2D material-based sensing devices: an update

2D structures have numerous attributes that make them effective for the fabrication of sensing devices. The aim of this review is to provide an update on the recent developments in the field of sensor devices made from atomically thin 2D materials.

[1]  A. Raza,et al.  Engineered 2D Metal Oxides for Photocatalysis as Environmental Remediation: A Theoretical Perspective , 2022, Catalysts.

[2]  I. J. Gómez,et al.  2D Materials towards sensing technology: From fundamentals to applications , 2022, Sensing and Bio-Sensing Research.

[3]  M. Iqbal,et al.  Recent Advances in 2D‐MXene Based Nanocomposites for Optoelectronics , 2022, Advanced Materials Interfaces.

[4]  Wenjing Yuan,et al.  Functionalization of Black Phosphorus Nanosheets Via Self-Polymerization of Dopamine and Subsequent Secondary Reactions for Gas Sensing Investigation , 2022, SSRN Electronic Journal.

[5]  J. Hassan,et al.  Recent advances in engineering strategies of Bi-based photocatalysts for environmental remediation , 2022, Sustainable Materials and Technologies.

[6]  Yu Chen,et al.  Biomedical Applications of MXenes: From Nanomedicine to Biomaterials , 2022, Accounts of Materials Research.

[7]  Lujun Wang,et al.  Covalently N-Doped MXene Quantum Dots for Highly Stable Fluorescent Cu2+ Ion Sensor , 2022, ACS Applied Nano Materials.

[8]  J. Hassan,et al.  2D hybrid photocatalysts for solar energy harvesting , 2022, Sustainable Materials and Technologies.

[9]  G. Ramírez-García,et al.  Enhanced photo-electrochemical response of screen-printed electrodes based on g-C3N4 hollow spheres and other morphologies for sensing applications , 2022, FlatChem.

[10]  S. Harish,et al.  Enhanced charge transfer in 2D carbon- rich g-C3N4 nanosheets for highly sensitive NO2 gas sensor applications , 2022, Diamond and Related Materials.

[11]  A. Raza,et al.  MXene-based nanocomposites for solar energy harvesting , 2022, Sustainable Materials and Technologies.

[12]  A. Raza,et al.  Photocatalysis vs adsorption by metal oxide nanoparticles , 2022, Journal of Materials Science & Technology.

[13]  S. Jeong,et al.  MXene-based composite electrodes for efficient electrochemical sensing of glucose by non-enzymatic method , 2022, Materials Today Chemistry.

[14]  Jianmao Yang,et al.  An Fe-MOF/MXene-based Ultra-Sensitive Electrochemical Sensor for Arsenic(III) measurement , 2022, Journal of Electroanalytical Chemistry.

[15]  Jianwei Sun,et al.  Transition Metal Carbo‐Chalcogenide “TMCC:” A New Family of 2D Materials , 2022, Advanced materials.

[16]  A. Mandal,et al.  Highly sensitive few-layer MoS2 nanosheets as a stable soil moisture and humidity sensor , 2022, Sensors and Actuators B: Chemical.

[17]  Sooman Lim,et al.  A fast and label-free detection of hydroxymethylated DNA using a nozzle-jet printed AuNPs@Ti3C2 MXene-based electrochemical sensor. , 2022, Talanta.

[18]  A. Raza,et al.  Photoelectrochemical Energy Conversion over 2D Materials , 2022, Photochem.

[19]  F. Zhao,et al.  Molecularly imprinted ratiometric electrochemical sensor based on carbon nanotubes/cuprous oxide nanoparticles/titanium carbide MXene composite for diethylstilbestrol detection , 2022, Microchimica Acta.

[20]  Y. Vasseghian,et al.  Determination of D&C Red 33 and Patent Blue V Azo dyes using an impressive electrochemical sensor based on carbon paste electrode modified with ZIF-8/g-C3N4/Co and ionic liquid in mouthwash and toothpaste as real samples. , 2022, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[21]  J. Fei,et al.  A High-Sensitive Dopamine Electrochemical Sensor Based on Multilayer Ti3C2 MXene, Graphitized Multi-Walled Carbon Nanotubes and ZnO Nanospheres , 2022, Microchemical Journal.

[22]  Liangmin Yu,et al.  Ti3C2-MXene@N-Doped Carbon Heterostructure-based Electrochemical Sensor for Simultaneous Detection of Heavy Metals , 2022, Journal of Electroanalytical Chemistry.

[23]  Shen Chen,et al.  Electrochemical determination of quercetin using glassy carbon electrode modified with WS2/GdCoO3 nanocomposite , 2022, Microchimica Acta.

[24]  S. Harish,et al.  Conductometric NO2 gas sensor based on Co-incorporated MoS2 nanosheets for room temperature applications , 2022, Sensors and Actuators B: Chemical.

[25]  Khaled H. Ibrahim,et al.  Selective Sensing of Heavy Metal Ions via Fluorescence Quenching of Femtosecond-Laser-Synthesized 2D Nanoparticles , 2022, Sensors and Actuators B: Chemical.

[26]  Guozhen Fang,et al.  Covalent molecularly imprinted electrochemical sensor modulated by borate ester bonds for hygromycin B detection based on the synergistic signal amplification of Cu-MOF and MXene. , 2022, Food chemistry.

[27]  Abu Montakim Tareq,et al.  Impact of heavy metals on the environment and human health: Novel therapeutic insights to counter the toxicity , 2022, Journal of King Saud University - Science.

[28]  Changchun Yan,et al.  The exploration of quantum dot-molecular beacon based MoS2 fluorescence probing for myeloma-related Mirnas detection , 2022, Bioactive materials.

[29]  Yixin Nie,et al.  Luminous MoS2 nanosheet-based electrochemiluminescence biosensor with biomimetic vesicle for miRNA-210 detection. , 2021, Talanta.

[30]  Jin Li,et al.  Formic acid gas sensor based on coreless optical fiber coated by molybdenum disulfide nanosheet , 2021, Journal of Alloys and Compounds.

[31]  N. K. Man,et al.  Enhanced NO2 gas-sensing performance at room temperature using exfoliated MoS2 nanosheets , 2021, Sensors and Actuators A: Physical.

[32]  S. M. Taghdisi,et al.  A bivalent binding aptamer-cDNA on MoS2 nanosheets based fluorescent aptasensor for detection of aflatoxin M1. , 2021, Talanta.

[33]  M. Rezakazemi,et al.  A Comprehensive Review on Recent Advances in Two-Dimensional (2D) Hexagonal Boron Nitride , 2021, ACS Applied Electronic Materials.

[34]  Jian Zhou,et al.  Functionalized Mo2B2 MBenes: Promising anchoring and electrocatalysis materials for Lithium-Sulfur battery , 2021 .

[35]  Peide Zhu,et al.  Highly fluorescence Ta4C3 MXene quantum dots as fluorescent nanoprobe for heavy ion detection and stress monitoring of fluorescent hydrogels , 2021, Chinese Chemical Letters.

[36]  G. Song,et al.  Nitrogen, boron-doped Ti3C2 MXene quantum dot-based ratiometric fluorescence sensing platform for point-of-care testing of tetracycline using an enhanced antenna effect by Eu3+ , 2021, Microchimica Acta.

[37]  Zhinan Guo,et al.  Synthesis and stabilization of black phosphorus and phosphorene: recent progress and perspectives , 2021, iScience.

[38]  Dongzhi Zhang,et al.  UV illumination-enhanced ultrasensitive ammonia gas sensor based on (001)TiO2/MXene heterostructure for food spoilage detection. , 2021, Journal of hazardous materials.

