SnS2 Nanosheets as a Template for 2D SnO2 Sensitive Material: Nanostructure and Surface Composition Effects

Vasiliev, Roman B.; Kurtina, Darya; Udalova, Nataliya; Platonov, Vadim; Nasriddinov, Abulkosim; Shatalova, Tatyana B.; Novotortsev, Roman Yu.; Li, Xiaogan; Rumyantseva, M. N.

doi:10.3390/ma15228213

Cited by 6 publications

(1 citation statement)

References 70 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It is well-known that the gas sensing performances are tightly related to the chemical component and nanostructure of sensing materials. − In recent years, several strategies have been developed to improve the sensing properties by modifying MOS with various materials such as metal nanoparticles, graphene, two-dimensional materials, and conductive polymers or the formation of a MOS–MOS heterojunction . However, crystalline materials usually have tightly packed structures and pronounced grain boundaries, which lead to uneven distribution of exogenous phases on the surface of transition-metal oxides and high energy consumption due to unexpectedly high operating temperatures in gas sensing .…”

Section: Introductionmentioning

confidence: 99%

Amorphous Bimetallic Cobalt-Based Transition-Metal Oxides for Gas Sensing Application with Regulated Selectivity

Li,

Hu,

Fang

et al. 2024

ACS Appl. Electron. Mater.

View full text Add to dashboard Cite

Amorphous materials have great potential application in gas sensors due to their abundant active sites. However, it is still a challenge to regulate their sensing performance. In this work, we developed a synthesis method of amorphous bimetallic cobalt-based transition-metal oxides, which were prepared via two steps, namely, coprecipitation of bimetallic hydroxides and then annealing at elevating temperature. Sn, Mg, and Zn as the second metal were introduced to prepare amorphous CoSn–O, CoMg–O, and CoZn–O. They were further used to fabricate gas sensors. A sensing investigation revealed that the sensors present different sensing behaviors, in which the CoSn–O, CoMg–O, and CoZn–O sensors show selectivity to TEA, EtOH, and n-BuNH2, respectively. A sensor array based on these three types of sensors was constructed. The actual concentrations of the mixing gases of TEA, EtOH, and n-BuNH2 can be obtained by matrix calculation with an error value of less than 10%. Finally, the sensing processes were discussed, and the sensing mechanism can be attributed to the surface resistance control model. This research affords a convenient method to synthesize amorphous bimetallic oxides with regulated properties for sensing application.

show abstract

Section: Introductionmentioning

confidence: 99%

Amorphous Bimetallic Cobalt-Based Transition-Metal Oxides for Gas Sensing Application with Regulated Selectivity

Li,

Hu,

Fang

et al. 2024

ACS Appl. Electron. Mater.

View full text Add to dashboard Cite

show abstract

Filter‐Less Color‐Selective Photodetector Derived from Integration of Parallel Perovskite Photoelectric Response Units

Wang,

Tian,

Chen

et al. 2024

Advanced Materials

View full text Add to dashboard Cite

Color‐selective photodetectors (PDs) play an indispensable role in spectral recognition, image sensing, and other fields. Nevertheless, complex filters and delicate optical paths in such devices significantly increase their complexity and size, which subsequently impede their integration in smart optoelectronic chips for universal applications. This work demonstrates the successful fabrication of filter‐less color‐selective perovskite PDs by integrating three perovskite units with different photoresponse on a single chip. The variation in photoresponse is attributed to different quantities of SnO2 nanoparticles, synthesized through controlled ultrasonic treatment on the surface of the electron transportation layer SnS2, which selectively absorb short‐wavelength light, thus increasing the relative transmittance of long‐wavelength light and enhancing the photoresponse of the units to long wavelengths. By integrating any two units and deriving the formula for the wavelength to the responsivity ratio, a wavelength sensor is developed which can accurately identify incident light in the range of 400–700 nm with a minimum error <3 nm. Furthermore, the device integrating three units with different photoresponse can identify red, green and blue in polychromatic light to achieve color imaging with a relative error <6%. This work provides valuable insights into wavelength identification and color imaging of perovskite PDs.

show abstract

Mass spectrometry for non-destructive detection of the average diameter of micro copper wires

Su,

Fang,

Zeng

et al. 2024

Chinese Chemical Letters

View full text Add to dashboard Cite

SnS2 Nanosheets as a Template for 2D SnO2 Sensitive Material: Nanostructure and Surface Composition Effects

Cited by 6 publications

References 70 publications

Amorphous Bimetallic Cobalt-Based Transition-Metal Oxides for Gas Sensing Application with Regulated Selectivity

Amorphous Bimetallic Cobalt-Based Transition-Metal Oxides for Gas Sensing Application with Regulated Selectivity

Filter‐Less Color‐Selective Photodetector Derived from Integration of Parallel Perovskite Photoelectric Response Units

Mass spectrometry for non-destructive detection of the average diameter of micro copper wires

Contact Info

Product

Resources

About