Yong-Zhu Cai scite author profile

The utilization of electromagnetic (EM) energy neither is affected by the weather nor produces harmful substances. How to utilize and convert EM energy is of practical concern. Herein, delaminated titanium carbide (D-Ti3C2Tx) MXene nanosheet (NS) was successfully fabricated by the modified Gogotsi’s method. The choice of atomic layer processing allows tailoring of layer distance of Ti3C2Tx so as to improve polarization. High-performance EM wave absorption of D-Ti3C2Tx MXene NS composites was obtained, and their comprehensive performance is the best of all Ti3C2Tx-based composites. Due to the competition between conduction loss and polarization loss, the higher the concentration of D-Ti3C2Tx in composites, the more the conversion of EM energy to thermal energy will be. Based on the mechanism, a prototype of thermoelectric generator is designed, which can convert the EM energy into power energy effectively. This thermoelectric generator will be the energy source for low power electric devices. Our finding will provide new ideas for the utilization of EM energy.

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Self-assembling flexible 2D carbide MXene film with tunable integrated electron migration and group relaxation toward energy storage and green EMI shielding

Cao

Cai

et al. 2020

Carbon

224

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Tailoring Ti₃C₂T_xnanosheets to tune local conductive network as an environmentally friendly material for highly efficient electromagnetic interference shielding

et al. 2019

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Rational design of NiFe₂O₄–rGO by tuning the compositional chemistry and its enhanced performance for a Li-ion battery anode

Zhang

Cao

Cai

et al. 2019

Inorg. Chem. Front.

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Yong-Zhu Cai

2D MXenes: Electromagnetic property for microwave absorption and electromagnetic interference shielding

Atomic Layer Tailoring Titanium Carbide MXene To Tune Transport and Polarization for Utilization of Electromagnetic Energy beyond Solar and Chemical Energy

Self-assembling flexible 2D carbide MXene film with tunable integrated electron migration and group relaxation toward energy storage and green EMI shielding

Tailoring Ti₃C₂T_xnanosheets to tune local conductive network as an environmentally friendly material for highly efficient electromagnetic interference shielding

Rational design of NiFe₂O₄–rGO by tuning the compositional chemistry and its enhanced performance for a Li-ion battery anode

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Yong-Zhu Cai

2D MXenes: Electromagnetic property for microwave absorption and electromagnetic interference shielding

Atomic Layer Tailoring Titanium Carbide MXene To Tune Transport and Polarization for Utilization of Electromagnetic Energy beyond Solar and Chemical Energy

Self-assembling flexible 2D carbide MXene film with tunable integrated electron migration and group relaxation toward energy storage and green EMI shielding

Tailoring Ti3C2Txnanosheets to tune local conductive network as an environmentally friendly material for highly efficient electromagnetic interference shielding

Rational design of NiFe2O4–rGO by tuning the compositional chemistry and its enhanced performance for a Li-ion battery anode

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About

Tailoring Ti₃C₂T_xnanosheets to tune local conductive network as an environmentally friendly material for highly efficient electromagnetic interference shielding

Rational design of NiFe₂O₄–rGO by tuning the compositional chemistry and its enhanced performance for a Li-ion battery anode