「X-ray」の共起表現一覧(1語右で並び替え)2ページ目
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X-ray crystallography of the tri-sulfone derivative | |
X-ray crystallography became a widely used tool and | |
Petsko is best known for using | X-ray crystallography to solve important problems in |
roduct mixture was more fully characterized by | X-ray crystallography and Nuclear Magnetic Resonance |
X-ray crystallography studies have shown that solith | |
Single-crystal | X-ray crystallography has been used to determine its |
one of the pioneer scientists in the field of | X-ray crystallography studies of biomolecules. |
The structure was determined by | X-ray crystallography to 2.1 Angstrom resolution and |
gh-resolution protein structures determined by | X-ray crystallography and deposited in the Protein D |
The data, typically obtained by | X-ray crystallography or NMR spectroscopy and submit |
re was determined by both NMR spectroscopy and | X-ray crystallography in 1963. |
tobacter vinelandii has been characterised via | x-ray crystallography in both ADP tetrafluoroalumina |
tal methods of structure determination include | X-ray crystallography and NMR spectroscopy, both of |
From | X-ray crystallography it is established that the mol |
nd is reported as stable and with according to | X-ray crystallography a chairlike tricyclic silicon |
h his son Edmond Friedel, the results of their | X-ray crystallography studies: "The physical propert |
Arnold Beevers in the Chemistry Department in | X-ray crystallography of sucrose using isomorphous r |
rst structure determination of any protein (by | X-ray crystallography). |
omic coordinates of the protein, as defined by | X-ray crystallography, protein NMR, or another prote |
Later by | X-ray crystallography, the complex was shown to be p |
st important application of phase retrieval is | X-ray crystallography, awarded of several Nobel priz |
He was best known for the development of | X-ray crystallography, a technique used to determine |
s goal is to enhance the efficiency of protein | X-ray crystallography, which will enable researchers |
em in their native environment, in contrast to | X-ray crystallography, which generally requires plac |
In | x-ray crystallography, the diffraction data when pro |
In | X-ray crystallography, anomalous scattering refers t |
pounds are usually evaluated by single-crystal | X-ray crystallography, focusing both on the overall |
In | X-ray crystallography, kerosene can be used to store |
A variety of techniques, not including | X-ray crystallography, suggest that the compound exi |
According to | X-ray crystallography, it binds Fe3+as a 1:1 complex |
s most well known as a pioneer in the field of | x-ray crystallography. |
function is used to solve the phase problem in | X-ray crystallography. |
ne solids, the molar volume can be measured by | X-ray crystallography. |
ure of an SAH riboswitch has been solved using | X-ray crystallography. |
Wilhelm Institute, where he began to research | X-ray crystallography. |
nsively studied by electron cryomicroscopy and | x-ray crystallography. |
ch as NaCl and CsCl were later confirmed using | X-ray crystallography. |
the riboswitch from E. faecalis was solved by | X-ray crystallography. |
d in 1968 the structure could be elucidated by | X-ray crystallography. |
eters were deduced by electron diffraction and | X-ray crystallography. |
aesium and rubidium have been characterized by | X-ray crystallography. |
ne has historical significance in the field of | X-ray crystallography. |
eatment of the effect of thermal vibrations in | X-ray crystallography. |
ReB2 without any other phases, as confirmed by | X-ray crystallography. |
al ways to determine the absolute structure by | X-ray crystallography. |
f antimony(III) acetate has been determined by | X-ray crystallography. |
e ectodomain D1 and D2 of CD155 were solved by | x-ray crystallography. |
the Protein Data Bank have been determined by | X-ray crystallography. |
as selenium helps solving the phase problem in | X-ray crystallography. |
e been solved for this class of enzymes, using | X-ray crystallography. |
ectroscopy, and Circular Dichroism, along with | X-ray crystallography. |
c synthesis and the structure was confirmed by | x-ray crystallography. |
mself with methods of protein purification and | X-ray crystallography. |
of the importance of the Fourier transform in | X-ray crystallography. |
three-dimensional protein structure solved by | X-ray crystallography. |
en joined the lab of Robert Huber to work with | x-ray crystallography. |
of known protein tertiary structures solved by | X-ray crystallography. |
ly to the enzyme, the complex can be viewed by | X-ray crystallography; it can therefore be used as a |
The High Resolution | X-Ray CT (UTCT) Facility has been used to non-destru |
a Renal Dialysis Unit, Cardiac Catheter Suite, | X-ray, CT, PET and MRI Scanners, with extensive outp |
A detailed atomic structure for hERG based on | X-ray cystallography is not yet available, so struct |
According to SIMBAD there are at least three | X-ray dark, gamma-ray souces within 1° of Sco XR-4. |
Cryo crystallography enables | X-ray data collection at cryogenic, near liquid nitr |
Corey, the laboratory's expert in transforming | X-ray data into precise models). |
However, | x-ray data showed that there is not enough mass to h |
ike ions can be found on Table 1-5 of the LNBL | X-Ray Data Booklet |
