随着企业之间市场竞争的加剧,企业之间追求差异化的动机不断增强,VI即视觉识别是展示企业独特形象的重要方法和途径,它对于社会公众和目标客户群体解读企业精神和企业形象并进而了解企业价值观和企业理念有着重要的作用。下面是搜素整理的vi设计外文参考文献100个,仅供参考。
vi设计外文参考文献一:
[1]Liang Chen,Jun Chen,Li-Mei Zhu. Two Cu(II) coordination polymers: photocatalytic Cr(VI) reduction and treatment activity on influenza A virus infection by inducing IFITM expression[J]. Arabian Journal of Chemistry,2020.
[2]Silvia Dian Maria van Dijk,Renske Bouman,Ewa H. Folmer,Roos C. den Held,Janet E. Warringa,Radboud M. Marijnissen,Richard C. Oude Voshaar. (Vi)-rushed Into Online Group Schema-Therapy Based Day-Treatment for Older Adults by the COVID-19 Outbreak in the Netherlands[J]. The American Journal of Geriatric Psychiatry,2020.
[3]Salar Bahrami,Mohammad Reza Yaftian,Pourya Najvak,Leila Dolatyari,Hassan Shayani-Jam,Spas D. Kolev. PVDF-HFP based polymer inclusion membranes containing Cyphos? IL 101 and Aliquat? 336 for the removal of Cr(VI) from sulfate solutions[J]. Separation and Purification Technology,2020,250.
[4]Mannar R. Maurya,Reshu Tomar,Puneet Gupta,Fernando Avecilla. Trinuclear cis -dioxidomolybdenum(VI) complexes of compartmental C 3 symmetric ligands: Synthesis, characterization, DFT study and catalytic application for hydropyridines (Hps) via the Hantzsch reaction[J]. Polyhedron,2020,186.
[5]César A. Bravo-Sanabria,Leidy C. Solano-Delgado,Rogelio Ospina-Ospina,Fernando Martínez-Ortega,Gustavo E. Ramírez-Caballero. Incorporation of a dioxo-molybdenum (VI) complex into a titanium-functionalized Zr(IV)-Based metal-organic framework[J]. Microporous and Mesoporous Materials,2020,305.
[6]S Sathya,V Ragul,Vishnu Priya Veeraraghavan,Lalita Singh,M I Niyas Ahamed. An in vitro study on Hexavalent Chromium [Cr(VI)] Remediation using Iron Oxide Nanoparticles Based Beads[J]. Environmental Nanotechnology, Monitoring & Management,2020.
[7]Yawen Cai,Yapeng Ma,Jinghua Feng,Mingyu Zhu,Xin Wang,Zhimin Lv,Ming Fang,Xiaoli Tan,Xiangke Wang. Insight into the performance and mechanism of low-cost phytic acid modified Zn-Al-Ti LMO for U(VI) removal[J]. Chemical Engineering Journal,2020.
[8]Ping Sun,Gang Zhu,Tao Li,Xuekun Li,Qi Shi,Min Xue,Beibei Li. Acidification Chicken Feather as Sorbent for Selectively Achicken feather as sorbent for selectively adsorbing of Cr(VI) ions in aqueous solution[J]. Materials Today Communications,2020,24.
[9]Xiaohuan Tang,Limin Zhou,Zhanggao Le,Yun Wang,Zhirong Liu,Guolin Huang,Adesoji A. Adesina. Preparation of porous chitosan/carboxylated carbon nanotube composite aerogels for the efficient removal of uranium(VI) from aqueous solution[J]. International Journal of Biological Macromolecules,2020,160.
[10]Marta Karman,Micha? Wera,Grzegorz Romanowski. Chiral cis -dioxidomolybdenum(VI) complexes with Schiff bases possessing two alkoxide groups: Synthesis, structure, spectroscopic studies and their catalytic activity in sulfoxidation and epoxidation[J]. Polyhedron,2020,187.
[11]L.A. Smales. Examining the relationship between policy uncertainty and market uncertainty across the G7[J]. International Review of Financial Analysis,2020.
