Nanodiamonds have outstanding mechanical properties,chemical inertness,and biocompatibility,which give them potential in various applications.Current methods for preparing nanodiamonds often lead to products with impu...Nanodiamonds have outstanding mechanical properties,chemical inertness,and biocompatibility,which give them potential in various applications.Current methods for preparing nanodiamonds often lead to products with impurities and uneven morphologies.We report a two-step high-pressure high-temperature(HPHT) method to synthesize nanodiamonds using naphthalene as the precursor without metal catalysts.The grain size of the diamonds decreases with increasing carbonization time(at constant pressure and temperature of 11.5 GPa and 700℃,respectively).This is discussed in terms of the different crystallinities of the carbon intermediates.The probability of secondary anvil cracking during the HPHT process is also reduced.These results indicate that the two-step method is efficient for synthesizing nanodiamonds,and that it is applicable to other organic precursors.展开更多
Searching for new carbon allotropes with superior properties has been a longstanding interest in material sciences and condensed matter physics.Here we identify a novel superhard carbon phase with an 18-atom trigonal ...Searching for new carbon allotropes with superior properties has been a longstanding interest in material sciences and condensed matter physics.Here we identify a novel superhard carbon phase with an 18-atom trigonal unit cell in a full-sp^(3) bonding network,termed tri-C_(18) carbon,by first-principles calculations.Its structural stability has been verified by total energy,phonon spectra,elastic constants,and molecular dynamics simulations.Furthermore,tri-C_(18) carbon has a high bulk modulus of 400 GPa and Vickers hardness of 79.0 GPa,comparable to those of diamond.Meanwhile,the simulated x-ray diffraction pattern of tri-C_(18) carbon matches well with the previously unexplained diffraction peaks found in chimney soot,indicating the possible presence of tri-C_(18) carbon.Remarkably,electronic band structure calculations reveal that tri-C_(18) carbon has a wide indirect bandgap of 6.32 eV,larger than that of cubic diamond,indicating its great potential in electronic or optoelectronic devices working in the deep ultraviolet region.展开更多
Gallium oxide(Ga_(2)O_(3))is a promising material for deep-ultraviolet(DUV)detection.In this work,Chlorin e6(Ce6)has been integrated with Ga_(2)O_(3)to achieve a DUV and visible dual-band photodetector,which can achie...Gallium oxide(Ga_(2)O_(3))is a promising material for deep-ultraviolet(DUV)detection.In this work,Chlorin e6(Ce6)has been integrated with Ga_(2)O_(3)to achieve a DUV and visible dual-band photodetector,which can achieve multiple target information and improve the recognition rate.The photodetector shows two separate response bands at 268 nm and 456 nm.The DUV response band has a responsivity of 9.63 A/W with a full width at half maximum(FWHM)of 54.5 nm;the visible response band has a responsivity of 1.17 A/W with an FWHM of 45.3 nm.This work may provide a simple way to design and fabricate photodetectors with dual-band response.展开更多
It is essential to determine the accumulative ultraviolet(UV)irradiation over a period of time in some cases,such as monitoring UV irradiation to the skin,solar disinfection of water,photoresist exposure,etc.UV colori...It is essential to determine the accumulative ultraviolet(UV)irradiation over a period of time in some cases,such as monitoring UV irradiation to the skin,solar disinfection of water,photoresist exposure,etc.UV colorimetric dosimeters,which use dyes'color change to monitor the amount of UV exposure,have been widely studied.However,the exposure data of these UV colorimetric dosimeters can hardly be converted to digital signals,limiting their applications.In this paper,a UV dosimeter has been proposed and demonstrated based on the persistent photoconductivity(PPC)in zinc oxide microwires(ZnO MWs).The PPC effect usually results in high photoconductivity gain but low response speed,which has been regarded as a disadvantage for photodetectors.However,in this work,the unique characteristics of the PPC effect have been utilized to monitoring the accumulative exposure.We demonstrate that the photocurrent in the ZnO MWs depends on the accumulative UV exposure due to the PPC effect,thus the photocurrent can be utilized to determine the UV accumulation.The dosimeter is immune to visible light and exhibits a photoconductive gain of 2654,and the relative error of the dosimeter is about 10%.This UV dosimeter with electrical output is reusable and convenient to integrate with other electronic devices and may also open a new application area for the PPC effect.展开更多
Two-dimensional(2D)materials have attracted significant attention as a promising candidate for electronic and optoelectronic devices.However,low absorption impairs the performance of few-layer 2D material-based photod...Two-dimensional(2D)materials have attracted significant attention as a promising candidate for electronic and optoelectronic devices.However,low absorption impairs the performance of few-layer 2D material-based photodetectors(PDs).Herein,we purpose an asymmetric Fabry-Perot cavity consisting of a dielectric layer and metallic film to enhance the interactions between light and monolayer molybdenum disulfide(MoS_(2)).The external quantum efficiency of the monolayer MoS_(2)heterojunction PD is enhanced by more than two orders of magnitude via optimizing the thickness of the dielectric layer.The monolayer-MoS_(2)/nickel oxide heterojunction PD exhibits a large on/off ratio of 2×10^(5),a responsivity of 703 A W^(-1),and an ultrahigh detectivity of 1.31×10^(15)Jones.The detectivity is the best value ever reported for monolayer-MoS_(2)heterojunction PDs.Our results may pave the way for high-performance 2D materialbased PDs.展开更多
基金Project supported by the National Key R&D Program of China(Grant No.2018YFB0406500)the National Natural Science Foundation of China(Grant Nos.U1804155,U1604263,and 11804307)the China Postdoctoral Science Foundation(Grant Nos.2018M630830 and 2019T120631).