These are added to pre-existing | x-ray data from the Chandra X-ray Observatory and ES |
By combining visual and | X-ray data, it can be shown that the southeastern kn |
Afterwards, he walked some distance to the | X-ray department to photograph the catheter which wa |
He was hired as the manager of the | x-ray department at Rikshospitalet in 1899, took the |
spital added an operating room, a pharmacy and | X-ray departments. |
the most recent satellites to be launched with | X-ray detection capability. |
Development of a novel | X-ray detector technique for use in medical imaging; |
s from the Naval Research Laboratory loaded an | X-ray detector on board an Aerobee that is launched |
The Vela 5B satellite | X-ray detector remained functional for over ten year |
SPACEHAB Payloads include the Advanced | X-Ray Detector (ADV XDT), the Advanced Commercial Ge |
a detector plane of 32,768 four mm CdZnTe hard | X-ray detector tiles; it is purpose-built for Swift. |
The scintillation | X-ray detector (XC) aboard Vela 5A and its twin Vela |
e measured with the University of Utrecht hard | X-ray detector with a time resolution of 1.2 s (< 10 |
On board is a hard | X-ray detector (27-189 keV) with a 5.1 cm2 NaI(Tl) s |
The small area of the | X-ray detector, thick Mylar window counters, and hig |
om White Sands Missile Range, New Mexico, with | X-ray detectors aboard, discovered it. |
tals with a higher level of doping are used in | X-ray detectors with high spectrometric quality. |
The | X-ray detectors on board the X-ray observatory satel |
which especially pertain to the use of CCDs in | X-ray detectors can be coupled with practical books |
n the outside of the station together with the | X-ray detectors, and power supply and measurement un |
s back into X-rays for subsequent detection by | X-ray detectors. |
s school developed the first digital panoramic | x-ray device in America. |
ties such as CT, MR, and Computed Radiography ( | x-ray) devices for image capture. |
radiocontrast agents used in cholecystography ( | X-ray diagnosis of gallstones). |
ension previously used as a contrast medium in | x-ray diagnostics, is a potent human carcinogen know |
However, AgO is diamagnetic and | X-ray diffraction studies show that silver atoms hav |
ce the 1950s or earlier , but was confirmed by | X-ray diffraction analysis only in 2005 |
X-ray diffraction is still considered the ultimate p | |
next-generation solution is Energy Dispersive | X-Ray Diffraction (EDXRD) . |
He invented a Goniometer to study | X-ray diffraction of crystals for which he received |
ch as Raman spectroscopy and Energy Dispersive | X-Ray Diffraction (EDXRD) can be used to discover co |
Diffraction, a British company specializing in | X-ray diffraction equipment. |
estion remained unanswered until the advent of | x-ray diffraction in the 20th century. |
eformation of the NaCl lattice, as measured by | x-ray diffraction (XRD), served as a pressure indica |
opment of the use of synchrotron radiation for | X-ray diffraction experiments, now a widely used tec |
X-ray diffraction patterns for six-line (top) and tw | |
The | X-ray diffraction patterns of plastic crystals are c |
results in a structural variety detectable by | X-ray diffraction techniques. |
X-ray diffraction is commonly used to determine the | |
h Pu2O3, PuO2 and a higher oxide identified by | X-ray diffraction and X-ray photoelectron spectrosco |
he Von Laue condition for diffraction peaks in | x-ray diffraction crystallography. |
was successfully crystallized and analyzed by | X-ray diffraction in 2003. |
in, Gosling, Stokes, Wilson and Wilkins to DNA | X-ray diffraction studies. |
haracterization of scrutinyite by the standard | X-ray diffraction (XRD) technique was hindered by sc |
olution, as long as crystals are available, as | x-ray diffraction needs numerous copies of the molec |
researcher in materials characterization with | x-ray diffraction and on the structural analysis of |
In | X-ray diffraction a beam strikes a crystal and diffr |
size, positive identification usually requires | x-ray diffraction analysis. |
le crystal wires of zinc, Cahn demonstrated by | X-ray diffraction that long strain-free crystallites |
zes is seen as a broadening of the peaks in an | X-ray diffraction as is explained by the Scherrer Eq |
Single crystal | X-ray diffraction analysis of this compound shows co |
ost often used to identify substances based on | x-ray diffraction data, and is designed for use with |
mium bond, which was confirmed by two separate | X-Ray diffraction studies of single crystals. |
X-ray diffraction analysis is required for positive | |
In | X-ray diffraction the scattering factor f for an ato |
X-ray diffraction studies of [TTF][TCNQ] revealed st | |
X-ray diffraction in crystals, imperfect crystals an | |
Powder | X-ray diffraction (PXDR) is used to determine struct |
X-ray diffraction shows that due to pi-pi interactio | |
X-ray diffraction measures the cell parameter, a, wh | |
High-resolution | X-ray diffraction is used to characterize thickness, |
According to | X-ray diffraction analysis, the reagent traded under |
phic research pioneering optical approaches to | x-ray diffraction based on the Fourier transform. |
ents: optical microscopy, electron microscopy, | X-ray diffraction and so on, some involving preparat |
The corresponding samples were examined with | X-ray diffraction and transmission electron microsco |