[12]Yaxin Pei,Chen Tao,Zhenmin Ling,Zhengsheng Yu,Jing Ji,Aman Khan,Tursunay Mamtimin,Pu Liu,Xiangkai Li. Exploring novel Cr(VI) remediation genes for Cr(VI)-contaminated industrial wastewater treatment by comparative metatranscriptomics and metagenomics[J]. Science of the Total Environment,2020.
[13]Rahulkumar Rajmani Singh,Alex Whittington,Radhey S. Srivastava. Molybdenum (VI)-catalyzed dehydrative construction of C<ce:glyph name="sbnd">O and C<ce:glyph name="sbnd">S bonds formation via etherification and thioetherification of alcohols and thiols[J]. Molecular Catalysis,2020,492.</ce:glyph></ce:glyph>
[14]Tasrin Shahnaz,Vivek Sharma,Senthilmurugan Subbiah,Selvaraju Narayanasamy. Multivariate optimisation of Cr (VI), Co (III) and Cu (II) adsorption onto nanobentonite incorporated nanocellulose/chitosan aerogel using response surface methodology[J]. Journal of Water Process Engineering,2020,36.
[15]Omer Y. Bakather,N. Zouli,A. Abutaleb,Mohamed A. Mahmoud,A. Daher,Mohamed Hassan,Mubarak A. Eldoma,Saleh O. Alasweda,Adel A. Fowad. Uranium (VI) ions uptake from liquid wastes by Solanum incanum leaves: Biosorption, desorption and recovery[J]. Alexandria Engineering Journal,2020,59(3).
[16]Sara Aguti,Véronique Bolduc,Pierpaolo Ala,Mark Turmaine,Carsten G. B?nnemann,Francesco Muntoni,Haiyan Zhou. Exon-Skipping Oligonucleotides Restore Functional Collagen VI by Correcting a Common COL6A1 Mutation in Ullrich CMD[J]. Molecular Therapy - Nucleic Acids,2020,21.
[17]Jianhua Qu,Yuxin Wang,Xue Tian,Zhao Jiang,Fengxia Deng,Yue Tao,Qun Jiang,Lei Wang,Ying Zhang. KOH-activated porous biochar with high specific surface area for adsorptive removal of chromium (VI) and naphthalene from water: Affecting factors, mechanisms and reusability exploration[J]. Journal of Hazardous Materials,2020.
[18]Xiaochun Zheng,Shoutian Ren,Qixiao Gai,Wenjun Liu. Carbon dot/carbon nitride composites fluorescent probe for the highly selective detection of Cr(VI) ions[J]. Journal of Photochemistry & Photobiology, A: Chemistry,2020,400.
[19]Qingqing Guan,Kexuan Gao,Ping Ning,Rongrong Miao,Liang He. Value-added utilization of paper sludge: Preparing activated carbon for efficient adsorption of Cr(VI) and further hydrogenation of furfural[J]. Science of the Total Environment,2020,741.
[20]Ruijie Yang,Haibing Wang,Meimei Shi,Yongguang Jiang,Yiran Dong,Liang Shi. Biosurfactant rhamnolipid affacts the desorption of sorbed As(III), As(V), Cr(VI), Cd(II) and Pb(II) on iron (oxyhydr)oxides and clay minerals[J]. International Biodeterioration & Biodegradation,2020,153.
[21]Vignesh Thiagarajan,David Jenkins,N. Chandrasekaran,Amitava Mukherjee. Combined effects of nano-TiO 2 and hexavalent chromium towards marine crustacean Artemia salina[J]. Aquatic Toxicology,2020,225.
[22]Peter Rigsby,Emma Beamish,Jason Hockley,Eleanor Atkinson,Krisztina Hitri,Elizabeth Jones,Jae Seung Yang,Firdausi Qadri,Novilia S. Bachtiar,Sean C. Elias,Akshay Goel,Ravipratapnarayan Mishra,Raju Dugyala,Marcela F. Pasetti,James E. Meiring,Maurice Mbewe,Melita A. Gordon,Andrew J. Pollard,Alastair Logan,Sjoerd Rijpkema. Evaluation of a standardised Vi poly- l -lysine ELISA for serology of Vi capsular polysaccharide antibodies[J]. Biologicals,2020.
[23]Yanlei Li,Kaining Han,Zhili Wan,Xiaoquan Yang. Salt reduction in semi-solid food gel vi a inhomogeneous distribution of sodium-containing coacervate: Effect of gum arabic[J]. Food Hydrocolloids,2020,109.