[39]  S. Abolmaali,et al.  Novel bioengineered MBenes for the treatment of Alzheimer's disease: An in-Sillico study , 2021, Journal of biomolecular structure & dynamics.

[40]  Jun Wang,et al.  Nanoporous Functionalized WS2/MWCNTs Nanocomposite for Trimethylamine Detection Based on Quartz Crystal Microbalance Gas Sensor. , 2021, ACS applied materials & interfaces.

[41]  Shengxiang Huang,et al.  N,N-Dimethyl Formamide Regulating Fluorescence of MXene Quantum Dots for the Sensitive Determination of Fe3+ , 2021, Nanoscale Research Letters.

[42]  R. Umapathi,et al.  Hybridized 1D-2D MnMoO4-MXene nanocomposites as high-performing electrochemical sensing platform for the sensitive detection of dihydroxybenzene isomers in wastewater samples. , 2021, Journal of hazardous materials.

[43]  N. Bhat,et al.  Ultrasensitive chemiresistive humidity sensor based on gold functionalized WS2 nanosheets , 2021 .

[44]  Zhihua Zhou,et al.  Design of p–p heterojunctions based on CuO decorated WS2 nanosheets for sensitive NH3 gas sensing at room temperature , 2021, Nanotechnology.

[45]  M. Özacar,et al.  Electrochemical Sensor for Facile and Highly Selective Determination of Antineoplastic Agent in Real Samples Using Glassy Carbon Electrode Modified by 2D-MoS2 NFs/TiO2 NPs , 2021, Topics in Catalysis.

[46]  F. Awaja,et al.  Graphene and graphene oxide for bio-sensing: general properties and the effects of graphene ripples. , 2021, Acta biomaterialia.

[47]  A. Aziz,et al.  Tuning Electrocatalytic Aptitude by Incorporating α-MnO2 Nanorods in Cu-MOF/rGO/CuO Hybrids: Electrochemical Sensing of Resorcinol for Practical Applications. , 2021, ACS applied materials & interfaces.

[48]  Yuane Wang,et al.  Fabrication and application of a rutin electrochemical sensor based on rose-like AuNPs-MoS2-GN composite and molecularly imprinted chitosan , 2021 .

[49]  Hao Li,et al.  A Photovoltaic Self‐Powered Gas Sensor Based on All‐Dry Transferred MoS2/GaSe Heterojunction for ppb‐Level NO2 Sensing at Room Temperature , 2021, Advanced science.

[50]  Zhigang Zang,et al.  Dual Resistance and Impedance Investigation: Ultrasensitive and Stable Humidity Detection of Molybdenum Disulfide Nanosheet-Polyethylene Oxide Hybrids. , 2021, ACS applied materials & interfaces.

[51]  A. Chandra,et al.  Redox mediator induced electrochemical reactions at the electrode‐electrolyte interface: Making sodium‐ion supercapacitors a competitive technology , 2021 .

[52]  Xunrong Zhou,et al.  Fluorescent nitrogen-doped Ti3C2 MXene quantum dots as a unique “on-off-on” nanoprobe for chrominum (VI) and ascorbic acid based on inner filter effect , 2021 .

[53]  Z. Tahergorabi,et al.  Toxic Mechanisms of Five Heavy Metals: Mercury, Lead, Chromium, Cadmium, and Arsenic , 2021, Frontiers in Pharmacology.

[54]  Dongzhi Zhang,et al.  MXene/Co3O4 composite based formaldehyde sensor driven by ZnO/MXene nanowire arrays piezoelectric nanogenerator , 2021, Sensors and Actuators B: Chemical.

[55]  Ruihong Wang,et al.  Thin-layered MoS2 nanoflakes vertically grown on SnO2 nanotubes as highly effective room-temperature NO2 gas sensor. , 2021, Journal of hazardous materials.

[56]  D. Saini,et al.  Machine Learning-Assisted Array-Based Detection of Proteins in Serum Using Functionalized MoS2 Nanosheets and Green Fluorescent Protein Conjugates , 2021, ACS applied nano materials.

[57]  Yong Zhang,et al.  UV-light-assisted NO2 gas sensor based on WS2/PbS heterostructures with full recoverability and reliable anti-humidity ability , 2021, Sensors and Actuators B: Chemical.

[58]  G. Lu,et al.  The gas sensor utilizing polyaniline/ MoS2 nanosheets/ SnO2 nanotubes for the room temperature detection of ammonia , 2021 .

[59]  S. S. Kim,et al.  Synergistic effects of SnO2 and Au nanoparticles decorated on WS2 nanosheets for flexible, room-temperature CO gas sensing , 2021 .

[60]  Y. Liu,et al.  Ultrasensitive detection of disinfection byproduct trichloroacetamide in drinking water with Ag nanoprism@MoS2 heterostructure-based electrochemical sensor , 2021 .

[61]  Jinyuan Zhou,et al.  Ti3C2TX MXene for Sensing Applications: Recent Progress, Design Principles, and Future Perspectives. , 2021, ACS nano.

[62]  Zhou Li,et al.  Progress and biomedical applications of MXenes , 2021, Nano Select.

[63]  Wenbo Zhao,et al.  Biocompatibility nanoprobe of MXene N-Ti3C2 quantum dot/Fe3+ for detection and fluorescence imaging of glutathione in living cells. , 2021, Colloids and surfaces. B, Biointerfaces.

[64]  R. Wildman,et al.  Universal mobility characteristics of graphene originating from charge scattering by ionised impurities , 2021, Communications Physics.

[65]  Jiaqiang Xu,et al.  Controllable preparation of ultrathin MXene nanosheets and their excellent QCM humidity sensing properties enhanced by fluoride doping , 2021, Microchimica Acta.

[66]  Jeong-Woo Choi,et al.  Graphene/MoS2 Nanohybrid for Biosensors , 2021, Materials.

[67]  Y. Chueh,et al.  Ultrasensitive and light-activated NO2 gas sensor based on networked MoS2/ZnO nanohybrid with adsorption/desorption kinetics study , 2021 .

[68]  E. Pop,et al.  High-performance flexible nanoscale transistors based on transition metal dichalcogenides , 2020, Nature Electronics.

[69]  Jingyu Sun,et al.  Facile and Fast Synthesis of Three-Dimensional Ce-MOF/Ti 3C 2T x MXene Composite for High Performance Electrochemical Sensing of L-Tryptophan , 2021, SSRN Electronic Journal.

[70]  G. Lu,et al.  Flexible resistive NO2 gas sensor of three-dimensional crumpled MXene Ti3C2Tx/ZnO spheres for room temperature application , 2021 .

[71]  Qi Jie Wang,et al.  Recent Progress in Short‐ to Long‐Wave Infrared Photodetection Using 2D Materials and Heterostructures , 2020, Advanced Optical Materials.

[72]  Xian Li,et al.  Humidity-Enabled Ionic Conductive Trace Carbon Dioxide Sensing of Nitrogen-Doped Ti3C2Tx MXene/Polyethyleneimine Composite Films Decorated with Reduced Graphene Oxide Nanosheets. , 2020, Analytical chemistry.

[73]  Chengyi Hou,et al.  A highly integrated sensing paper for wearable electrochemical sweat analysis. , 2020, Biosensors & bioelectronics.

[74]  I. In,et al.  Interaction activated interfacial charge transfer in 2D g-C3N4/GaN nanorods heterostructure for self-powered UV photodetector and room temperature NO2 gas sensor at ppb level , 2020 .

