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Meili Wu

Northeastern University (USA)

220 B RP

Boston, MA 02115

United States

SCHOLARLY PAPERS

3

DOWNLOADS

80

TOTAL CITATIONS

1

Scholarly Papers (3)

1.

In-Situ Construct Sno2 Nanolayer-Sns2 Nanosheets Heterostructures for Highly No2 Sensing at Room Temperature and its Dft Calculation

Number of pages: 39 Posted: 18 Jun 2024
Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University - College of Information Science and Engineering, Northeastern University - College of Information Science and Engineering and Northeastern University (USA)
Downloads 40 (1,196,171)

Abstract:

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SnO2 nanolayer, SnS2 nanosheets, heterostructures, room-temperature sensor, NO2

2.

Highly Sensitive Room-Temperature Ammonia Sensor Based on Pbs Quantum Dots Modified Sns2 Nanosheets and Theoretical Investigation on its Sensing Mechanism by Dft Calculation

Number of pages: 32 Posted: 13 Jul 2024
Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University - College of Information Science and Engineering and Northeastern University - College of Information Science and Engineering
Downloads 27 (1,359,097)
Citation 1

Abstract:

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Gas sensor, PbS, SnS2, Quantum· dots, DFT calculation

3.

Humidity-dependent surface chemistry of Au@SnO2 core-shell nanospheres revealed by in situ DRIFTS for H2 and CO sensing

Number of pages: 42 Posted: 22 Apr 2026
Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University (USA), Northeastern University - College of Information Science and Engineering and Northeastern University - College of Information Science and Engineering
Downloads 13 (1,561,096)

Abstract:

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Au@SnO2 nanospheres, Core-shell structure, humidity tolerance, in situ DRIFTS