[24]Liqiang Liu,Weiquan Cai,Chengxiong Dang,Bowen Han,Yiting Chen,Rongwei Yi,Jiajie Fan,Jiabin Zhou,Jiahao Wei. One-step vapor-phase assisted hydrothermal synthesis of functionalized carbons: Effects of surface groups on their physicochemical properties and adsorption performance for Cr(VI)[J]. Applied Surface Science,2020.
[25]Zeyun Gao,Mongameli B. Dlamini,Hong Ge,Liping Jiang,Chengyan Geng,Qiujuan Li,Xiaoxia Shi,Yong Liu,Jun Cao. ATF4-mediated autophagy-dependent glycolysis plays an important role in attenuating apoptosis induced by Cr (VI) in A549 cells[J]. Toxicology Letters,2020,331.
vi设计外文参考文献二:
[26]Ling Zhang,Jie Sun,Weiya Niu,Fengming Cao. The synergetic role of rice straw in enhancing the process of Cr(VI) photoreduction by oxalic acid[J]. Environmental Pollution,2020,265(Pt A).
[27]Helge Abildhauge Thomsen,Nina A. Kamennaya,Mikhail V. Zubkov,Jette Buch ?stergaard. Loricate choanoflagellates (Acanthoecida) from warm water seas. VI. Pleurasiga Schiller and Parvicorbicula Deflandre[J]. European Journal of Protistology,2020,75.
[28]Jin Hee Park. Contrasting effects of Cr(III) and Cr(VI) on lettuce grown in hydroponics and soil: Chromium and manganese speciation[J]. Environmental Pollution,2020.
[29]Pavol Hvizdo?,Ján Dusza,George D. Quinn,Tanja Lube,Jér?me Chevalier. Fractography of Advanced Ceramics VI[J]. Journal of the European Ceramic Society,2020.
[30]Natividad Jurado-Campos,Natalia Arroyo-Manzanares,Pilar Vi?as,Lourdes Arce. Quality authentication of Virgin Olive Oils using Orthogonal Techniques and Chemometrics based on individual and high-level data fusion informationRevising the manuscript critically for important intellectual content: Natalia Arroyo-Manzanares, Pilar Vi?as and Lourdes Arce[J]. Talanta,2020.
[31]Xueqing Li,Dongyun Chen,Najun Li,Qingfeng Xu,Hua Li,Jinghui He,Jianmei Lu. Efficient reduction of Cr(VI) by a BMO/Bi 2 S 3 heterojunction via synergistic adsorption and photocatalysis under visible light[J]. Journal of Hazardous Materials,2020,400.
[32]Berna K?rp?nar,Buket Canbaz ?ztürk,N.Füsun ?am,Hakan Akat. Investigations on thermal and radiation shielding properties of the poly(hydroxyethyl methacrylate- co -styrene)/tungsten(VI) oxide composites[J]. Progress in Nuclear Energy,2020,126.
[33]F.F.A Aziz,A.A. Jalil,N.S. Hassan,C.N.C. Hitam,A.F.A. Rahman,A.A. Fauzi. Enhanced visible-light driven multi-photoredox Cr(VI) and p -cresol by Si and Zr interplay in fibrous silica-zirconia[J]. Journal of Hazardous Materials,2020.
[34]Dipti Prava Sahoo,Sulagna Patnaik,Kulamani Parida. An amine functionalized ZnCr LDH/MCM-41 nanocomposite as efficient visible light induced photocatalyst for Cr(VI) reduction[J]. Materials Today: Proceedings,2020.
[35]Vu Thi Trang,Le Thi Tam,Nguyen Van Quy,Vu Ngoc Phan,Hoang Van Tuan,Tran Quang Huy,Ngo Xuan Dinh,Anh-Tuan Le. Enhanced adsorption efficiency of inorganic chromium (VI) ions by using carbon-encapsulated hematite nanocubes[J]. Journal of Science: Advanced Materials and Devices,2020.
[36]Idoia Meaza,Rachel M. Speer,Jennifer H. Toyoda,Haiyan Lu,Sandra S. Wise,Tayler J. Croom-Perez,Abou El-Makarim Aboueissa,John Pierce Wise. Prolonged exposure to particulate Cr(VI) is cytotoxic and genotoxic to fin whale cells[J]. Journal of Trace Elements in Medicine and Biology,2020,62.