[75]  Jinling Zhao,et al.  Ethylenediamine-assisted hydrothermal method to fabricate MoS2 quantum dots in aqueous solution as a fluorescent probe for Fe3+ ion detection , 2020 .

[76]  T. Hayat,et al.  SnO2 nanoparticles-modified 3D-multilayer MoS2 nanosheets for ammonia gas sensing at room temperature , 2020 .

[77]  Han Zhang,et al.  Transition Metal Dichalcogenides for Sensing and Oncotherapy: Status, Challenges, and Perspective , 2020, Advanced Functional Materials.

[78]  N. Mahmood,et al.  Sensing Applications of Atomically Thin Group IV Carbon Siblings Xenes: Progress, Challenges, and Prospects , 2020, Advanced Functional Materials.

[79]  Hideki Kato,et al.  SnO-SnO2 modified two-dimensional MXene Ti3C2T for acetone gas sensor working at room temperature , 2020 .

[80]  M. Rezayi,et al.  Ultra-sensitive molecularly imprinted electrochemical sensor for patulin detection based on a novel assembling strategy using Au@Cu-MOF/N-GQDs , 2020 .

[81]  D. Peroulis,et al.  Surface Functionalization of Ti3C2Tx MXene with Highly Reliable Superhydrophobic Protection for Volatile Organic Compounds Sensing. , 2020, ACS nano.

[82]  S. Koester,et al.  Bandgap engineering of two-dimensional semiconductor materials , 2020, npj 2D Materials and Applications.

[83]  Po-Da Hong,et al.  Effect of PMMA on the surface of exfoliated MoS2 nanosheets and their highly enhanced ammonia gas sensing properties at room temperature , 2020 .

[84]  Fengli Qu,et al.  NiO@Ni-MOF nanoarrays modified Ti mesh as ultrasensitive electrochemical sensing platform for luteolin detection. , 2020, Talanta.

[85]  M. S. Mehata,et al.  Rapid sensing of lead metal ions in an aqueous medium by MoS2 quantum dots fluorescence turn-off , 2020 .

[86]  A. Escarpa,et al.  Engineering Janus micromotors with WS2 and affinity peptides for turn-on fluorescent sensing of bacterial lipopolysaccharides. , 2020, Biosensors & bioelectronics.

[87]  Kangbing Wu,et al.  Unique 3D heterostructures assembled by quasi-2D Ni-MOF and CNTs for ultrasensitive electrochemical sensing of bisphenol A , 2020 .

[88]  C. Imawan,et al.  The enhanced performance of capacitive-type humidity sensors based on ZnO nanorods/WS2 nanosheets heterostructure , 2020 .

[89]  Gil Yong Lee,et al.  Nanoscale Assembly of 2D Materials for Energy and Environmental Applications , 2020, Advanced materials.

[90]  Paras N. Prasad,et al.  Two-dimensional MXenes: From morphological to optical, electric, and magnetic properties and applications , 2020, Physics Reports.

[91]  Diqing Su,et al.  High-moment magnetic nanoparticles , 2020, Journal of Nanoparticle Research.

[92]  Rahul Kumar,et al.  Transition metal dichalcogenides-based flexible gas sensors , 2020 .

[93]  M. Baghayeri,et al.  Application of graphene/zinc-based metal-organic framework nanocomposite for electrochemical sensing of As(III) in water resources. , 2020, Analytica chimica acta.

[94]  Muqiang Jian,et al.  Molybdenum Disulfide Nanosheets Aligned Vertically on Carbonized Silk Fabric as Smart Textile for Wearable Pressure Sensing and Energy Devices. , 2020, ACS applied materials & interfaces.

[95]  Q. Hao,et al.  Fluorescent MoS2 QDs based on IFE for turn-off determination of FOX-7 in real water samples. , 2020, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.

[96]  Ruibin Guo,et al.  Highly sensitive fluorescence sensor for mercury(II) based on boron- and nitrogen-co-doped graphene quantum dots. , 2020, Journal of colloid and interface science.

[97]  Lei Zhang,et al.  3D hierarchical hollow microrod via in-situ growth 2D SnS nanoplates on MOF derived Co, N co-doped carbon rod for electrochemical sensing , 2020, Sensors and Actuators B: Chemical.

[98]  Zilong Tang,et al.  Comparative Study on NO2 and H2s Sensing Mechanisms of Gas Sensors Based on WS2 Nanosheets , 2020, ECS Meeting Abstracts.

[99]  Yi Yang,et al.  Wearable Electronics Based on 2D Materials for Human Physiological Information Detection. , 2020, Small.

[100]  Jinhui Peng,et al.  Sulfur-Vacancy-Enriched MoS2 Nanosheets Based Heterostructures for Near-Infrared Optoelectronic NO2 Sensing , 2020 .

[101]  Ho Won Jang,et al.  Chemical Sensors Based on Two-Dimensional (2D) Materials for Selective Detection of Ions and Molecules in Liquid , 2019, Front. Chem..

[102]  Wei Xu,et al.  Target-inspired Pb2+-dependent DNAzyme for ultrasensitive electrochemical sensor based on MoS2-AuPt nanocomposites and hemin/G-quadruplex DNAzyme as signal amplifier. , 2019, Biosensors & bioelectronics.

[103]  M. Salavati‐Niasari,et al.  S,N co-doped graphene quantum dots-induced ascorbic acid fluorescent sensor: Design, characterization and performance. , 2019, Food chemistry.

[104]  Karim Khan,et al.  Recent Advances in Emerging 2D Material‐Based Gas Sensors: Potential in Disease Diagnosis , 2019, Advanced Materials Interfaces.

[105]  H. Lee,et al.  Improved Sensitivity in Schottky Contacted Two-Dimensional MoS2 Gas Sensor. , 2019, ACS applied materials & interfaces.

[106]  Dongchu Chen,et al.  Recent advances in two-dimensional transition metal dichalcogenides for biological sensing. , 2019, Biosensors & bioelectronics.

[107]  F. Cheng,et al.  Sensitive electrochemical sensor for nitrite ions based on rose-like AuNPs/MoS2/graphene composite. , 2019, Biosensors & bioelectronics.

[108]  Haifeng Sha,et al.  Design and Biosensing of Ratiometric Electrochemiluminescence Resonance Energy Transfer Aptasensor between g-C3N4 Nanosheet and Ru@MOF for Amyloid-β protein. , 2019, ACS applied materials & interfaces.

[109]  Hye Kyu Choi,et al.  Flexible electrochemical glucose biosensor based on GOx/gold/MoS2/gold nanofilm on the polymer electrode. , 2019, Biosensors & bioelectronics.

[110]  Adam Bolotsky,et al.  Two-Dimensional Materials in Biosensing and Healthcare: from In Vitro Diagnostics to Optogenetics and Beyond. , 2019, ACS nano.

[111]  Minkyu Shin,et al.  Flexible HIV-1 Biosensor Based on the Au/MoS2 Nanoparticles/Au Nanolayer on the PET Substrate , 2019, Nanomaterials.

[112]  M. Hong,et al.  Toward Flexible Surface‐Enhanced Raman Scattering (SERS) Sensors for Point‐of‐Care Diagnostics , 2019, Advanced science.

[113]  Jianping Li,et al.  A highly sensitive and selective “on-off-on” fluorescent sensor based on nitrogen doped graphene quantum dots for the detection of Hg2+ and paraquat , 2019, Sensors and Actuators B: Chemical.

[114]  Shen-ming Chen,et al.  A relative study on sonochemically synthesized mesoporous WS2 nanorods & hydrothermally synthesized WS2 nanoballs towards electrochemical sensing of psychoactive drug (Clonazepam). , 2019, Ultrasonics sonochemistry.

