纳米医学网遴选2017年04月全球最新纳米医药研究报道（234篇）如下，并将进一步优选TOP valued跟踪研讨：

1、Gold Nanoshell-Based BetulinicAcid Liposomes for Synergistic Chemo-Photothermal Therapy. by Yanping Liu, XuwuZhang, …, Dawei Gao (2017) Nanomedicine (impact factor: 5.7)

2、Charge convertibility and nearinfrared photon co-enhanced cisplatin chemotherapy based on upconversionnanoplatform. by Jiating Xu, Ye Kuang, …, Jun Lin (2017) Biomaterials (impactfactor: 8.4)

3、Preparation, characterization andin vitro biological evaluation of (1:2) phenoxodiol-β-cyclodextrin complex. byEugene M H Yee, James M Hook, …, Naresh Kumar (2017) Carbohydr Polym (impactfactor: 4.2)

4、Submicrometric hypromelloseacetate succinate particles as carrier for soy isoflavones extract with improvedskin penetration performance. by Pasquale Del Gaudio, Paola Russo, …, RitaPatrizia Aquino (2017) Carbohydr Polym (impact factor: 4.2)

5、Dendrimer pre-treatment enhancesthe skin permeation of chlorhexidine digluconate: Characterisation by in vitropercutaneous absorption studies and Time-of-Flight Secondary Ion MassSpectrometry. by Amy M Holmes, David J Scurr, …, Gary P Moss (2017) Eur J PharmSci (impact factor: 3.8)

6、Protective effect of a phenolicextract containing indoline amides from Portulaca oleracea against cognitiveimpairment in senescent mice induced by large dose of D-galactose /NaNO2. byPeipei Wang, Hongxiang Sun, …, Lan Xiang (2017) J Ethnopharmacol (impactfactor: 3.1)

7、Dithiocarbamate to modifymagnetic graphene oxide nanocomposite (Fe3O4-GO): A new strategy for covalentenzyme (lipase) immobilization to fabrication a new nanobiocatalyst forenzymatic hydrolysis of PNPD. by Mohammad Heidarizadeh, Esmail Doustkhah, …,Behzad Zeynizadeh (2017) Int. J. Biol. Macromol. (impact factor: 3.1)

8、Synthetic vaccine nanoparticlestarget to lymph node triggering enhanced innate and adaptive antitumorimmunity. by Sun-Young Kim, Young-Woock Noh, …, Yong Taik Lim (2017)Biomaterials (impact factor: 8.4)

9、A sensitive immunosensor via insitu enzymatically generating efficient quencher for electrochemiluminescenceof iridium complexes doped SiO2 nanoparticles. by Wenbin Liang, Ying Zhuo, …,Ruo Yuan (2017) Biosens Bioelectron (impact factor: 7.5)

10、pH-Responsive pHLIP (pH LowInsertion Peptide) Nanoclusters of Superparamagnetic Iron Oxide Nanoparticlesas a Tumor-selective MRI Contrast Agent. by Yushuang Wei, Rufang Liao, …,Qibing Zhou (2017) Acta Biomater (impact factor: 6)

11、Mesenchymal Stem Cell FateFollowing Non-viral Gene Transfection Strongly Depends on the Choice ofDelivery Vector. by T Gonzalez-Fernandez, B N Sathy, …, D J Kelly (2017) ActaBiomater (impact factor: 6)

12、Metal oxide surfaces for enhancedcolorimetric response in bioassays. by Enock Bonyi, Zeenat Kukoyi, …, KadirAslan (2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

13、Highly sensitive gold-decoratedzinc oxide nanorods sensor for triethylamine working at near room temperature.by Xiaopan Song, Qi Xu, Hongyan Xu, Bingqiang Cao (2017) J Colloid InterfaceSci (impact factor: 3.8)

14、Local delivery of novel MRTF/SRFinhibitors prevents scar tissue formation in a preclinical model of fibrosis.by Cynthia Yu-Wai-Man, Bradley Spencer-Dene, …, Peng T Khaw (2017) Sci Rep(impact factor: 5.2)

15、Development of a new type ofmultifunctional fucoidan-based nanoparticles for anticancer drug delivery. byKun-Ying Lu, Rou Li, …, Fwu-Long Mi (2017) Carbohydr Polym (impact factor: 4.2)

16、Fluorescent carbon dot-gatedmultifunctional mesoporous silica nanocarriers for redox/enzyme dual-responsivetargeted and controlled drug delivery and real-time bioimaging. by Ying Wang,Yu Cui, …, Siling Wang (2017) Eur J Pharm Biopharm (impact factor: 4)

