贺竞辉

发布时间:2023-08-18浏览次数:1295

  • 1、Tuning memory performances from WORM to flash or DRAM by structural tailoring with different donor moieties,ZHOU F, HE J H, LIU Q, et al.,2014,2(36)
  • 2、The substituent group effect on the morphology and memory performance of phenazine derivatives,GU P Y, MA Y, HE J H, et al.,2015,3(13)
  • 3、Synthesis, Physical Properties, and Light-Emitting Diode Performance of Phenazine-Based Derivatives with Three, Five, and Nine Fused Six-Membered Rings,GU P Y, ZHAO Y B, HE J H, et al.,2015,80(6)
  • 4、Multilevel Conductance Switching of a Memory Device Induced by Enhanced Intermolecular Charge Transfer,GU Q F, HE J H, CHEN D Y, et al.,2015,27(39)
  • 5、Triggering DRAM/SRAM memory behaviors by single atom substitution to alter the molecular planarity,HU H Y, HE J H, ZHUANG H, et al.,2015,3(33)
  • 6、Controlling Crystallite Orientation of Diketopyrrolopyrrole-Based Small Molecules in Thin Films for Highly Reproducible Multilevel Memory Device: Role of Furan Substitution,LI Y, LI H, CHEN H F, et al.,2015,25(27)
  • 7、Effect of single atom substitution in benzochalcogendiazole acceptors on the performance of ternary memory devices,LIU Z J, HE J H, ZHUANG H, et al.,2015,3(35)
  • 8、Two quinoxaline derivatives designed from isomer chemistry for nonvolatile ternary memory device applications,SHI E B, ZHUANG H, LIU Z J, et al.,2015,12266-73
  • 9、Changing the stability of polymer-based memory devices in high conductivity state via tuning the red-ox property of Hemin,ZHANG C Y, HE J H, LU C J, et al.,2015,70343-50
  • 10、Improved ternary memory performance of donor-acceptor structured molecules through cyano substitution,ZHANG Q J, ZHUANG H, HE J H, et al.,2015,3(26)
  • 11、Altering the Position of Phenyl Substitution to Adjust Film Morphology and Memory Device Performance,ZHOU Q H, BO R C, HE J H, et al.,2015,10(7)
  • 12、A Robust and Cost-Effective Superhydrophobic Graphene Foam for Efficient Oil and Organic Solvent Recovery,ZHU H G, CHEN D Y, AN W, et al.,2015,11(39)
  • 13、Graphene Foam with Switchable Oil Wettability for Oil and Organic Solvents Recovery,ZHU H G, CHEN D Y, LI N J, et al.,2015,25(4)
  • 14、Comparison of two strategies to improve organic ternary memory performance: 3-Hexylthiophene linkage and fluorine substitution,BAO Q, LI H, LI Y, et al.,2016,130306-13
  • 15、Comparison of two strategies to improve organic ternary memory performance: 3-Hexylthiophene linkage and fluorine substitution,BAO Q, LI H, LI Y, et al.,2016,130306-13
  • 16、Insertion of conjugated bridges in organic backbone for better multilevel memory performance: The role of alkynyl group,BAO Q, ZHANG Q J, LI Y, et al.,2016,28155-62
  • 17、A facile method to fabricate a double-layer stainless steel mesh for effective separation of water-in-oil emulsions with high flux,CAI Y H, CHEN D Y, LI N J, et al.,2016,4(48)
  • 18、Micro-Nanocomposites in Environmental Management,CHEN D Y, ZHU H G, YANG S, et al.,2016,28(47)
  • 19、Towards Highly-Efficient Phototriggered Data Storage by Utilizing a Diketopyrrolopyrrole-Based Photoelectronic Small Molecule,LI Y, LI H, HE J H, et al.,2016,11(14)
  • 20、Inserting Thienyl Linkers into Conjugated Molecules for Efficient Multilevel Electronic Memory: A New Understanding of Charge-Trapping in Organic Materials,LI Y, LI H, HE J H, et al.,2016,11(6)
  • 21、Organic Multilevel Memory Devices of Long-Term Environmental Stability via Incorporation of Fluorine,LIU Z J, HE J H, LI H, et al.,2016,2(5)