[115]  Xin Xin,et al.  Gas Sensors Based on Mechanically Exfoliated MoS2 Nanosheets for Room-Temperature NO2 Detection , 2019, Sensors.

[116]  K. N. Uttam,et al.  Facile synthesis of molybdenum disulfide (MoS2) quantum dots and its application in humidity sensing , 2019, Nanotechnology.

[117]  Ashutosh Kumar Singh,et al.  Biocompatible and biodegradable inorganic nanostructures for nanomedicine: Silicon and black phosphorus , 2019, Nano Today.

[118]  Yingchun Li,et al.  Simultaneous voltammetric determination of acetaminophen and isoniazid using MXene modified screen-printed electrode. , 2019, Biosensors & bioelectronics.

[119]  Ashok Mulchandani,et al.  MoS2-Based Optoelectronic Gas Sensor with Sub-parts-per-billion Limit of NO2 Gas Detection. , 2019, ACS nano.

[120]  King‐Chuen Lin,et al.  Fluorescence turn-on chemosensors based on surface-functionalized MoS2 quantum dots , 2019, Sensors and Actuators B: Chemical.

[121]  Geoffrey I N Waterhouse,et al.  Novel three-dimensional electrochemical sensor with dual signal amplification based on MoS2 nanosheets and high-conductive NH2-MWCNT@COF for sulfamerazine determination , 2019, Sensors and Actuators B: Chemical.

[122]  Xingguo Chen,et al.  Fluorometric dopamine assay based on an energy transfer system composed of aptamer-functionalized MoS2 quantum dots and MoS2 nanosheets , 2019, Microchimica Acta.

[123]  Micah J. Green,et al.  Water Sorption in MXene/Polyelectrolyte Multilayers for Ultrafast Humidity Sensing , 2019, ACS Applied Nano Materials.

[124]  K. Mirica,et al.  Electrically-Transduced Chemical Sensors Based on Two-Dimensional Nanomaterials. , 2019, Chemical reviews.

[125]  M. Aqeel,et al.  The study of Fe-doped CdS nanoparticle-assisted photocatalytic degradation of organic dye in wastewater , 2019, Applied Nanoscience.

[126]  X. Duan,et al.  High-Performance Black Phosphorus Field-Effect Transistors with Long-Term Air Stability. , 2018, Nano letters.

[127]  R. Stelmach,et al.  Seasonal changes influence the improvement in asthma symptoms by exercise training in subjects with asthma** , 2018, The Journal of asthma : official journal of the Association for the Care of Asthma.

[128]  R. S. Tiwari,et al.  In Situ Functionalized Fluorescent WS2-QDs as Sensitive and Selective Probe for Fe3+ and a Detailed Study of Its Fluorescence Quenching , 2018, ACS Applied Nano Materials.

[129]  K. Salama,et al.  Biofunctionalized two-dimensional Ti3C2 MXenes for ultrasensitive detection of cancer biomarker. , 2018, Biosensors & bioelectronics.

[130]  C. Zhang,et al.  3D hybrid MoS2/AgNPs/inverted pyramid PMMA resonant cavity system for the excellent flexible surface enhanced Raman scattering sensor , 2018, Sensors and Actuators B: Chemical.

[131]  Yanchun Zhou,et al.  First demonstration of possible two-dimensional MBene CrB derived from MAB phase Cr2AlB2 , 2018, Journal of Materials Science & Technology.

[132]  Jingkun Xu,et al.  A highly-sensitive VB2 electrochemical sensor based on one-step co-electrodeposited molecularly imprinted WS2-PEDOT film supported on graphene oxide-SWCNTs nanocomposite. , 2018, Materials science & engineering. C, Materials for biological applications.

[133]  Peng Wang,et al.  Progress, Challenges, and Opportunities for 2D Material Based Photodetectors , 2018, Advanced Functional Materials.

[134]  Yu Pang,et al.  Wearable humidity sensor based on porous graphene network for respiration monitoring. , 2018, Biosensors & bioelectronics.

[135]  Dayong Ding,et al.  Flexible and Anisotropic Strain Sensor Based on Carbonized Crepe Paper with Aligned Cellulose Fibers , 2018, Advanced Functional Materials.

[136]  G. Eda,et al.  Electroluminescent Devices Based on 2D Semiconducting Transition Metal Dichalcogenides , 2018, Advanced materials.

[137]  Tianfu Wu,et al.  Constructing 3D and Flexible Plasmonic Structure for High‐Performance SERS Application , 2018, Advanced Materials Technologies.

[138]  Yu Chen,et al.  Insights into 2D MXenes for Versatile Biomedical Applications: Current Advances and Challenges Ahead , 2018, Advanced science.

[139]  Chunqing Li,et al.  Digital enablement and its role in internal branding: A case study of HUANYI travel agency , 2018, Industrial Marketing Management.

[140]  Tingting Xu,et al.  Humidity sensing properties of the hydrothermally synthesized WS2-modified SnO2 hybrid nanocomposite , 2018, Applied Surface Science.

[141]  Long Yang,et al.  A robust electrochemical immunosensor based on hydroxyl pillar[5]arene@AuNPs@g-C3N4 hybrid nanomaterial for ultrasensitive detection of prostate specific antigen. , 2018, Biosensors & bioelectronics.

[142]  Xing Xuan,et al.  A wearable electrochemical glucose sensor based on simple and low-cost fabrication supported micro-patterned reduced graphene oxide nanocomposite electrode on flexible substrate. , 2018, Biosensors & bioelectronics.

[143]  P. Chu,et al.  Lanthanide-Coordinated Black Phosphorus. , 2018, Small.

[144]  Yafei Zhang,et al.  Design of Hetero-Nanostructures on MoS2 Nanosheets To Boost NO2 Room-Temperature Sensing. , 2018, ACS applied materials & interfaces.

[145]  Yun Liang,et al.  High Performance Humidity Fluctuation Sensor for Wearable Devices via a Bioinspired Atomic-Precise Tunable Graphene-Polymer Heterogeneous Sensing Junction , 2018, Chemistry of Materials.

[146]  M. Pumera,et al.  A highly sensitive room temperature humidity sensor based on 2D-WS2 nanosheets , 2018 .

[147]  Christian Schneider,et al.  Two-dimensional semiconductors in the regime of strong light-matter coupling , 2018, Nature Communications.

[148]  Daohong Zhang,et al.  Label-free fluorescence aptasensor for sensitive determination of bisphenol S by the salt-adjusted FRET between CQDs and MoS2 , 2018 .

[149]  A. Wee,et al.  An ultra-sensitive electrochemical sensor based on 2D g-C3N4/CuO nanocomposites for dopamine detection , 2018 .

[150]  Zhongze Gu,et al.  Multifunctional Wearable Sensing Devices Based on Functionalized Graphene Films for Simultaneous Monitoring of Physiological Signals and Volatile Organic Compound Biomarkers. , 2018, ACS applied materials & interfaces.

[151]  M. L. Yola,et al.  Electrochemical sensing of ractopamine by carbon nitride nanotubes/ionic liquid nanohybrid in presence of other β-agonists , 2018 .

[152]  Philip D Rack,et al.  Evolutionary selection growth of two-dimensional materials on polycrystalline substrates , 2018, Nature Materials.

[153]  Jing-Fu Qiu,et al.  A voltammetric immunosensor for clenbuterol based on the use of a MoS2-AuPt nanocomposite , 2018, Microchimica Acta.

