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135,216
result(s) for
"Molecular structure."
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Atomic and molecular structure
by
Chaffee, Joel
in
Atomic theory Juvenile literature.
,
Atomic structure Juvenile literature.
,
Molecular structure Juvenile literature.
2011
Learn about the atom, what it is, the people responsible for helping us understand it, and how it affects us in the world today.
Boosting triplet self-trapped exciton emission in Te(IV)-doped Cs2SnCl6 perovskite variants
by
Wang, Liushun
,
Bai, Kun
,
Zou, Bingsuo
in
Atomic/Molecular Structure and Spectra
,
Biomedicine
,
Biotechnology
2021
Perovskite variants have attracted wide interest because of the lead-free nature and strong self-trapped exciton (STE) emission. Divalent Sn(II) in CsSnX
3
perovskites is easily oxidized to tetravalent Sn(IV), and the resulted Cs
2
SnCl
6
vacancy-ordered perovskite variant exhibits poor photoluminescence property although it has a direct band gap. Controllable doping is an effective strategy to regulate the optical properties of Cs
2
SnX
6
. Herein, combining the first principles calculation and spectral analysis, we attempted to understand the luminescence mechanism of Te
4+
-doped Cs
2
SnCl
6
lead-free perovskite variants. The chemical potential and defect formation energy are calculated to confirm theoretically the feasible substitutability of tetravalent Te
4+
ions in Cs
2
SnCl
6
lattices for the Sn-site. Through analysis of the absorption, emission/excitation, and time-resolved photoluminescence (PL) spectroscopy, the intense green-yellow emission in Te
4+
:Cs
2
SnCl
6
was considered to originate from the triplet Te(IV) ion
3
P
1
→
1
S
0
STE recombination. Temperature-dependent PL spectra demonstrated the strong electron-phonon coupling that inducing an evident lattice distortion to produce STEs. We further calculated the electronic band structure and molecular orbital levels to reveal the underlying photophysical process. These results will shed light on the doping modulated luminescence properties in stable lead-free Cs
2
MX
6
vacancy-ordered perovskite variants and be helpful to understand the optical properties and physical processes of doped perovskite variants.
Journal Article
Molecular Asymmetry and Optical Cycling: Laser Cooling Asymmetric Top Molecules
by
Kozyryev, Ivan
,
Doyle, John M.
,
Augenbraun, Benjamin L.
in
Astrochemistry
,
Astronomy
,
Asymmetry
2020
We present a practical roadmap to achieve optical cycling and laser cooling of asymmetric top molecules (ATMs). Our theoretical analysis describes how reduced molecular symmetry, as compared to diatomic and symmetric nonlinear molecules, plays a role in photon scattering. We present methods to circumvent limitations on rapid photon cycling in these systems. We calculate vibrational branching ratios for a diverse set of asymmetric top molecules and find that many species within a broad class of molecules can be effectively cooled with a manageable number of lasers. We also describe methods to achieve rotationally closed optical cycles in ATMs. Despite significant structural complexity, laser cooling can be made effective by using extensions of the current techniques for linear molecules. Potential scientific impacts of laser-cooled ATMs span frontiers in controlled chemistry, quantum simulation, and searches for physics beyond the Standard Model.
Journal Article
Molecules
by
O'Mara, Kennon, author
in
Molecules Juvenile literature.
,
Atoms Juvenile literature.
,
Molecular structure Juvenile literature.
2019
\"Molecules may be minuscule, but life wouldn't exist without them! This approachable look at an important chemistry topic takes young scientists on a tour of the world at the atomic level. They'll learn how atoms combine to form molecules and about some familiar and vital molecules, such as carbon dioxide. Thought-provoking fact boxes offer even more interesting information, while useful diagrams help learners visualize the amazing processes of nature\"-- Provided by publisher.
Crystal Structure of a Lipid G Protein—Coupled Receptor
by
Roth, Christopher B.
,
Reinhart, Greg
,
Sanna, M. Germana
in
Agonists
,
Anilides - chemistry
,
Binding Sites
2012
The lyso-phospholipid sphingosine 1-phosphate modulates lymphocyte trafficking, endothelial development and integrity, heart rate, and vascular tone and maturation by activating G protein—coupled sphingosine 1-phosphate receptors. Here, we present the crystal structure of the sphingosine 1-phosphate receptor 1 fused to T4-lysozyme (S1P₁-T4L) in complex with an antagonist sphingolipid mimic. Extracellular access to the binding pocket is occluded by the amino terminus and extracellular loops of the receptor. Access is gained by ligands entering laterally between helices I and VII within the transmembrane region of the receptor. This structure, along with mutagenesis, agonist structure-activity relationship data, and modeling, provides a detailed view of the molecular recognition and requirement for hydrophobic volume that activates S1P₁, resulting in the modulation of immune and stremal cell responses.
Journal Article
Efficient Solution-Processed OLED Based on Thermally Activated Delayed Fluorescence Dendrimer with Butterfly Molecular Structure
by
Chai, Yongshuai
,
Yan, Hao
,
He, Yuting
in
Butterfly molecular structure
,
Carbazoles
,
dendrimer
2023
Abstract Solution-processed TADF dendrimer based on D-A-D structure has been synthesized, which named POtCz-DPyM. The dendrimers show a small Δ E st . The performance of OLED device shows a relatively low turn-on voltage (4.2 V), the CE max efficiency of 13.0 cd A −1 , the EQE max of 5.6%. Moreover, the POt modified carbazole was used as the donor to synthesize this novel dendrimer for the first time. And the solution-processed OLED based on POtCz-DPyM as emitter shows high performance among solution-processed devices.
Journal Article
Evidence for Interstitial Carbon in Nitrogenase FeMo Cofactor
by
Spatzal, Thomas
,
Einsle, Oliver
,
Weber, Stefan
in
Atoms
,
Azotobacter vinelandii - chemistry
,
Biological and medical sciences
2011
The identity of the interstitial light atom in the center of the FeMo cofactor of nitrogenase has been enigmatic since its discovery. Atomic-resolution x-ray diffraction data and an electron spin echo envelope modulation (ESEEM) analysis now provide direct evidence that the ligand is a carbon species.
Journal Article