文摘Nanodiamonds have outstanding mechanical properties,chemical inertness,and biocompatibility,which give them potential in various applications.Current methods for preparing nanodiamonds often lead to products with impurities and uneven morphologies.We report a two-step high-pressure high-temperature(HPHT) method to synthesize nanodiamonds using naphthalene as the precursor without metal catalysts.The grain size of the diamonds decreases with increasing carbonization time(at constant pressure and temperature of 11.5 GPa and 700℃,respectively).This is discussed in terms of the different crystallinities of the carbon intermediates.The probability of secondary anvil cracking during the HPHT process is also reduced.These results indicate that the two-step method is efficient for synthesizing nanodiamonds,and that it is applicable to other organic precursors.
基金Supported by the National Natural Science Foundation of China(Grant Nos.11804307,U1804155,and U1604263)the China Postdoctoral Science Foundation(Grant Nos.2018M630830 and 2019T120631).
文摘Searching for new carbon allotropes with superior properties has been a longstanding interest in material sciences and condensed matter physics.Here we identify a novel superhard carbon phase with an 18-atom trigonal unit cell in a full-sp^(3) bonding network,termed tri-C_(18) carbon,by first-principles calculations.Its structural stability has been verified by total energy,phonon spectra,elastic constants,and molecular dynamics simulations.Furthermore,tri-C_(18) carbon has a high bulk modulus of 400 GPa and Vickers hardness of 79.0 GPa,comparable to those of diamond.Meanwhile,the simulated x-ray diffraction pattern of tri-C_(18) carbon matches well with the previously unexplained diffraction peaks found in chimney soot,indicating the possible presence of tri-C_(18) carbon.Remarkably,electronic band structure calculations reveal that tri-C_(18) carbon has a wide indirect bandgap of 6.32 eV,larger than that of cubic diamond,indicating its great potential in electronic or optoelectronic devices working in the deep ultraviolet region.
文摘Gallium oxide(Ga_(2)O_(3))is a promising material for deep-ultraviolet(DUV)detection.In this work,Chlorin e6(Ce6)has been integrated with Ga_(2)O_(3)to achieve a DUV and visible dual-band photodetector,which can achieve multiple target information and improve the recognition rate.The photodetector shows two separate response bands at 268 nm and 456 nm.The DUV response band has a responsivity of 9.63 A/W with a full width at half maximum(FWHM)of 54.5 nm;the visible response band has a responsivity of 1.17 A/W with an FWHM of 45.3 nm.This work may provide a simple way to design and fabricate photodetectors with dual-band response.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.61804136,U1604263,and U1804155)China Postdoctoral Science Foundation(Grant Nos.2018M630829 and 2019T120630).
文摘It is essential to determine the accumulative ultraviolet(UV)irradiation over a period of time in some cases,such as monitoring UV irradiation to the skin,solar disinfection of water,photoresist exposure,etc.UV colorimetric dosimeters,which use dyes'color change to monitor the amount of UV exposure,have been widely studied.However,the exposure data of these UV colorimetric dosimeters can hardly be converted to digital signals,limiting their applications.In this paper,a UV dosimeter has been proposed and demonstrated based on the persistent photoconductivity(PPC)in zinc oxide microwires(ZnO MWs).The PPC effect usually results in high photoconductivity gain but low response speed,which has been regarded as a disadvantage for photodetectors.However,in this work,the unique characteristics of the PPC effect have been utilized to monitoring the accumulative exposure.We demonstrate that the photocurrent in the ZnO MWs depends on the accumulative UV exposure due to the PPC effect,thus the photocurrent can be utilized to determine the UV accumulation.The dosimeter is immune to visible light and exhibits a photoconductive gain of 2654,and the relative error of the dosimeter is about 10%.This UV dosimeter with electrical output is reusable and convenient to integrate with other electronic devices and may also open a new application area for the PPC effect.
基金supported by the National Natural Science Foundation of China(11674290,U1704138,61804136,U1804155 and 11974317)Henan Science Fund for Distinguished Young Scholars(212300410020)+1 种基金the Key Project of Henan Higher Education(21A140001)Zhengzhou University Physics Discipline Improvement Program and China Postdoctoral Science Foundation(2018M630829 and 2019T120630)。
文摘Two-dimensional(2D)materials have attracted significant attention as a promising candidate for electronic and optoelectronic devices.However,low absorption impairs the performance of few-layer 2D material-based photodetectors(PDs).Herein,we purpose an asymmetric Fabry-Perot cavity consisting of a dielectric layer and metallic film to enhance the interactions between light and monolayer molybdenum disulfide(MoS_(2)).The external quantum efficiency of the monolayer MoS_(2)heterojunction PD is enhanced by more than two orders of magnitude via optimizing the thickness of the dielectric layer.The monolayer-MoS_(2)/nickel oxide heterojunction PD exhibits a large on/off ratio of 2×10^(5),a responsivity of 703 A W^(-1),and an ultrahigh detectivity of 1.31×10^(15)Jones.The detectivity is the best value ever reported for monolayer-MoS_(2)heterojunction PDs.Our results may pave the way for high-performance 2D materialbased PDs.