[154]  Xianfeng Chen,et al.  Black phosphorus integrated tilted fiber grating for ultrasensitive heavy metal sensing , 2018 .

[155]  Ali Javey,et al.  Wearable sweat sensors , 2018 .

[156]  A. Suganthi,et al.  Fabrication of g-C3N4/NiO heterostructured nanocomposite modified glassy carbon electrode for quercetin biosensor. , 2018, Ultrasonics sonochemistry.

[157]  G. Benelli,et al.  Fluorescence quenching of MoS2 nanosheets/DNA/silicon dot nanoassembly: effective and rapid detection of Hg2+ ions in aqueous solution , 2018, Environmental Science and Pollution Research.

[158]  Muhammad Asif,et al.  Graphene paper supported MoS2 nanocrystals monolayer with Cu submicron-buds: High-performance flexible platform for sensing in sweat. , 2018, Analytical biochemistry.

[159]  Parikshit Sahatiya,et al.  Flexible, Disposable Cellulose-Paper-Based MoS2/Cu2S Hybrid for Wireless Environmental Monitoring and Multifunctional Sensing of Chemical Stimuli. , 2018, ACS applied materials & interfaces.

[160]  Andreas Hirsch,et al.  Post‐Graphene 2D Chemistry: The Emerging Field of Molybdenum Disulfide and Black Phosphorus Functionalization , 2018, Angewandte Chemie.

[161]  S. Mukhopadhyay,et al.  Graphene and its sensor-based applications: A review , 2018 .

[162]  L. Fu,et al.  Exploring Two-Dimensional Materials toward the Next-Generation Circuits: From Monomer Design to Assembly Control. , 2018, Chemical reviews.

[163]  Jihan Kim,et al.  Metallic Ti3C2Tx MXene Gas Sensors with Ultrahigh Signal-to-Noise Ratio. , 2018, ACS nano.

[164]  Ting Wang,et al.  Mechano-Based Transductive Sensing for Wearable Healthcare. , 2018, Small.

[165]  Hemant Sankar Dutta,et al.  Nanostructured MoS2-Based Advanced Biosensors: A Review , 2018 .

[166]  Zhi-zhong Xie,et al.  A Non-Enzymatic Electrochemical Sensing Platform Based on Hemin@MOF Composites for Detecting Hydrogen Peroxide and DNA , 2018 .

[167]  Young Min Song,et al.  Human eye-inspired soft optoelectronic device using high-density MoS2-graphene curved image sensor array , 2017, Nature Communications.

[168]  Steven D. Lacey,et al.  Reduced graphene oxide film with record-high conductivity and mobility , 2017 .

[169]  Zhencheng Chen,et al.  A disposable paper-based microfluidic immunosensor based on reduced graphene oxide-tetraethylene pentamine/Au nanocomposite decorated carbon screen-printed electrodes , 2017 .

[170]  Yajun Jiang,et al.  MoS2-based all-fiber humidity sensor for monitoring human breath with fast response and recovery , 2017 .

[171]  S. Prasad,et al.  Portable biosensor for monitoring cortisol in low-volume perspired human sweat , 2017, Scientific Reports.

[172]  Young Soo Yoon,et al.  Room Temperature Gas Sensing of Two-Dimensional Titanium Carbide (MXene). , 2017, ACS applied materials & interfaces.

[173]  Zhaohui Li,et al.  Highly sensitive fluorescence detection of mercury (II) ions based on WS2 nanosheets and T7 exonuclease assisted cyclic enzymatic amplification , 2017 .

[174]  Minqiang Wang,et al.  Reliable molecular trace-detection based on flexible SERS substrate of graphene/Ag-nanoflowers/PMMA , 2017 .

[175]  Yuhao Liu,et al.  Lab-on-Skin: A Review of Flexible and Stretchable Electronics for Wearable Health Monitoring. , 2017, ACS nano.

[176]  M. Otyepka,et al.  Is Single Layer MoS2 Stable in the Air? , 2017, Chemistry.

[177]  Yury Gogotsi,et al.  Guidelines for Synthesis and Processing of Two-Dimensional Titanium Carbide (Ti3C2Tx MXene) , 2017 .

[178]  W. Liang,et al.  Electrical properties and applications of graphene, hexagonal boron nitride (h-BN), and graphene/h-BN heterostructures , 2017 .

[179]  Sang-Hoon Park,et al.  Transparent, Flexible, and Conductive 2D Titanium Carbide (MXene) Films with High Volumetric Capacitance , 2017, Advanced materials.

[180]  T. Heine,et al.  Two-dimensional sp2 carbon–conjugated covalent organic frameworks , 2017, Science.

[181]  R. Ma,et al.  Stability and Nature of Chemically Exfoliated MoS2 in Aqueous Suspensions. , 2017, Inorganic chemistry.

[182]  Hua Zhang,et al.  Ultrathin Two-Dimensional Covalent Organic Framework Nanosheets: Preparation and Application in Highly Sensitive and Selective DNA Detection. , 2017, Journal of the American Chemical Society.

[183]  A. Kis,et al.  2D transition metal dichalcogenides , 2017 .

[184]  Sang-Hoon Park,et al.  Oxidation Stability of Colloidal Two-Dimensional Titanium Carbides (MXenes) , 2017 .

[185]  Hyun Seok Song,et al.  Humidity‐Tolerant Single‐Stranded DNA‐Functionalized Graphene Probe for Medical Applications of Exhaled Breath Analysis , 2017 .

[186]  Franklin Bien,et al.  Wearable smart sensor systems integrated on soft contact lenses for wireless ocular diagnostics , 2017, Nature Communications.

[187]  Yang Xu,et al.  Designing an Efficient Multimode Environmental Sensor Based on Graphene–Silicon Heterojunction , 2017 .

[188]  Qiyuan He,et al.  Recent Advances in Ultrathin Two-Dimensional Nanomaterials. , 2017, Chemical reviews.

[189]  Hye Rim Cho,et al.  Wearable/disposable sweat-based glucose monitoring device with multistage transdermal drug delivery module , 2017, Science Advances.

[190]  Youngsoo Kim,et al.  Smart Contact Lenses with Graphene Coating for Electromagnetic Interference Shielding and Dehydration Protection. , 2017, ACS nano.

[191]  Yury Gogotsi,et al.  2D metal carbides and nitrides (MXenes) for energy storage , 2017 .

[192]  Soo-Yeon Cho,et al.  Tunable Volatile-Organic-Compound Sensor by Using Au Nanoparticle Incorporation on MoS2. , 2017, ACS sensors.

[193]  Yu Chen,et al.  Two-Dimensional Ultrathin MXene Ceramic Nanosheets for Photothermal Conversion. , 2017, Nano letters.

[194]  Zibiao Li,et al.  Functionalization of 2D transition metal dichalcogenides for biomedical applications. , 2017, Materials science & engineering. C, Materials for biological applications.

[195]  Jia Li,et al.  Low temperature synthesis of nano porous 12CaO∙7Al2O3 powder by hydrothermal method , 2016, Journal of Wuhan University of Technology-Mater. Sci. Ed..

[196]  Arnan Mitchell,et al.  Two dimensional and layered transition metal oxides , 2016 .

[197]  A. Shokri,et al.  Gas sensor based on MoS2 monolayer , 2016 .

[198]  Qian Zhu,et al.  A dual-color fluorescent biosensing platform based on WS2 nanosheet for detection of Hg(2+) and Ag(.). , 2016, Biosensors & bioelectronics.