  • 22、Improving organic memory performance through mounting conjugated branches on a triphenylamine core,SHI E B, HE J H, ZHUANG H, et al.,2016,4(13)
  • 23、Hollow porous carbon nitride immobilized on carbonized nanofibers for highly efficient visible light photocatalytic removal of NO,WU H X, CHEN D Y, LI N J, et al.,2016,8(23)
  • 24、Adjusting the Proportion of Electron-Withdrawing Groups in a Graft Functional Polymer for Multilevel Memory Performance,WU L X, WANG P, ZHANG C Y, et al.,2016,11(1)
  • 25、Negative effect on molecular planarity to achieve organic ternary memory: triphenylamine as the spacer,XIA S G, HE J H, LI H, et al.,2016,59(6)
  • 26、Surface-Nanoengineered Bacteria for Efficient Local Enrichment and Biodegradation of Aqueous Organic Wastes: Using Phenol as a Model Compound,YANG S, CHEN D Y, LI N J, et al.,2016,28(15)
  • 27、Ternary Flexible Electro-resistive Memory Device based on Small Molecules,ZHANG Q J, HE J H, ZHUANG H, et al.,2016,11(10)
  • 28、Rational Design of Small Molecules to Implement Organic Quaternary Memory Devices,ZHANG Q J, HE J H, ZHUANG H, et al.,2016,26(1)
  • 29、Efficient simultaneous adsorption-biodegradation of high-concentrated N, N-dimethylformamide from water by Paracoccus denitrificans-graphene oxide microcomposites,ZHENG Y, CHEN D Y, LI N J, et al.,2016,6
  • 30、Flexible Electrospun Carbon Nanofiber/Tin(IV) Sulfide Core/Sheath Membranes for Photocatalytically Treating Chromium(VI)-Containing Wastewater,ZHONG Y L, QIU X, CHEN D Y, et al.,2016,8(42)
  • 31、Fabrication of Unique Magnetic Bionanocomposite for Highly Efficient Removal of Hexavalent Chromium from Water,ZHONG Y L, QIU X, CHEN D Y, et al.,2016,6
  • 32、A versatile and cost-effective reduced graphene oxide-crosslinked polyurethane sponge for highly effective wastewater treatment,ZHU H G, CHEN D Y, YANG S, et al.,2016,6(44)
  • 33、A Robust Absorbent Material Based on Light-Responsive Superhydrophobic Melamine Sponge for Oil Recovery,ZHU H G, YANG S, CHEN D Y, et al.,2016,3(5)
  • 34、Nanofibrous metal-organic framework composite membrane for selective efficient oil/water emulsion separation,CAI Y H, CHEN D Y, LI N J, et al.,2017,54310-7
  • 35、A novel strategy to immobilize bacteria on polymer particles for efficient adsorption and biodegradation of soluble organics,CAI Y H, YANG S, CHEN D Y, et al.,2017,9(32)
  • 36、Poly(3,4-ethylenedioxythiophene)-Poly(styrenesulfonate) Interlayer Insertion Enables Organic Quaternary Memory,CHENG X F, HOU X, QIAN W H, et al.,2017,9(33)
  • 37、1D pi-d Conjugated Coordination Polymers for Multilevel Memory of Long-Term and High-Temperature Stability,CHENG X F, SHI E B, HOU X, et al.,2017,3(8)
  • 38、Upgrading Electroresistive Memory from Binary to Ternary Through Single-Atom Substitution in the Molecular Design,CHENG X F, SHI E B, HOU X, et al.,2017,12(1)
  • 39、Racemic Effect on the Performance of Organic Multilevel Memory: Beyond Molecular Design,CHENG X F, XIA S G, HOU X, et al.,2017,2(11)
  • 40、Bio-Engineered Graphene-Based Cage for Efficient Local Enrichment and Biodegradation of Aqueous Organic Wastes,FAN J X, CHEN D Y, LI N J, et al.,2017,7
  • 41、Surface Engineering of ITO Substrates to Improve the Memory Performance of an Asymmetric Conjugated Molecule with a Side Chain,HOU X, CHENG X F, XIAO X, et al.,2017,12(17)
  • 42、Better Organic Ternary Memory Performance through Self-Assembled Alkyltrichlorosilane Monolayers on Indium Tin Oxide (ITO) Surfaces,HOU X, CHENG X F, ZHOU J, et al.,2017,23(64)
  • 43、Surface engineering to achieve organic ternary memory with a high device yield and improved performance,HOU X, XIAO X, ZHOU Q H, et al.,2017,8(3)
