorbance, dissolution rate in water, anisotropy, temperature coefficient of fluorescence intensity, and fluorescence lifetimes. The expanded uncertainties in the certified spectrum are about 4% around the peak maximum at 526 nm, using an excitation wavelength of 427 nm. The SRM also exhibits a strong resistance to photodegradation, with no measurable decrease in fluorescence intensity even after 8 h of laser irradiation. 相似文献
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Englert BG Mielenz M Sommer C Bayerl J Motsch M Pinkse PW Rempe G Zeppenfeld M 《Physical review letters》2011,107(26):263003
We present a versatile electric trap for the exploration of a wide range of quantum phenomena in the interaction between polar molecules. The trap combines tunable fields, homogeneous over most of the trap volume, with steep gradient fields at the trap boundary. An initial sample of up to 10(8), CH(3)F molecules is trapped for as long as 60 s, with a 1/e storage time of 12 s. Adiabatic cooling down to 120 mK is achieved by slowly expanding the trap volume. The trap combines all ingredients for opto-electrical cooling, which, together with the extraordinarily long storage times, brings field-controlled quantum-mechanical collision and reaction experiments within reach. 相似文献
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Mielenz Jonathan R. Koepping Dianne Parson Franki 《Applied biochemistry and biotechnology》1996,57(1):667-676
Applied Biochemistry and Biotechnology - With the recent commissioning of the National Renewable Energy Laboratory’s (NREL) process development unit, through the support of the US Department... 相似文献
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Paul C. DeRose Melody V. Smith Klaus D. Mielenz Douglas H. Blackburn Gary W. Kramer 《Journal of luminescence》2009,129(4):349-355
Standard Reference Material (SRM) 2940 is a cuvette-shaped, Mn-ion-doped glass, recommended for use for relative spectral correction of emission and day-to-day performance validation of steady-state fluorescence spectrometers. Properties of this standard that influence its effective use or contribute to the uncertainty in its certified emission spectrum were explored here. These properties include its photostability, absorbance, dissolution rate in water, anisotropy, temperature coefficient of fluorescence intensity, and fluorescence lifetimes. Long and short lifetime components of the fluorescence displayed different emission spectra, making the certified spectrum useful with fluorescence instruments employing continuous excitation only. The expanded uncertainties in the certified spectrum are about 5% around the peak maximum at 620 nm, using an excitation wavelength of 412 nm. The SRM also exhibits a strong resistance to photodegradation, with no measurable decrease in fluorescence intensity even after 17 h of irradiation with the visible light from a Xe lamp. 相似文献
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Paul C. DeRose Melody V. Smith Klaus D. Mielenz Jeffrey R. Anderson Gary W. Kramer 《Journal of luminescence》2011,131(12):2509-2514
Standard Reference Material (SRM) 2943 is a cuvette-shaped, Cu-ion-doped glass, recommended for use for relative spectral correction of emission and day-to-day performance verification of steady-state fluorescence spectrometers. Properties of this standard that influence its effective use or contribute to the uncertainty in its certified emission spectrum were explored here. These properties include its photostability, absorbance, dissolution rate in water, anisotropy and temperature coefficient of fluorescence intensity. The expanded uncertainties in the certified spectrum are about 5% around the peak maximum at 446 nm, using an excitation wavelength of 330 nm. SRM 2943 can replace SRM 936a quinine sulfate dihydrate, which is no longer sold by NIST, for many applications, as it covers the same spectral range. SRM 2943 is significantly more photostable than organic dyes, but unlike the other fluorescent glass SRMs in this series, it does photodegrade gradually under lamp-based excitation. 相似文献
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Mielenz JR 《Applied biochemistry and biotechnology》2007,137(1-12):iii-viii
Applied Biochemistry and Biotechnology - 相似文献