about
Distribution of hyperpolarized xenon in the brain following sensory stimulation: preliminary MRI findingsQuantitative estimation of SPINOE enhancement in solid state.Diverse Applications of Nanomedicine.Simultaneous assessment of both lung morphometry and gas exchange function within a single breath-hold by hyperpolarized 129 Xe MRI.Increasing Cancer Therapy Efficiency through Targeting and Localized Light Activation.Hyperpolarized 129 Xe Magnetic Resonance Imaging Sensor for H2 S.A Molecular Imaging Approach to Mercury Sensing Based on Hyperpolarized (129)Xe Molecular Clamp Probe.Mitochondria Targeted and Intracellular Biothiol Triggered Hyperpolarized 129Xe Magnetofluorescent Biosensor.Body temperature sensitive micelles for MRI enhancement.Design and synthesis of fluorinated dendrimers for sensitive (19)F MRI.pH-responsive theranostic nanocomposites as synergistically enhancing positive and negative magnetic resonance imaging contrast agents.Ba(B2OF3(OH)2)2 with well-ordered OH/F anions and a unique B2OF3(OH)2 dimerQuantitative evaluation of pulmonary gas-exchange function using hyperpolarized 129 Xe CEST MRS and MRIEngineered Paramagnetic Graphene Quantum Dots with Enhanced Relaxivity for Tumor ImagingPeptidic Monodisperse PEG "combs" with Fine-Tunable LCST and Multiple Imaging ModalitiesSilica nanoparticle coated perfluorooctyl bromide for ultrasensitive MRIFast and accurate reconstruction of human lung gas MRI with deep learningSingle breath-hold measurement of pulmonary gas exchange and diffusion in humans with hyperpolarized 129 Xe MRQuantitative evaluation of lung injury caused by PM2.5 using hyperpolarized gas magnetic resonanceQuantitatively Fine-Tuning the Physicochemical and Biological Properties of Peptidic Polymers through Monodisperse PEGylationFree-base porphyrins as CEST MRI contrast agents with highly upfield shifted labile protonsBeyond the Roles in Biomimetic Chemistry: An Insight into the Intrinsic Catalytic Activity of an Enzyme for Tumor-Selective PhototheranosticsFluorinated porphyrin-based theranostics for dual imaging and chemo-photodynamic therapy
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Q28742566-2850CE63-E198-4AD6-A45F-2003B4244CF4Q33390010-941BC0A1-820B-48C9-8533-7EBBE7FFEFB5Q37728142-D1C819B6-EB69-47AE-AD69-D11B68CD08F1Q38784115-CAD386DC-1294-4626-9EE2-B81DF5E02E53Q43688131-54C15FC6-4DEB-49EE-AEC7-176FA60470A4Q45947652-5F01C1F6-E7E7-4A1C-8402-D2FB3A17190EQ46327611-49E23D46-CF58-4B3D-B7DD-D325CECBA601Q46713936-08687804-17B3-42FF-AFDF-9E42EB4CE8CDQ50934295-025B390F-5936-40C8-A4B4-4619E5E768FBQ50935866-B13E336B-B9EE-4610-A842-9FAAC8A6AEEAQ55339815-6E7A5525-18FB-46E9-95F4-C6A6DA6F6546Q89773962-BF169FDC-07A3-46E1-921E-870BE79387B3Q90439117-55E0505B-9160-4A49-9642-99921677E275Q90604250-EFA27578-1EA5-42BA-B521-90D547012A70Q91160970-39824287-E5CC-4BBB-84B1-E84007DE6DDCQ92009458-1085F306-DE5D-43B5-BDFD-10C8D06B7E55Q92016037-809B17F1-9B81-46B7-92BD-5E131F299D4AQ92184203-E6F57E06-3A8B-4CFF-AFA2-1F9310BA6291Q92198567-E6D877D5-5F72-4B84-996E-1157039EDFA7Q92204345-B77A5075-933B-446B-AAB8-839E03AAAB5EQ92991961-87CD4C33-804C-4F7E-A9C5-A383B7BF62A8Q93003621-02EA6D93-AC34-4D3C-B6B0-9DF099740AD3Q94503926-228332AA-22CD-46D4-BB6A-B70A5F53B3C8
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description
researcher ORCID: 0000-0002-5580-7907
@en
name
Xin Zhou
@ast
Xin Zhou
@en
Xin Zhou
@es
Xin Zhou
@nl
Xin Zhou
@sl
type
label
Xin Zhou
@ast
Xin Zhou
@en
Xin Zhou
@es
Xin Zhou
@nl
Xin Zhou
@sl
prefLabel
Xin Zhou
@ast
Xin Zhou
@en
Xin Zhou
@es
Xin Zhou
@nl
Xin Zhou
@sl
P106
P31
P496
0000-0002-5580-7907