  • 44、In situ fabrication of Bi2O2CO3/MoS2 on carbon nanofibers for efficient photocatalytic removal of NO under visible-light irradiation,HU J D, CHEN D Y, LI N J, et al.,2017,217224-31
  • 45、Molecularly imprinted magnetic microparticles for the simultaneous detection and extraction of Rhodamine B,LI H Y, LI N J, JIANG J, et al.,2017,246286-92
  • 46、Fluorine-Induced Highly Reproducible Resistive Switching Performance: Facile Morphology Control through the Transition between J- and H-Aggregation,LI Y, LIU Z J, LI H, et al.,2017,9(11)
  • 47、Rewritable ternary data storage devices based on polymethacrylate containing pendent azobenzene-naphthalene with the combined effects of conformation change and charge traps,LI Z, WANG M, LI H, et al.,2017,5(33)
  • 48、Coral-inspired nanoscale design of porous SnS2 for photocatalytic reduction and removal of aqueous Cr (VI),QU J F, CHEN D Y, LI N J, et al.,2017,207404-11
  • 49、Urchin-Inspired TiO2@MIL-101 Double-Shell Hollow Particles: Adsorption and Highly Efficient Photocatalytic Degradation of Hydrogen Sulfide,SHENG H B, CHEN D Y, LI N J, et al.,2017,29(13)
  • 50、Different Steric-Twist-Induced Ternary Memory Characteristics in Nonconjugated Copolymers with Pendant Naphthalene and 1,8-Naphthalimide Moieties,WANG M, LI Z, LI H, et al.,2017,12(20)
  • 51、Thermoresponsive Memory Behavior in Metallosupramolecular Polymer-Based Ternary Memory Devices,WANG P, WANG H L, FANG Y, et al.,2017,9(38)
  • 52、Ion-in-Conjugation: Squaraine as an Ultrasensitive Ammonia Sensor Material,XIAO X, CHENG X F, HOU X, et al.,2017,13(2)
  • 53、A novel ternary memory property achieved through rational introduction of end-capping naphthalimide acceptors,ZHANG Q J, HE J H, LI H, et al.,2017,5(31)
  • 54、A Novel Bat-Shaped Dicyanomethylene-4H-pyran-Functionalized Naphthalimide for Highly Efficient Solution-Processed Multilevel Memory Devices,ZHANG Q J, MIAO S F, LI H, et al.,2017,12(12)
  • 55、Highly efficient simultaneous adsorption and biodegradation of a highly-concentrated anionic dye by a high-surface-area carbon-based biocomposite,ZHENG Y, CHEN D Y, LI N J, et al.,2017,179139-47
  • 56、The Application of a Small-Molecule-Based Ternary Memory Device in Transient Thermal-Probing Electronics,ZHOU F, WU B, DONG H L, et al.,2017,29(5)
  • 57、Fabrication of Photocontrolled Surfaces for Oil/Water Separation through Sulfur(VI) Fluoride Exchange,ZHU H G, CHEN D Y, LI N J, et al.,2017,23(59)
  • 58、Dual-layer copper mesh for integrated oil-Water separation and water purification,ZHU H Y, CHEN D Y, LI N J, et al.,2017,200594-600
  • 59、A smart membrane with antifouling capability and switchable oil wettability for high-efficiency oil/water emulsions separation,CAI Y H, CHEN D Y, LI N J, et al.,2018,55569-77
  • 60、Pseudohalide-Induced 2D (CH3 NH3 )2 PbI2 (SCN)2 Perovskite for Ternary Resistive Memory with High Performance,CHENG X F, HOU X, ZHOU J, et al.,2018,14(12)
  • 61、Adsorption and biodegradation of dye in wastewater with Fe3O4@MIL-100 (Fe) core-shell bio-nanocomposites,FAN J X, CHEN D Y, LI N J, et al.,2018,191315-23
  • 62、Fabrication of graphitic-C3N4 quantum dots/graphene-InVO4 aerogel hybrids with enhanced photocatalytic NO removal under visible-light irradiation,HU J D, CHEN D Y, LI N J, et al.,2018,23645-52
  • 63、3D Aerogel of Graphitic Carbon Nitride Modified with Perylene Imide and Graphene Oxide for Highly Efficient Nitric Oxide Removal under Visible Light,HU J D, CHEN D Y, LI N J, et al.,2018,14(19)