[37]Junwei Zhong,Jingyin Li. Aerodynamic performance prediction of NREL phase VI blade adopting biplane airfoil[J]. Energy,2020.
[38]Soma Nag,Nirjhar Bar,Sudip Kumar Das. Cr(VI) removal from aqueous solution using green adsorbents in continuous bed column – statistical and GA-ANN hybrid modelling[J]. Chemical Engineering Science,2020,226.
[39]Mostafa R. Abukhadra,Samar Mohamed Ali,Ahmed M. El-Sherbeeny,Ahmed Tawhid Ahmed Soliman,Abd Elatty E. Abd Elgawad. Effective and environmental retention of some radioactive elements (U (VI), Sr (II), and Ba (II)) within bentonite/zeolite hybrid structure; equilibrium and realistic study[J]. Inorganic Chemistry Communications,2020.
[40]Marta Karman,Grzegorz Romanowski. Cis -dioxidomolybdenum(VI) complexes with chiral tetradentate Schiff bases: Synthesis, spectroscopic characterization and catalytic activity in sulfoxidation and epoxidation[J]. Inorganica Chimica Acta,2020,511.
[41]E.A. Ghoniemy,T.F. Mohammaden,M. Ramadan El-Shahat,M.A. Elkhawaga,M. Mahmoud Rezk,M. Morsi Wessam. Fungal treatment for liquid waste containing U(VI) and Th(IV)[J]. Biotechnology Reports,2020,26.
[42]Chen Wei,Cheng Xiang,Erhui Ren,Ce Cui,Mi Zhou,Hongyan Xiao,Shouxiang Jiang,Guo Yao,Hong Shen,Ronghui Guo. Synthesis of 3D lotus biochar/reduced graphene oxide aerogel as a green adsorbent for Cr(VI)[J]. Materials Chemistry and Physics,2020,253.
[43]Arnab Mukherjee,Anirban Chowdhury,Mrinal K. Adak,Julekha Khatun,Prasanta Dhak,Debasis Dhak. Fluoride adsorption and photoreduction of Cr(VI) using heterogeneous Al 3+ modified mine-waste, an in-situ approach[J]. Journal of Environmental Chemical Engineering,2020,8(3).
[44]Sofia M. Bruno,Tatiana R. Amarante,Filipe A. Almeida Paz,Martyn Pillinger,Anabela A. Valente,Isabel S. Gon?alves. Oxidation of sulfides in aqueous media catalyzed by pyrazole-oxidoperoxido-molybdenum(VI) complexes[J]. Inorganica Chimica Acta,2020,511.
[45]Fang Yuan,Zhiming Sun,Chunquan Li,Ye Tan,Xiangwei Zhang,Shuilin Zheng. Multi-component design and in-situ synthesis of visible-light-driven SnO 2 /g-C 3 N 4 /diatomite composite for high-efficient photoreduction of Cr(VI) with the aid of citric acid[J]. Journal of Hazardous Materials,2020,396.
[46]Sai Teja Neeli,Hema Ramsurn,Chee Yang Ng,Yanqing Wang,Jun Lu. Removal of Cr (VI), As (V), Cu (II), and Pb (II) using cellulose biochar supported iron nanoparticles: A kinetic and mechanistic study[J]. Journal of Environmental Chemical Engineering,2020,8(5).
[47]M. M. Thwala,L. N. Dlamini. Photocatalytic reduction of Cr(VI) using Mg-doped WO<sub>3</sub> nanoparticles[J]. Environmental Technology,2020,41(17).
[48]Du Yaguang,Chrysochoou Maria. Microstructural analyses of Cr(VI) speciation in chromite ore processing residue from the soda ash process.[J]. Journal of hazardous materials,2020,393.
[49]Li Jie,Wu Zheng,Duan Qingyun,Li Xuede,Li Ying,Alsulami Hamed,Alhodaly Mohammed Sh,Hayat Tasawar,Sun Yubing. Simultaneous removal of U(VI) and Re(VII) by highly efficient functionalized ZIF-8 nanosheets adsorbent.[J]. Journal of hazardous materials,2020,393.
