Kun Shen scite author profile

The phase transformation behavior in Li-ion battery electrodes is critical for the electrode kinetics and cycle life. Here we reveal unexpected particle size-dependent phase transformation behavior in anatase TiO2 by in situ X-ray diffraction. The equilibrium voltage measured by the galvanostatic intermittent titration technique decreases progressively with a decrease in particle size, which can attributed to the difference in the surface energy of the pristine and lithiated phases. On the basis of the evolution of the domain size and phase fraction of the two phases, we conclude that the first-order phase transition proceeds by continuous nucleation upon lithium insertion. For all particle sizes, the phase boundary is found to migrate under nonequilibrium conditions even under very slow (dis)charge conditions, as reflected by a distinct deviation from the Li solubility limit during the phase transformation. Remarkably, the degree of nonequilibrium increases with a decrease in particle size, which is rationalized by the difference in the observed phase transition behavior between small and large particles. The absence of phase coexistence in smaller particles in combination with the sluggish ionic transport rationalizes the better electrochemical performance of the nanostructured anatase TiO2 compared to that of the microsized material. These results suggest a very low nucleation barrier for the formation and movement of the phase boundary in combination with sluggish ionic migration. Therefore, strategies for improving the rate performance of nanostructured anatase TiO2 should concentrate on improving the interstitial diffusion, for instance by appropriate doping.

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Direct Hyperpolarization of Nitrogen-15 in Aqueous Media with Parahydrogen in Reversible Exchange

Colell

et al. 2017

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Signal Amplification By Reversible Exchange (SABRE) is an inexpensive, fast, and even continuous hyperpolarization technique that uses para-hydrogen as hyperpolarization source. However, current SABRE faces a number of stumbling blocks for translation to biochemical and clinical settings. Difficulties include inefficient polarization in in water, relatively short lived 1H-polarization, and relatively limited substrate scope. Here we use a water soluble polarization transfer catalyst to hyperpolarize nitrogen-15 in a variety of molecules with SABRE-SHEATH (SABRE in Shield Enables Alignment Transfer to Heteronuclei). This strategy works in pure H2O or D2O solutions, on substrates that could not be hyperpolarized in traditional 1H-SABRE experiments, and we record 15N T1 relaxation times of up to 2 min.

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Kun Shen

Late Cretaceous charnockite with adakitic affinities from the Gangdese batholith, southeastern Tibet: Evidence for Neo-Tethyan mid-ocean ridge subduction?

Interface Energy Controlled Thermodynamics of Nanoscale Metal Hydrides

Fluids in deeply subducted continental crust: Petrology, mineral chemistry and fluid inclusion of UHP metamorphic veins from the Sulu orogen, eastern China

Impact of Particle Size on the Non-Equilibrium Phase Transition of Lithium-Inserted Anatase TiO₂

Direct Hyperpolarization of Nitrogen-15 in Aqueous Media with Parahydrogen in Reversible Exchange

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Kun Shen

Late Cretaceous charnockite with adakitic affinities from the Gangdese batholith, southeastern Tibet: Evidence for Neo-Tethyan mid-ocean ridge subduction?

Interface Energy Controlled Thermodynamics of Nanoscale Metal Hydrides

Fluids in deeply subducted continental crust: Petrology, mineral chemistry and fluid inclusion of UHP metamorphic veins from the Sulu orogen, eastern China

Impact of Particle Size on the Non-Equilibrium Phase Transition of Lithium-Inserted Anatase TiO2

Direct Hyperpolarization of Nitrogen-15 in Aqueous Media with Parahydrogen in Reversible Exchange

Contact Info

Product

Resources

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Impact of Particle Size on the Non-Equilibrium Phase Transition of Lithium-Inserted Anatase TiO₂