Micro/nanorobots can propel and navigate in many hard-to-reach biological environments,and thus may bring revolutionary changes to biomedical research and applications.However,current MNRs lack the capability to colle...Micro/nanorobots can propel and navigate in many hard-to-reach biological environments,and thus may bring revolutionary changes to biomedical research and applications.However,current MNRs lack the capability to collectively perceive and report physicochemical changes in unknown microenvironments.Here we propose to develop swarming responsive photonic nanorobots that can map local physicochemical conditions on the fly and further guide localized photothermal treatment.The RPNRs consist of a photonic nanochain of periodically-assembled magnetic Fe_(3)O_(4)nanoparticles encapsulated in a responsive hydrogel shell,and show multiple integrated functions,including energetic magnetically-driven swarming motions,bright stimuli-responsive structural colors,and photothermal conversion.Thus,they can actively navigate in complex environments utilizing their controllable swarming motions,then visualize unknown targets(e.g.,tumor lesion)by collectively mapping out local abnormal physicochemical conditions(e.g.,pH,temperature,or glucose concentra-tion)via their responsive structural colors,and further guide external light irradiation to initiate localized photothermal treatment.This work facilitates the development of intelligent motile nanosensors and versatile multifunctional nanotheranostics for cancer and inflam-matory diseases.展开更多
Reflective displays have the advantages of energy efficiency,high brightness,eye protection,and good readability,making them an attractive display technology.Photonic crystal(PhC)structural color is highly regarded as...Reflective displays have the advantages of energy efficiency,high brightness,eye protection,and good readability,making them an attractive display technology.Photonic crystal(PhC)structural color is highly regarded as an ideal choice for reflective displays for its ecofriendliness,colorfastness,and adjustability.In this review,we introduce the fundamental classification and manufacturing methods of PhC reflective displays.We systematically summarize the display principles of PhC-based displays driven by various stimuli.Furthermore,we present the latest research advancements in PhC displays based on smart actuators.Additionally,we offer a detailed overview of the current research status and application prospects of liquid crystal structural color displays and three-dimensional PhC displays.Finally,we discuss the challenges faced by PhC displays and provide insights into their prospects.展开更多
In this paper, the response time of all-optical AND logic gate using the triangular photonic crystal lattice is investigated. The proposed logic gate consists of a photonic crystal nano-resonator formed by changing th...In this paper, the response time of all-optical AND logic gate using the triangular photonic crystal lattice is investigated. The proposed logic gate consists of a photonic crystal nano-resonator formed by changing the size of the dielectric rods. The structure benefits the interference effect mechanism. The contrast ratio of the photonic crystal AND logic gate is obtained as 6 d B. In addition to simplicity, the designed nano-resonator increases the bit rate of logic gate. The delay time and footprint of logic gate are respectively 0.32 ps and 146 μm2. The proposed photonic crystal AND logic gate can operate at a bit rate of 3.12 Tbit/s。展开更多
基金supported by the National Key Research and Development Project(No.2021YFA1201400)National Natural Science Foundation of China(Nos.52073222,51573144 and 21474078)the Fundamental Research Funds for the Central Universities(WUT:2021IVA118 and 2022IVA201).
文摘Micro/nanorobots can propel and navigate in many hard-to-reach biological environments,and thus may bring revolutionary changes to biomedical research and applications.However,current MNRs lack the capability to collectively perceive and report physicochemical changes in unknown microenvironments.Here we propose to develop swarming responsive photonic nanorobots that can map local physicochemical conditions on the fly and further guide localized photothermal treatment.The RPNRs consist of a photonic nanochain of periodically-assembled magnetic Fe_(3)O_(4)nanoparticles encapsulated in a responsive hydrogel shell,and show multiple integrated functions,including energetic magnetically-driven swarming motions,bright stimuli-responsive structural colors,and photothermal conversion.Thus,they can actively navigate in complex environments utilizing their controllable swarming motions,then visualize unknown targets(e.g.,tumor lesion)by collectively mapping out local abnormal physicochemical conditions(e.g.,pH,temperature,or glucose concentra-tion)via their responsive structural colors,and further guide external light irradiation to initiate localized photothermal treatment.This work facilitates the development of intelligent motile nanosensors and versatile multifunctional nanotheranostics for cancer and inflam-matory diseases.
基金National Science Fund for Distinguished Young Scholars,Grant/Award Number:22225502National Key R&D Program of China,Grant/Award Numbers:2022YFE0202000,2018YFA0208500+1 种基金National Natural Science Foundation of China,Grant/Award Numbers:22073107,2150410331Bureau of International Cooperation,Chinese Academy of Sciences,Grant/Award Number:027GJHZ2022044MI。
文摘Reflective displays have the advantages of energy efficiency,high brightness,eye protection,and good readability,making them an attractive display technology.Photonic crystal(PhC)structural color is highly regarded as an ideal choice for reflective displays for its ecofriendliness,colorfastness,and adjustability.In this review,we introduce the fundamental classification and manufacturing methods of PhC reflective displays.We systematically summarize the display principles of PhC-based displays driven by various stimuli.Furthermore,we present the latest research advancements in PhC displays based on smart actuators.Additionally,we offer a detailed overview of the current research status and application prospects of liquid crystal structural color displays and three-dimensional PhC displays.Finally,we discuss the challenges faced by PhC displays and provide insights into their prospects.
文摘In this paper, the response time of all-optical AND logic gate using the triangular photonic crystal lattice is investigated. The proposed logic gate consists of a photonic crystal nano-resonator formed by changing the size of the dielectric rods. The structure benefits the interference effect mechanism. The contrast ratio of the photonic crystal AND logic gate is obtained as 6 d B. In addition to simplicity, the designed nano-resonator increases the bit rate of logic gate. The delay time and footprint of logic gate are respectively 0.32 ps and 146 μm2. The proposed photonic crystal AND logic gate can operate at a bit rate of 3.12 Tbit/s。