[50]Thwala M M,Dlamini L N. Photocatalytic reduction of Cr(VI) using Mg-doped WO<sub>3</sub> nanoparticles.[J]. Environmental technology,2020,41(17).
vi设计外文参考文献三:
[51]Mahmoud Mohamed E,Fekry Nesma A,Abdelfattah Amir M. Removal of uranium (VI) from water by the action of microwave-rapid green synthesized carbon quantum dots from starch-water system and supported onto polymeric matrix.[J]. Journal of hazardous materials,2020,397.
[52]Hu Yutian,Chen Nan,Liu Tong,Feng Chuanping,Ma Linlin,Chen Si,Li Miao. The mechanism of nitrate-Cr(VI) reduction mediated by microbial under different initial pHs.[J]. Journal of hazardous materials,2020,393.
[53]Hethnawi Afif,Khderat Wisal,Hashlamoun Kotaybah,Kanan Amer,Nassar Nashaat N. Enhancing Chromium (VI) removal from synthetic and real tannery effluents by using diatomite-embedded nanopyroxene.[J]. Chemosphere,2020,252.
[54]Kushwaha Bishwajit Kumar,Ali Hayssam M,Siddiqui Manzer H,Singh Vijay Pratap. Nitric oxide-mediated regulation of sub-cellular chromium distribution, ascorbate-glutathione cycle and glutathione biosynthesis in tomato roots under chromium (VI) toxicity.[J]. Journal of biotechnology,2020,318.
[55]Guo Yadan,Li Chenxi,Gong Zhiheng,Guo Yaoping,Wang Xuegang,Gao Bai,Qin Wenjing,Wang Guanghui. Photocatalytic decontamination of tetracycline and Cr(VI) by a novel α-FeOOH/FeS<sub>2</sub> photocatalyst: One-pot hydrothermal synthesis and Z-scheme reaction mechanism insight.[J]. Journal of hazardous materials,2020,397.
[56]Li Mingzhong,Wu Guanhong,Liu Zihan,Xi Xiangyun,Xia Yan,Ning Jing,Yang Dong,Dong Angang. Uniformly coating ZnAl layered double oxide nanosheets with ultra-thin carbon by ligand and phase transformation for enhanced adsorption of anionic pollutants.[J]. Journal of hazardous materials,2020,397.
[57]Tabatabaei Shiva,Forouzesh Rad Bahar,Baghdadi Majid. Semicontinuous enhanced electroreduction of Cr(VI) in wastewater by cathode constructed of copper rods coated with palladium nanoparticles followed by adsorption.[J]. Chemosphere,2020,251.
[58]Deng Shanshan,Bao Yixiang,Cagnetta Giovanni,Huang Jun,Yu Gang. Mechanochemical degradation of perfluorohexane sulfonate: Synergistic effect of ferrate(VI) and zero-valent iron.[J]. Environmental pollution (Barking, Essex : 1987),2020,264.
[59]Li Binrui,Liao Peng,Xie Lin,Li Qianqian,Pan Chao,Ning Zigong,Liu Chongxuan. Reduced NOM triggered rapid Cr(VI) reduction and formation of NOM-Cr(III) colloids in anoxic environments.[J]. Water research,2020,181.
[60]Meena Jairam,Kumar Robin,Singh Mamta,Ahmed Anees,Panda Amulya Kumar. Modulation of immune response and enhanced clearance of Salmonella typhi by delivery of Vi polysaccharide conjugate using PLA nanoparticles.[J]. European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V,2020,152.
[61]Fan Liming,Wang Feng,Zhao Dongsheng,Sun Xinhu,Chen Hongtai,Wang Huaiwei,Zhang Xiutang. Two cadmium(II) coordination polymers as multi-functional luminescent sensors for the detection of Cr(VI) anions, dichloronitroaniline pesticide, and nitrofuran antibiotic in aqueous media.[J]. Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy,2020,239.
[62]张友恒,刘佳慰,程小桂.川续断皂苷Ⅵ对大鼠颈总动静脉旁路血栓作用研究[J/OL].今日药学:1-8[2020-07-01].http://kns.cnki.net/kcms/detail/44.1650.R.20200629.1602.006.html.