[199]  A. Görling,et al.  Noncovalent Functionalization of Black Phosphorus. , 2016, Angewandte Chemie.

[200]  H. Alshareef,et al.  Novel amperometric glucose biosensor based on MXene nanocomposite KAUST Repository , 2017 .

[201]  Qian Chen,et al.  Light-Induced Ambient Degradation of Few-Layer Black Phosphorus: Mechanism and Protection. , 2016, Angewandte Chemie.

[202]  Byoung Hun Lee,et al.  Two-Dimensional Atomic-Layered Alloy Junctions for High-Performance Wearable Chemical Sensor. , 2016, ACS applied materials & interfaces.

[203]  Sundarrajan Asokan,et al.  Optical detection of glucose and glycated hemoglobin using etched fiber Bragg gratings coated with functionalized reduced graphene oxide , 2016, Journal of biophotonics.

[204]  Conor P. Cullen,et al.  High-Performance Hybrid Electronic Devices from Layered PtSe2 Films Grown at Low Temperature. , 2016, ACS nano.

[205]  Chang E. Ren,et al.  Fabrication of Ti3C2Tx MXene Transparent Thin Films with Tunable Optoelectronic Properties , 2016 .

[206]  Shixin Wu,et al.  Bioinspired Design of Ultrathin 2D Bimetallic Metal–Organic‐Framework Nanosheets Used as Biomimetic Enzymes , 2016, Advanced materials.

[207]  Hye Rim Cho,et al.  A graphene-based electrochemical device with thermoresponsive microneedles for diabetes monitoring and therapy. , 2016, Nature nanotechnology.

[208]  Cuiling Zhang,et al.  Facile Synthesis of Water-Soluble WS2 Quantum Dots for Turn-On Fluorescent Measurement of Lipoic Acid , 2016 .

[209]  Dongzhi Zhang,et al.  Facile Fabrication of MoS2-Modified SnO2 Hybrid Nanocomposite for Ultrasensitive Humidity Sensing. , 2016, ACS applied materials & interfaces.

[210]  Amay J. Bandodkar,et al.  Wearable Chemical Sensors: Present Challenges and Future Prospects , 2016 .

[211]  M. Shaban,et al.  Highly Sensitive and Selective In-Situ SERS Detection of Pb2+, Hg2+, and Cd2+ Using Nanoporous Membrane Functionalized with CNTs , 2016, Scientific Reports.

[212]  P V Mohanan,et al.  Safety and biocompatibility of graphene: A new generation nanomaterial for biomedical application. , 2016, International journal of biological macromolecules.

[213]  P. Chu,et al.  Surface Coordination of Black Phosphorus for Robust Air and Water Stability. , 2016, Angewandte Chemie.

[214]  Y. Chen,et al.  Atomically Thin Boron Nitride: Unique Properties and Applications , 2016, 1605.01136.

[215]  Kwang S. Kim,et al.  Noncovalent Functionalization of Graphene and Graphene Oxide for Energy Materials, Biosensing, Catalytic, and Biomedical Applications. , 2016, Chemical reviews.

[216]  Mircea Dincă,et al.  Electrically Conductive Porous Metal-Organic Frameworks. , 2016, Angewandte Chemie.

[217]  Junseok Chae,et al.  Low Cytotoxicity and Genotoxicity of Two-Dimensional MoS2 and WS2. , 2016, ACS biomaterials science & engineering.

[218]  N. Koratkar,et al.  Aging of Transition Metal Dichalcogenide Monolayers. , 2016, ACS nano.

[219]  Sam Emaminejad,et al.  Fully integrated wearable sensor arrays for multiplexed in situ perspiration analysis , 2016, Nature.

[220]  Jian Zhen Ou,et al.  Biosensors Based on Two-Dimensional MoS2 , 2016 .

[221]  Artem R. Oganov,et al.  Synthesis of borophenes: Anisotropic, two-dimensional boron polymorphs , 2015, Science.

[222]  Chenhui Yang,et al.  A novel nitrite biosensor based on the direct electrochemistry of hemoglobin immobilized on MXene-Ti3C2 , 2015 .

[223]  Dongzhi Zhang,et al.  Air-Stable Black Phosphorus Devices for Ion Sensing. , 2015, ACS applied materials & interfaces.

[224]  Wojtek Wlodarski,et al.  Physisorption-Based Charge Transfer in Two-Dimensional SnS2 for Selective and Reversible NO2 Gas Sensing. , 2015, ACS nano.

[225]  Martin Pumera,et al.  Metallic 1T‐WS2 for Selective Impedimetric Vapor Sensing , 2015 .

[226]  Bing Li,et al.  High-Yield Exfoliation of Ultrathin Two-Dimensional Ternary Chalcogenide Nanosheets for Highly Sensitive and Selective Fluorescence DNA Sensors. , 2015, Journal of the American Chemical Society.

[227]  S. Seal,et al.  Recent development in 2D materials beyond graphene , 2015 .

[228]  S. Chae,et al.  High-performance n-type black phosphorus transistors with type control via thickness and contact-metal engineering , 2015, Nature Communications.

[229]  Byoung Hun Lee,et al.  Chemical Sensing of 2D Graphene/MoS2 Heterostructure device. , 2015, ACS applied materials & interfaces.

[230]  Wei Lin,et al.  Theoretical study of the interaction of electron donor and acceptor molecules with monolayer WS2 , 2015 .

[231]  Daoben Zhu,et al.  A two-dimensional π–d conjugated coordination polymer with extremely high electrical conductivity and ambipolar transport behaviour , 2015, Nature Communications.

[232]  Qingzhong Li,et al.  Monolayer Ti₂CO₂: A Promising Candidate for NH₃ Sensor or Capturer with High Sensitivity and Selectivity. , 2015, ACS applied materials & interfaces.

[233]  Nae-Eung Lee,et al.  Field-effect transistor with a chemically synthesized MoS2 sensing channel for label-free and highly sensitive electrical detection of DNA hybridization , 2015, Nano Research.

[234]  Chongwu Zhou,et al.  Black phosphorus gas sensors. , 2015, ACS nano.

[235]  M. Zourob,et al.  Functionalized CVD monolayer graphene for label-free impedimetric biosensing , 2015, Nano Research.

[236]  Zhuang Liu,et al.  MoS2-based nanoprobes for detection of silver ions in aqueous solutions and bacteria. , 2015, ACS applied materials & interfaces.

[237]  K. S. Vasu,et al.  Sensitive detection of C-reactive protein using optical fiber Bragg gratings. , 2015, Biosensors & bioelectronics.

[238]  Jian Wang,et al.  Preparation of NiO two-dimensional grainy films and their high-performance gas sensors for ammonia detection , 2015, Nanoscale Research Letters.

[239]  Hua Xu,et al.  Identifying the crystalline orientation of black phosphorus using angle-resolved polarized Raman spectroscopy. , 2015, Angewandte Chemie.

[240]  Jin-Wu Jiang Graphene versus MoS2: A short review , 2015, Frontiers of Physics.

[241]  Bo Chen,et al.  Single‐Layer Transition Metal Dichalcogenide Nanosheet‐Based Nanosensors for Rapid, Sensitive, and Multiplexed Detection of DNA , 2015, Advanced materials.

[242]  Byoung Hun Lee,et al.  Charge-transfer-based Gas Sensing Using Atomic-layer MoS2 , 2015, Scientific Reports.

[243]  Lee J. Hubble,et al.  High-throughput fabrication and screening improves gold nanoparticle chemiresistor sensor performance. , 2015, ACS combinatorial science.