t, the DNA which Rosalind Franklin used in her | x-ray diffraction studies that rewarded Maurice Wilk |
sh by standard laboratory methods (like Powder | X-Ray Diffraction) |
O)5 has been studied by many methods including | X-Ray diffraction, neutron diffraction, and electron |
er the following decade Klug used methods from | X-ray diffraction, microscopy and structural modelli |
and 1990s on nuclear detectors and the use of | x-ray diffraction, fluorescence, and crystallography |
For Bragg reflections in neutron and | X-ray diffraction, the momentum difference between i |
re domain and has been the subject of numerous | X-ray diffraction, spectroscopic and theoretical stu |
crystal structure in a manner very similar to | X-ray diffraction. |
ering the double helix structure for DNA using | X-ray diffraction. |
detected and quantified in mixtures by powder | x-ray diffraction. |
he central carbon atom of around 130° based on | X-ray diffraction. |
X-ray diffraction. | |
chniques for determining atomic structure from | X-ray diffraction. |
This structure was found using | X-ray diffraction. |
orphous solids were initially characterised by | X-ray diffraction. |
This protein's structure was determined by | X-ray diffraction. |
At crystalline state, obtained with an | X-ray diffraction. |
fraction, electron microscopy, and synchrotron | x-ray diffraction. |
ween the minerals in the copiapite group is by | X-ray diffraction. |
ples sizes are large compared to those used in | X-ray diffraction. |
The detector end of a simple | x-ray diffractometer with an area detector. |
He was selected by NSF to acquire an | X-ray diffractometer and has been a pioneer in apply |
spectroscopy/X-ray photoelectron spectroscopy, | X-ray diffractometer, scanning electron microscope w |
The trailer features a track by | X-Ray Dog, entitled Divine Crusade. |
Kane | X-ray donates personnel to perform installation and |
More recent | X-ray echos or halos have been observed originating |
giant companion every 2.09 days; these regular | X-ray eclipses last approximately 1/4 the orbital pe |
Solar hard | X-ray EFBs rise and decay times do not depend on the |
on the Roehampton site, with services such as | x-ray, electro-therapy and a gymnasium. |
PSR J0437-4715 is the first MSP to have its | X-ray emission detected and studied in detail. |
Observation of | X-ray emission from the collision of Comet Shoemaker |
in combination with electron-induced secondary | X-ray emission . |
is that given a protein of known sequence, The | X-ray emission from sulfur can be used as an interna |
The | X-ray emission of the neutron star is caused by the |
The | X-ray emission may be caused by magnetic activity, o |
The same satellite discovered | X-ray emission from the same object, and the GMOS In |
X-ray emission spectrum. | |
e nucleus is a strong source of both radio and | X-ray emission that appears to be synchrotron emissi |
law to use strontium in the faceplate to block | X-ray emission (these X-ray emitting TV's are no lon |
er than the faintest star of WR20a, though its | X-ray emission is quite peculiar (see Naze et al. 20 |
This was the first time the | X-ray emission pattern of a supernova (which only la |
The | X-ray emission may also be variable, which is also e |
The | X-ray emission from the source is dominated by therm |
Attempts to detect | X-ray emission from Procyon with nonimaging, soft X- |
ocated at the centre of the cluster, where the | X-ray emission is brightest. |
X-ray emission from a limb flare is recorded by Solr | |
EAO 1 has been presented that the ring of soft | X-ray emission includes Cygnus X-6 and Cygnus X-7. |
n of gas and dust near the AGN that absorb the | X-ray emission. |
27 has been identified as a source of variable | X-ray emission. |
l, which also exhibits the brightest radio and | X-ray emission. |
s hotspots are readily detected in optical and | X-ray emission. |
scope of XMM Newton includes the detection of | X-ray emissions from Solar System objects, detailed |
, an alternative explanation would be that the | X-ray emissions could be from the pulsar wind nebula |
s not centred on any one galaxy and studies of | X-ray emissions from the group indicate that it is d |
discovered to be much brighter than normal in | X-ray emissions on October 9, 2007, by the European |
X-ray emissions were observed in NGC 7252. | |
aries at the same 4.8-hour orbital rate as the | X-ray emissions, and they occur a few days before th |
For his Ph.D. thesis he studied | X-ray emissions. |
n the SNL Z-Machine, the world's most powerful | x-ray emitter and z-pinch at that time. |
ies were subsequently discovered as a class of | X-ray emitters. |
Intermediate polar systems are strong | X-ray emitters. |
inetic energy is thermalized, producing 106 K, | X-ray emitting plasma. |
disk, which directly heated gas in its path to | X-ray emitting temperatures |
s known, with their baryonic mass dominated by | X-ray emitting plasma (coronal clouds), which is ten |
X-ray energies are between 100 eV and 300 eV. | |
nsity of the Crab Nebula is various at various | X-ray energies, conversion of the Crab to another un |
, reflectivity, refraction index, electron and | X-ray energy loss, for a large variety of systems, r |
ensity of the Crab Nebula at the corresponding | X-ray energy. |
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