[63]Ochoa-Grullón J,Orte C,Rodríguez de la Pe?a A,Guevara-Hoyer K,Cordero Torres G,Fernández-Arquero M,Serrano-García I,Recio M J,Pérez de Diego R,Sánchez-Ramón S. Typhim vi immunization assists to discriminate primary antibody responses in hematological malignancies.[J]. MethodsX,2020,7.
[64]M. Izquierdo,S.D. Young,E.H. Bailey,N.M.J. Crout,S. Lofts,S.R. Chenery,G. Shaw. Kinetics of uranium(VI) lability and solubility in aerobic soils[J]. Chemosphere,2020,258.
[65]Sheng Guo,Wei Yang,Liming You,Jun Li,Jinyi Chen,Kun Zhou. Simultaneous reduction of Cr(VI) and degradation of tetracycline hydrochloride by a novel iron-modified rectorite composite through heterogeneous photo-Fenton processes[J]. Chemical Engineering Journal,2020,393.
[66]Zhiqiang Zhao,Cheng Sun,Yang Li,Qilin Yu,Zhen Jin,Mingwei Wang,Lianfu Liang,Yaobin Zhang. Driving microbial sulfur cycle for phenol degradation coupled with Cr(VI) reduction via Fe(III)/Fe(II) transformation[J]. Chemical Engineering Journal,2020,393.
[67]Xing-yun Zou,Fei Xiao,Sheng-rong Liu,Xiao-qiang Cao,Lin Li,Ming Chen,Liang Dong,Xian-jun Lyu,Yu-jie Gai. Preparation and application of CPC/Keggin-Al 30 modified montmorillonite composite for Cr (VI) removal[J]. Journal of Water Process Engineering,2020,37.
[68]Bo Jiang,Qinghe Niu,Chao Li,Nihal Oturan,Mehmet A. Oturan. Outstanding performance of electro-Fenton process for efficient decontamination of Cr(III) complexes via alkaline precipitation with no accumulation of Cr(VI): Important roles of iron species[J]. Applied Catalysis B: Environmental,2020,272.
[69]Yang Lu,Zhongqi Liu,Seung Woon You,Lauren McLoughlin,Bailey Bridgers,Seth Hayes,Xifan Wang,Ruigang Wang,Zhanhu Guo,Evan K. Wujcik. Electrospun carbon/iron nanofibers: The catalytic effects of iron and application in Cr(VI) removal[J]. Carbon,2020,166.
[70]Mrinmoy Misra,Shambo Roy Chowdhury,Tae Il Lee. Sunlight driven decomposition of toxic organic compound, coumarin, p-nitrophenol, and photo reduction of Cr(VI) ions, using a bridge structure of 2nanocomposite[J]. Applied Catalysis B: Environmental,2020,272.
[71]Cong Liu,Xu Cui,Yanhui Li,Qian Duan. A hybrid hollow spheres Cu 2 2 - g -ZnTAPc with spatially separated structure as an efficient and energy-saving day-night photocatalyst for Cr(VI) reduction and organic pollutants removal[J]. Chemical Engineering Journal,2020,399.
[72]Junhao Qin,Qiwen Li,Yanqing Liu,Anyi Niu,Chuxia Lin. Biochar-driven reduction of As(V) and Cr(VI): Effects of pyrolysis temperature and low-molecular-weight organic acids[J]. Ecotoxicology and Environmental Safety,2020,201.
[73]Mohamed E. Mahmoud,Nesma A. Fekry,Amir M. Abdelfattah. Removal of uranium (VI) from water by the action of microwave-rapid green synthesized carbon quantum dots from starch-water system and supported onto polymeric matrix[J]. Journal of Hazardous Materials,2020,397.
[74]Vignesh Nayak,Khantong Soontarapa,R. Geetha Balakrishna,Mahesh Padaki,V. Yu Zadorozhnyy,S.D. Kaloshkin. Influence of TiO 2 charge and BSA-metal ion complexation on retention of Cr (VI) in ultrafiltration process[J]. Journal of Alloys and Compounds,2020,832.