  • 64、Recyclable Carbon Nanofibers@Hierarchical I-Doped Bi2O2CO3-MoS2 Membranes for Highly Efficient Water Remediation under Visible-Light Irradiation,HU J D, CHEN D Y, LI N J, et al.,2018,6(2)
  • 65、AgBr-loaded hollow porous carbon nitride with ultrahigh activity as visible light photocatalysts for water remediation,LI X W, CHEN D Y, LI N J, et al.,2018,229155-62
  • 66、One-Step Synthesis of Honeycomb-Like Carbon Nitride Isotype Heterojunction as Low-Cost, High-Performance Photocatalyst for Removal of NO,LI X W, CHEN D Y, LI N J, et al.,2018,6(8)
  • 67、TiO2/sulfonated graphene oxide/Ag nanoparticle membrane: In situ separation and photodegradation of oil/water emulsions,QIAN D L, CHEN D Y, LI N J, et al.,2018,55416-25
  • 68、Engineering 3D Ru/Graphene Aerogel Using Metal-Organic Frameworks: Capture and Highly Efficient Catalytic CO Oxidation at Room Temperature,QU J F, CHEN D Y, LI N J, et al.,2018,14(16)
  • 69、Hollow Porous Carbon with in situ Generated Monodisperse Gold Nanoclusters for Efficient CO Oxidation,QU J F, ZHU H G, CHEN D Y, et al.,2018,10(4)
  • 70、3D ordered MoP inverse opals deposited with CdS quantum dots for enhanced visible light photocatalytic activity,SONG Y, LI N J, CHEN D Y, et al.,2018,238255-62
  • 71、N-Doped and CdSe-Sensitized 3D-Ordered TiO2 Inverse Opal Films for Synergistically Enhanced Photocatalytic Performance,SONG Y, LI N J, CHEN D Y, et al.,2018,6(3)
  • 72、Fluorene, pyrene, and thiophene-based donor-acceptor asymmetric small molecules for solution-processable memory performance,WANG H L, GU P Y, LI H, et al.,2018,15128-34
  • 73、Polysquaraines: Novel humidity sensor materials with ultra-high sensitivity and good reversibility,XIAO X, ZHANG Q J, HE J H, et al.,2018,2551147-52
  • 74、Effects of Single Atom N-Substitution in the Molecular Skeleton on Fabricated Film Quality and Memory Device Performance,ZHANG C, LI Y, ZHANG Q J, et al.,2018,18(3)
  • 75、Preparation of ZnIn2S4 nanosheet-coated CdS nanorod heterostructures for efficient photocatalytic reduction of Cr(VI),ZHANG G P, CHEN D Y, LI N J, et al.,2018,232164-74
  • 76、SnS2/SnO2 heterostructured nanosheet arrays grown on carbon cloth for efficient photocatalytic reduction of Cr(VI),ZHANG G P, CHEN D Y, LI N J, et al.,2018,514306-15
  • 77、The Effect of Random and Block Copolymerization with Pendent Carbozole Donors and Naphthalimide Acceptors on Multilevel Memory Performance,ZHANG Q J, ZHOU J H, LI H, et al.,2018,13(7)
  • 78、Mussel-Inspired Polydopamine Coating for Flexible Ternary Resistive Memory,ZHAO Y Y, CHENG X F, QIAN W H, et al.,2018,13(13)
  • 79、Surface modification of polysquaraines to sense humidity within a second for breath monitoring,ZHOU J, XIAO X, CHENG X F, et al.,2018,271137-46
  • 80、Cyclodextrin-functionalized Ag/AgCl foam with enhanced photocatalytic performance for water purification,ZHU H G, CHEN D Y, LI N J, et al.,2018,53111-7
  • 81、Zeolitic Imidazolate Framework 8-Derived Au@ZnO for Efficient and Robust Photocatalytic Degradation of Tetracycline,GAO B J, ZHOU J, WANG H L, et al.,2019,37(2)
  • 82、Detection of NO2 Down to One ppb Using Ion-in-Conjugation-Inspired Polymer,ZHOU J, CHENG X F, GAO B J, et al.,2019,15(2)
  • 83、Surfactant-Free, One-Step Synthesis of Lead-Free Perovskite Hollow Nanospheres for Trace CO Detection,YE W, HE J H, CAO Q, et al.,2021,33(24)
  • 84、An Ion-In-Conjugation-Boosted Organic Semiconductor Gas Sensor Operating at High Temperature and Immune to Moisture,YU C, HE J H, CHENG X F, et al.,2021,60(28)