Enhanced Energy Storage Performance by A–B Site Ambipolar Co-Doping in Antiferroelectrics

Abstract: Antiferroelectric materials are promising to be used for power capacitive devices. To improve the energy storage performance, solid-solution and defect engineering are widely used to suppress the long-range order by introducing local heterogeneities. However, both methods generally deteriorate either the maximum polarization or breakdown electric field due to damaged intrinsic polarization or increased leakage. Here, we show that forming defect-dipole clusters by A−B site acceptor−donor co-doping in antiferroe… Show more

“…48 Moreover, the decay curves can also be used to analyze the site occupation of Bi 3+ . 49 Fig. 4i presents the low temperature decay curves of Na 2 Ca 7.98 Al 6 O 18 :0.02Bi 3+ by monitoring different wavelengths upon 280 nm excitation at 10 K. The entire decay curves can be well-fitted to a double exponential decay mode, 50 and the average lifetimes monitored at 450, 520 and 665 nm are calculated to be 87.98, 151.29 and 168.04 ms, respectively.…”

Tunable ultra-broadband full-visible-spectral emission of Bi³⁺-doped aluminate phosphors enabled by structure transformation and site occupancy engineering

“…48 Moreover, the decay curves can also be used to analyze the site occupation of Bi 3+ . 49 Fig. 4i presents the low temperature decay curves of Na 2 Ca 7.98 Al 6 O 18 :0.02Bi 3+ by monitoring different wavelengths upon 280 nm excitation at 10 K. The entire decay curves can be well-fitted to a double exponential decay mode, 50 and the average lifetimes monitored at 450, 520 and 665 nm are calculated to be 87.98, 151.29 and 168.04 ms, respectively.…”

Tunable ultra-broadband full-visible-spectral emission of Bi³⁺-doped aluminate phosphors enabled by structure transformation and site occupancy engineering

“…40,41 It is worth mentioning that the CNT-based SAC systems have been used as effective electrocatalysts for both the HER [42][43][44] and ORR. [45][46][47][48] However, relevant research is quite scarce, especially on the OER electrocatalytic activity of SACs based on CNTs.…”

Realizing a high OER activity in new single-atom catalysts formed by introducing TMN_x (x = 3 and 4) units into carbon nanotubes using high-throughput calculations

“…[6,7] However, NRR suffers low selectivity and activity due to the highly stable N≡N triple bond (941 kJ mol −1 ) and low water solubility. [8,9] To cover the shortage, electrocatalytic nitrate (NO 3 ‾) reduction to ammonia (NO 3 RR) is desirable because the NO 3 ‾ exhibits comparatively low dissociation energy of the N═O bond (204 kJ mol −1 ). [10,11] Also, NO 3 ‾ is widely abundant as pollution in agricultural and industrial wastewater.…”

Ag‐Co₃O₄‐CoOOH‐Nanowires Tandem Catalyst for Efficient Electrocatalytic Conversion of Nitrate to Ammonia at Low Overpotential via Triple Reactions