[75]Yasmine Tadjenant,Nahed Dokhan,Alexandre Barras,Ahmed Addad,Roxana Jijie,Sabine Szunerits,Rabah Boukherroub. Graphene oxide chemically reduced and functionalized with KOH-PEI for efficient Cr(VI) adsorption and reduction in acidic medium[J]. Chemosphere,2020,258.
vi设计外文参考文献四:
[76]Haojie Zeng,Zongxue Yu,Liangyan Shao,Xiuhui Li,Meng Zhu,Yuchuan Liu,Xiaofang Feng,Ximei Zhu. Ag 2 CO 3 @UiO-66-NH 2 embedding graphene oxide sheets photocatalytic membrane for enhancing the removal performance of Cr(VI) and dyes based on filtration[J]. Desalination,2020,491.
[77]Hamed Mahmoudi,Mojtaba Bagherzadeh,Saeed Ataie,Reza Kia,Seyed Heydar Moravej,Maryam Zare,Paul R. Raithby,Francesco Ferlin,Luigi Vaccaro. Synthesis and X-ray crystal structure of a Molybdenum(VI) Schiff base complex: Design of a new catalytic system for sustainable olefin epoxidation[J]. Inorganica Chimica Acta,2020,511.
[78]Feiping Zhao,Yongpeng Liu,Samia Ben Hammouda,Bhairavi Doshi,Néstor Guijarro,Xiaobo Min,Chong-Jian Tang,Mika Sillanp??,Kevin Sivula,Shaobin Wang. MIL-101(Fe)/g-C 3 N 4 for enhanced visible-light-driven photocatalysis toward simultaneous reduction of Cr(VI) and oxidation of bisphenol A in aqueous media[J]. Applied Catalysis B: Environmental,2020,272.
[79]Lingyun Li,Fei-Fei Chen,Jianfu Pan,Shenghong Zhong,Liuyi Li,Yan Yu. Amino-functionalized YF 3 :Eu 3+ nanoparticles: A selective two-in-one fluorescent probe for Cr(III) and Cr(VI) detection[J]. Journal of Luminescence,2020,226.
[80]E.M. de la Fournière,N.A. Vega,N.A. Müller,M.E. Debray. MicroPIXE analysis of removal of aqueous U(VI) by S. intermedia and P. stratiotes in the presence of Th(IV)[J]. Nuclear Inst. and Methods in Physics Research, B,2020,477.
[81]Bishwajit Kumar Kushwaha,Hayssam M. Ali,Manzer H. Siddiqui,Vijay Pratap Singh. Nitric oxide-mediated regulation of sub-cellular chromium distribution, ascorbate–glutathione cycle and glutathione biosynthesis in tomato roots under chromium (VI) toxicity[J]. Journal of Biotechnology,2020,318.
[82]Xin Wang,Yawen Cai,Tianhao Han,Ming Fang,Kechang Chen,Xiaoli Tan. Phosphate functionalized layered double hydroxides (phos-LDH) for ultrafast and efficient U(VI) uptake from polluted solutions[J]. Journal of Hazardous Materials,2020,399.
[83]Yadan Guo,Chenxi Li,Zhiheng Gong,Yaoping Guo,Xuegang Wang,Bai Gao,Wenjing Qin,Guanghui Wang. Photocatalytic decontamination of tetracycline and Cr(VI) by a novel α-FeOOH/FeS 2 photocatalyst: One-pot hydrothermal synthesis and Z-scheme reaction mechanism insight[J]. Journal of Hazardous Materials,2020,397.
[84]Rajeev Kumar,M.A. Barakat,Md Abu Taleb,Moaaz K. Seliem. A recyclable multifunctional graphene oxide/SiO 2 @polyaniline microspheres composite for Cu(II) and Cr(VI) decontamination from wastewater[J]. Journal of Cleaner Production,2020,268.
[85]Yang Cheng,Zongshan Zhao,Kui Wu,Tao Zou,Chang Wang,Qi Zheng,Weijie Song. Reversal of the photoinduced majority carriers in polypyrrole by semiconductor-insulator-semiconductor heterostructure and related highly-efficient photoreduction of Cr(VI)[J]. Chemical Engineering Journal,2020,393.
[86]Mingzhong Li,Guanhong Wu,Zihan Liu,Xiangyun Xi,Yan Xia,Jing Ning,Dong Yang,Angang Dong. Uniformly coating ZnAl layered double oxide nanosheets with ultra-thin carbon by ligand and phase transformation for enhanced adsorption of anionic pollutants[J]. Journal of Hazardous Materials,2020,397.