[244]  Xinhong Song,et al.  A label-free fluorescence sensing approach for selective and sensitive detection of 2,4,6-trinitrophenol (TNP) in aqueous solution using graphitic carbon nitride nanosheets. , 2015, Analytical chemistry.

[245]  R. Ruoff,et al.  Graphene, related two-dimensional crystals, and hybrid systems for energy conversion and storage , 2015, Science.

[246]  Feng Yan,et al.  Flexible Organic Electrochemical Transistors for Highly Selective Enzyme Biosensors and Used for Saliva Testing , 2015, Advanced materials.

[247]  Quan-hong Yang,et al.  On the origin of the stability of graphene oxide membranes in water. , 2015, Nature chemistry.

[248]  Joonhyung Lee,et al.  Two-dimensional Layered MoS2 Biosensors Enable Highly Sensitive Detection of Biomolecules , 2014, Scientific Reports.

[249]  Thomas Doneux,et al.  Single-layer MoSe2 based NH3 gas sensor , 2014 .

[250]  Zhen Xu,et al.  Fast Response and High Sensitivity ZnO/glass Surface Acoustic Wave Humidity Sensors Using Graphene Oxide Sensing Layer , 2014, Scientific Reports.

[251]  Jared P. Ness,et al.  Graphene-based carbon-layered electrode array technology for neural imaging and optogenetic applications , 2014, Nature Communications.

[252]  F. Xia,et al.  Two-dimensional material nanophotonics , 2014, Nature Photonics.

[253]  Martin Pumera,et al.  Layered transition-metal dichalcogenides (MoS2 and WS2) for sensing and biosensing , 2014 .

[254]  Hee‐Tae Jung,et al.  Tunable volatile organic compounds sensor by using thiolated ligand conjugation on MoS2. , 2014, Nano letters.

[255]  Jin‐Wook Shin,et al.  Flexible and transparent gas molecule sensor integrated with sensing and heating graphene layers. , 2014, Small.

[256]  Huajian Gao,et al.  Cytotoxicity of graphene: recent advances and future perspective. , 2014, Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology.

[257]  Dong Yun Lee,et al.  Photoluminescent graphene nanoparticles for cancer phototherapy and imaging. , 2014, ACS applied materials & interfaces.

[258]  Lain‐Jong Li,et al.  Graphene/MoS2 Heterostructures for Ultrasensitive Detection of DNA Hybridisation , 2014, Advanced materials.

[259]  S. Saha,et al.  Highly selective detection of trinitrophenol by luminescent functionalized reduced graphene oxide through FRET mechanism. , 2014, ACS applied materials & interfaces.

[260]  Qin Xu,et al.  A paper disk equipped with graphene/polyaniline/Au nanoparticles/glucose oxidase biocomposite modified screen-printed electrode: toward whole blood glucose determination. , 2014, Biosensors & bioelectronics.

[261]  T. Frauenheim,et al.  Phosphorene as a Superior Gas Sensor: Selective Adsorption and Distinct I-V Response. , 2014, The journal of physical chemistry letters.

[262]  Jian-Bai Xia,et al.  Photoresponsive and Gas Sensing Field-Effect Transistors based on Multilayer WS2 Nanoflakes , 2014, Scientific Reports.

[263]  Liang Cheng,et al.  Drug Delivery with PEGylated MoS2 Nano‐sheets for Combined Photothermal and Chemotherapy of Cancer , 2014, Advanced materials.

[264]  Peng Wang,et al.  Ultrasensitive flow sensing of a single cell using graphene-based optical sensors. , 2014, Nano letters.

[265]  Chongwu Zhou,et al.  High-performance chemical sensing using Schottky-contacted chemical vapor deposition grown monolayer MoS2 transistors. , 2014, ACS nano.

[266]  Sanat S Bhole,et al.  Soft Microfluidic Assemblies of Sensors, Circuits, and Radios for the Skin , 2014, Science.

[267]  T. Sudarshan,et al.  Tunable reverse-biased graphene/silicon heterojunction Schottky diode sensor. , 2014, Small.

[268]  Mehmet Sarikaya,et al.  Selective detection of target proteins by peptide-enabled graphene biosensor. , 2014, Small.

[269]  Xianfan Xu,et al.  Phosphorene: an unexplored 2D semiconductor with a high hole mobility. , 2014, ACS nano.

[270]  Zhihong Liu,et al.  Establishing water-soluble layered WS₂ nanosheet as a platform for biosensing. , 2014, Analytical chemistry.

[271]  K. Banerjee,et al.  MoS₂ field-effect transistor for next-generation label-free biosensors. , 2014, ACS nano.

[272]  Takat B. Rawal,et al.  Single-Layer MoS2 with Sulfur Vacancies: Structure and Catalytic Application , 2014 .

[273]  Lu Wang,et al.  Functionalized MoS(2) nanosheet-based field-effect biosensor for label-free sensitive detection of cancer marker proteins in solution. , 2014, Small.

[274]  Ru-Qin Yu,et al.  Highly sensitive and selective strategy for microRNA detection based on WS2 nanosheet mediated fluorescence quenching and duplex-specific nuclease signal amplification. , 2014, Analytical chemistry.

[275]  Likai Li,et al.  Black phosphorus field-effect transistors. , 2014, Nature nanotechnology.

[276]  Yi Tang,et al.  An Organ-Like Titanium Carbide Material (MXene) with Multilayer Structure Encapsulating Hemoglobin for a Mediator-Free Biosensor , 2014 .

[277]  Zhichuan J. Xu,et al.  Synthesis, properties and applications of one- and two-dimensional gold nanostructures , 2014, Nano Research.

[278]  Wei Wang,et al.  Fluorescence quenching of carbon nitride nanosheet through its interaction with DNA for versatile fluorescence sensing. , 2013, Analytical chemistry.

[279]  Song Zhang,et al.  A novel nonenzymatic sensor based on CuO nanoneedle/graphene/carbon nanofiber modified electrode for probing glucose in saliva. , 2013, Talanta.

[280]  Jani Kivioja,et al.  Ultrafast graphene oxide humidity sensors. , 2013, ACS nano.

[281]  Ghenadii Korotcenkov,et al.  Engineering approaches for the improvement of conductometric gas sensor parameters: Part 1. Improvement of sensor sensitivity and selectivity (short survey) , 2013 .

[282]  K. Deisseroth,et al.  Optogenetics , 2013, Proceedings of the National Academy of Sciences.

[283]  Bin Liu,et al.  Sensing behavior of atomically thin-layered MoS2 transistors. , 2013, ACS nano.

[284]  Sanghamitra Chatterjee,et al.  Nanomaterials based electrochemical sensors for biomedical applications. , 2013, Chemical Society reviews.

[285]  Hua Zhang,et al.  Graphene-based electrochemical sensors. , 2013, Small.

[286]  Y. D. Kim,et al.  The role of external defects in chemical sensing of graphene field-effect transistors. , 2013, Nano letters.

[287]  Chunhai Fan,et al.  Single-layer MoS2-based nanoprobes for homogeneous detection of biomolecules. , 2013, Journal of the American Chemical Society.

[288]  Hua Zhang,et al.  The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets. , 2013, Nature chemistry.

[289]  P M Campbell,et al.  Chemical vapor sensing with monolayer MoS2. , 2013, Nano letters.

[290]  C Jeffrey Brinker,et al.  Chemically exfoliated MoS2 as near-infrared photothermal agents. , 2012, Angewandte Chemie.

[291]  Michael S. Fuhrer,et al.  High mobility ambipolar MoS2 field-effect transistors: Substrate and dielectric effects , 2012, 1212.6292.

