Faculty Opinions recommendation of Looped-PROjected SpectroscopY (L-PROSY): A simple approach to enhance backbone/sidechain cross-peaks in 1H NMR.

A bolock copolymer of poly(ε-caprolactone) and hyperbranched polyglycidol (PCL-b-HPG) was synthezed by “living” copolymerization of ε-caprolactone (CL) and glycidol. The chemical structure was confirmed by 1H NMR, IR and GPC spectrum. Nanoparticles (NPs) of 50–100 nm were formulated from the PCL-b-HPG copolymer with no evidence of particles aggregation as determined by TEM. RGD peptide was covalently coupled on the end hydroxyl groups that could enable recepter–mediated recongnation onto targeted tissues. In conclusion, a hyperbranched copolymer PCL-b-HPG was synthezed by a novel and simple approach. The numerous functional end-groups could facilitate the attachment of biomolecules for further investigation as targeted drug delivery.

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RES-TOCSY: a simple approach to resolve overlapped 1H NMR spectra of enantiomers

Organic & Biomolecular Chemistry ◽

10.1039/c3ob42087f ◽

2014 ◽

Vol 12 (6) ◽

pp. 993 ◽

Cited By ~ 21

Author(s):

Lokesh ◽

Sachin Rama Chaudhari ◽

N. Suryaprakash

Keyword(s):

1H Nmr ◽

Nmr Spectra ◽

Simple Approach ◽

1H Nmr Spectra

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Looped-PROjected SpectroscopY (L-PROSY): A simple approach to enhance backbone/sidechain cross-peaks in 1H NMR

Journal of Magnetic Resonance ◽

10.1016/j.jmr.2018.07.010 ◽

2018 ◽

Vol 294 ◽

pp. 169-180 ◽

Cited By ~ 3

Author(s):

Mihajlo Novakovic ◽

Samuel F. Cousin ◽

Michael J. Jaroszewicz ◽

Rina Rosenzweig ◽

Lucio Frydman

Keyword(s):

1H Nmr ◽

Simple Approach

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Influence of X-Ray Induced Fluorescence on Energy Dispersive X-Ray Analysis of Thin Foils

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100079164 ◽

1977 ◽

Vol 35 ◽

pp. 328-329

Author(s):

E. A. Kenik ◽

J. Bentley

Keyword(s):

Thin Foil ◽

Electron Excitation ◽

Simple Approach ◽

Foil Thickness ◽

X Rays ◽

X Ray ◽

Hole Spectrum ◽

Illumination System ◽

Thin Foils ◽

Intensity Ratios

Cliff and Lorimer (1) have proposed a simple approach to thin foil x-ray analy sis based on the ratio of x-ray peak intensities. However, there are several experimental pitfalls which must be recognized in obtaining the desired x-ray intensities. Undesirable x-ray induced fluorescence of the specimen can result from various mechanisms and leads to x-ray intensities not characteristic of electron excitation and further results in incorrect intensity ratios.In measuring the x-ray intensity ratio for NiAl as a function of foil thickness, Zaluzec and Fraser (2) found the ratio was not constant for thicknesses where absorption could be neglected. They demonstrated that this effect originated from x-ray induced fluorescence by blocking the beam with lead foil. The primary x-rays arise in the illumination system and result in varying intensity ratios and a finite x-ray spectrum even when the specimen is not intercepting the electron beam, an ‘in-hole’ spectrum. We have developed a second technique for detecting x-ray induced fluorescence based on the magnitude of the ‘in-hole’ spectrum with different filament emission currents and condenser apertures.

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