[87]Kai-Yue Chen,Yu-Ting Liu,Yi-Cheng Hsieh,Yu-Min Tzou. Organic fragments newly released from heat-treated peat soils create synergies with dissolved organic carbon to enhance Cr(VI) removal[J]. Ecotoxicology and Environmental Safety,2020,201.
[88]Shuoxun Dong,Yili Wang,Junyi Li,Daxin Zhang,Yanqin Zhou,Yao Tong. Tuning the crosslink structure of cationic hydrogel for enhanced chromium(VI) removal: The covalent and electrostatic co-crosslinked effects and adsorption mechanism[J]. Chemical Engineering Journal,2020,394.
[89]Shanshan Deng,Yixiang Bao,Giovanni Cagnetta,Jun Huang,Gang Yu. Mechanochemical degradation of perfluorohexane sulfonate: Synergistic effect of ferrate(VI) and zero-valent iron[J]. Environmental Pollution,2020,264.
[90]Jiacheng Li,Miao Li,Sai Wang,Xu Yang,Fang Liu,Xiang Liu. Key role of pore size in Cr(VI) removal by the composites of 3-dimentional mesoporous silica nanospheres wrapped with polyaniline[J]. Science of the Total Environment,2020,729.
[91]Yan-Hong Yang,Ying-Hui Shao. Time-dependent lead-lag relationships between the VIX and VIX futures markets[J]. North American Journal of Economics and Finance,2020,53.
[92]Jun Duan,Haodong Ji,Xiao Zhao,Shuting Tian,Xiaona Liu,Wen Liu,Dongye Zhao. Immobilization of U(VI) by stabilized iron sulfide nanoparticles: Water chemistry effects, mechanisms, and long-term stability[J]. Chemical Engineering Journal,2020,393.
[93]Binrui Li,Peng Liao,Lin Xie,Qianqian Li,Chao Pan,Zigong Ning,Chongxuan Liu. Reduced NOM triggered rapid Cr(VI) reduction and formation of NOM-Cr(III) colloids in anoxic environments[J]. Water Research,2020,181.
[94]Dirk G. Baur,Lee A. Smales. Hedging geopolitical risk with precious metals[J]. Journal of Banking and Finance,2020,117.
[95]Chao Lei,Chunwei Wang,Wenqian Chen,Miaohua He,Binbin Huang. nanomaterials for highly efficient simultaneous adsorption and in-situ chemical reduction of hexavalent chromium: Removal efficacy and mechanisms[J]. Science of the Total Environment,2020,733.
[96]Xu Liang,Fu Fenglian. Se(IV) oxidation by ferrate(VI) and subsequent in-situ removal of selenium species with the reduction products of ferrate(VI): performance and mechanism.[J]. Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering,2020,55(5).
[97]Rout Sabyasachi,Muduli Bikash,Kumar Ajay,Pulhani Vandana. Removal of uranium(VI) from water using hydroxyapatite coated activated carbon powder nanocomposite.[J]. Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering,2020,55(5).
[98]Li Yanqi,Chen Lin,Zhang Pansong,Bhagirath Anjali Y,Duan Kangmin. ClpV3 of the H3-Type VI Secretion System (H3-T6SS) Affects Multiple Virulence Factors in Pseudomonas aeruginosa .[J]. Frontiers in microbiology,2020,11.
[99]Collocott Shirley J F,Kelly Edel,Foster Michael,Myhr Heidi,Wang Amy,Ellis Richard F. A randomized clinical trial comparing early active motion programs: Earlier hand function, TAM, and orthotic satisfaction with a relative motion extension program for zones V and VI extensor tendon repairs.[J]. Journal of hand therapy : official journal of the American Society of Hand Therapists,2020,33(1).
[100]Wang Yue,Hao Jiajia,Zhang Shuo,Li Liping,Wang Run,Zhu Yiran,Liu Yongxia,Liu Jianzhu. Inflammatory injury and mitophagy induced by Cr(VI) in chicken liver.[J]. Environmental science and pollution research international,2020,27(18).
以上就是vi设计外文参考文献的分享,希望看后对你有所帮助。