[292]  A. L. Ivanovskii,et al.  Graphene-like titanium carbides and nitrides Tin+1Cn, Tin+1Nn (n = 1, 2, and 3) from de-intercalated MAX phases: First-principles probing of their structural, electronic properties and relative stability , 2012 .

[293]  Qing Hua Wang,et al.  Electronics and optoelectronics of two-dimensional transition metal dichalcogenides. , 2012, Nature nanotechnology.

[294]  Qiyuan He,et al.  Fabrication of flexible MoS2 thin-film transistor arrays for practical gas-sensing applications. , 2012, Small.

[295]  M. Otyepka,et al.  Functionalization of graphene: covalent and non-covalent approaches, derivatives and applications. , 2012, Chemical reviews.

[296]  Zhiyuan Zeng,et al.  Electrochemically reduced single-layer MoS₂ nanosheets: characterization, properties, and sensing applications. , 2012, Small.

[297]  Kinam Kim,et al.  Graphene Barristor, a Triode Device with a Gate-Controlled Schottky Barrier , 2012, Science.

[298]  Qiyuan He,et al.  Graphene-based electronic sensors , 2012 .

[299]  R. Potts,et al.  Correlation between sweat glucose and blood glucose in subjects with diabetes. , 2012, Diabetes technology & therapeutics.

[300]  Bo Zhang,et al.  High-perfermance and low-cost ion sensitive sensor array based on self-assembled graphene , 2012 .

[301]  Akshay M. Phulgirkar,et al.  Flexible, all-organic chemiresistor for detecting chemically aggressive vapors. , 2012, Journal of the American Chemical Society.

[302]  Z. Yin,et al.  Single-layer MoS2 phototransistors. , 2012, ACS nano.

[303]  Hua Zhang,et al.  Fabrication of single- and multilayer MoS2 film-based field-effect transistors for sensing NO at room temperature. , 2012, Small.

[304]  Michael C. McAlpine,et al.  Graphene-based wireless bacteria detection on tooth enamel , 2012, Nature Communications.

[305]  T. Venkatesan,et al.  Mega-electron-volt proton irradiation on supported and suspended graphene: A Raman spectroscopic layer dependent study , 2011 .

[306]  V. Presser,et al.  Two‐Dimensional Nanocrystals Produced by Exfoliation of Ti3AlC2 , 2011, Advanced materials.

[307]  S. Bose,et al.  Recent advances in graphene-based biosensors. , 2011, Biosensors & bioelectronics.

[308]  Qiyuan He,et al.  Graphene-based materials: synthesis, characterization, properties, and applications. , 2011, Small.

[309]  Huiqing Fan,et al.  Selective detection of acetone and gasoline by temperature modulation in zinc oxide nanosheets sensors , 2011 .

[310]  Chunhai Fan,et al.  Metal ion-modulated graphene-DNAzyme interactions: design of a nanoprobe for fluorescent detection of lead(II) ions with high sensitivity, selectivity and tunable dynamic range. , 2011, Chemical communications.

[311]  K. Hata,et al.  A stretchable carbon nanotube strain sensor for human-motion detection. , 2011, Nature nanotechnology.

[312]  Shaojun Guo,et al.  Graphene nanosheet: synthesis, molecular engineering, thin film, hybrids, and energy and analytical applications. , 2011, Chemical Society reviews.

[313]  K. Novoselov,et al.  Micrometer-scale ballistic transport in encapsulated graphene at room temperature. , 2011, Nano letters.

[314]  A. Radenović,et al.  Single-layer MoS2 transistors. , 2011, Nature nanotechnology.

[315]  J. Coleman,et al.  Two-Dimensional Nanosheets Produced by Liquid Exfoliation of Layered Materials , 2011, Science.

[316]  K. Shepard,et al.  Boron nitride substrates for high-quality graphene electronics. , 2010, Nature nanotechnology.

[317]  C. Fan,et al.  A graphene-based fluorescent nanoprobe for silver(I) ions detection by using graphene oxide and a silver-specific oligonucleotide. , 2010, Chemical communications.

[318]  Yuyan Shao,et al.  Nitrogen-doped graphene and its application in electrochemical biosensing. , 2010, ACS nano.

[319]  Dong Xiang,et al.  Metal Oxide Gas Sensors: Sensitivity and Influencing Factors , 2010, Sensors.

[320]  Chunhai Fan,et al.  A Graphene Nanoprobe for Rapid, Sensitive, and Multicolor Fluorescent DNA Analysis , 2010 .

[321]  Yu Wang,et al.  The enhanced alcohol-sensing response of ultrathin WO3 nanoplates , 2010, Nanotechnology.

[322]  Girolamo Di Francia,et al.  Conductometric Gas Nanosensors , 2009, J. Sensors.

[323]  Huang-Hao Yang,et al.  A graphene platform for sensing biomolecules. , 2009, Angewandte Chemie.

[324]  T. Tang,et al.  Direct observation of a widely tunable bandgap in bilayer graphene , 2009, Nature.

[325]  Tao Luo,et al.  Novel porous single-crystalline ZnO nanosheets fabricated by annealing ZnS(en)0.5 (en = ethylenediamine) precursor. Application in a gas sensor for indoor air contaminant detection , 2009, Nanotechnology.

[326]  B. H. Weiller,et al.  Practical chemical sensors from chemically derived graphene. , 2009, ACS nano.

[327]  R. Kaner,et al.  Graphene-like nano-sheets for surface acoustic wave gas sensor applications , 2009 .

[328]  N. Mohanty,et al.  Graphene-based single-bacterium resolution biodevice and DNA transistor: interfacing graphene derivatives with nanoscale and microscale biocomponents. , 2008, Nano letters.

[329]  Zhuang Liu,et al.  PEGylated nanographene oxide for delivery of water-insoluble cancer drugs. , 2008, Journal of the American Chemical Society.

[330]  J. Coleman,et al.  High-yield production of graphene by liquid-phase exfoliation of graphite. , 2008, Nature nanotechnology.

[331]  Burkhard Raguse,et al.  Gold nanoparticle chemiresistor sensors: direct sensing of organics in aqueous electrolyte solution. , 2007, Analytical chemistry.

[332]  G. Korotcenkov Metal oxides for solid-state gas sensors: What determines our choice? , 2007 .

[333]  K. Novoselov,et al.  Detection of individual gas molecules adsorbed on graphene. , 2006, Nature materials.

[334]  A. Geim,et al.  Two-dimensional gas of massless Dirac fermions in graphene , 2005, Nature.

[335]  Joseph Wang Nanomaterial-based electrochemical biosensors. , 2005, The Analyst.

[336]  R. C. Hughes,et al.  Enhanced detection of m-xylene using a preconcentrator with a chemiresistor sensor , 2005 .

[337]  P. Kim,et al.  Fabrication and electric-field-dependent transport measurements of mesoscopic graphite devices , 2004, cond-mat/0410314.

[338]  Andre K. Geim,et al.  Electric Field Effect in Atomically Thin Carbon Films , 2004, Science.

[339]  Yajun Wang,et al.  Surface chemistry of boron oxidation. 1. Reactions of oxygen and water with boron films grown on tantalum(110) , 1993 .

[340]  S. Morrison,et al.  Single-layer MoS2 , 1986 .

[341]  Antonio J. Ricco,et al.  Surface acoustic wave gas sensor based on film conductivity changes , 1985 .

[342]  H. Wohltjen Mechanism of Operation and Design Considerations for Surface Acoustic Wave Device Vapor Sensors. , 1984 .