17、Alpha-particle radiotherapy: Forlarge solid tumors diffusion trumps targeting. by Charles Zhu, MichelleSempkowski, …, Stavroula Sofou (2017) Biomaterials (impact factor: 8.4)

18、A Smart Responsive DualAptamers-Targeted Bubble-Generating Nanosystem for Cancer Triplex Therapy andUltrasound Imaging. by Feifei Zhao, Jie Zhou, …, Bin Du (2017) Small (impactfactor: 8.3)

19、Protein-lipid nanohybrids asemerging platforms for drug and gene delivery: Challenges and outcomes. byMohamed Gaber, Waseem Medhat, …, Ahmed Elzoghby (2017) J Control Release(impact factor: 7.4)

20、Development of a HypoxicRadiosensitizer-Prodrug Liposome Delivery DNA Repair Inhibitor DbaitCombination with Radiotherapy for Glioma Therapy. by Hongmei Liu, Yifan Cai, …,Rutong Yu (2017) Adv Healthc Mater (impact factor: 5.8)

21、Multi-compartment encapsulationof communicating droplets and droplet networks in hydrogel as a model forartificial cells. by Mariam Bayoumi, Hagan Bayley, Giovanni Maglia, K TanujSapra (2017) Sci Rep (impact factor: 5.2)

22、Efficient Transfection ofXenobiotic Responsive Element-biosensor plasmid using diether lipid andphosphatidylcholine liposomes in differentiated HepaRG cells. by MaximeDemazeau, Nicolas Quesnot, …, Pascal Loyer (2017) Int J Pharm (impact factor: 4)

23、Kinetics of lipid bilayerpermeation of a series of ionisable drugs and their correlation with humantransporter-independent intestinal permeability. by Katharina F Hermann,Claudia S Neuhaus, …, Sara Belli (2017) Eur J Pharm Sci (impact factor: 3.8)

24、GHK-Cu-liposomes accelerate scaldwound healing in mice by promoting cell proliferation and angiogenesis. byXinying Wang, Baoquan Liu, …, Bin Feng (2017) Wound Repair Regen (impactfactor: 2.6)

25、Single Particle Tracking of HumanImmunodeficiency Virus Type 1 Productive Entry into Human Primary Macrophages.by Qin Li, Wei Li, …, Zongqiang Cui (2017) ACS Nano (impact factor: 13.3)

26、Ultrasmall Ferrites NanoparticlesSynthesized via Dynamic Simultaneous Thermal Decomposition for High-Performanceand Multifunctional T1 Magnetic Resonance Imaging Contrast Agent. by HuanZhang, Li Li, …, Hai Ming Fan (2017) ACS Nano (impact factor: 13.3)

27、Biocatalytic virus capsid asnanovehicle for enzymatic activation of Tamoxifen in tumor cells. by AlejandroTapia-Moreno, Karla Juarez-Moreno, …, Rafael Vazquez-Duhalt (2017) Biotechnol J(impact factor: 3.8)

28、Dextran sulfate nanoparticles asa theranostic nanomedicine for rheumatoid arthritis. by Roun Heo, Dong Gil You,…, Jae Hyung Park (2017) Biomaterials (impact factor: 8.4)

29、Surface imprinted magneticnanoparticles for the selective enrichment and fast separation offluoroquinolones in human serum. by Liming Su, Yulong Jin, Yanyan Huang, RuiZhao (2017) J Sep Sci (impact factor: 2.7)

30、Subcellular-Scale Drug Transportvia Ultrasound-Degradable Mesoporous Nanosilicon to Bypass Cancer DrugResistance. by Bin Kang, Ming-Bo Zheng, …, Hong-Yuan Chen (2017) Small (impactfactor: 8.3)

31、A novel treatment for metastaticlymph nodes using lymphatic delivery and photothermal therapy. by Adewale OOladipo, Oluwatobi S Oluwafemi, …, Tetsuya Kodama (2017) Sci Rep (impactfactor: 5.2)

32、Sequence-Defined Oligoamide DrugConjugates of Pretubulysin and Methotrexate for Folate Receptor Targeted CancerTherapy. by Ines Truebenbach, Jan Gorges, …, Ulrich Lächelt (2017) MacromolBiosci (impact factor: 3.7)

33、One-step formation oflipid-polyacrylic acid-calcium carbonate nanoparticles for co-delivery ofdoxorubicin and curcumin. by Jianqing Peng, Shintaro Fumoto, …, Koyo Nishida(2017) J Drug Target (impact factor: 2.8)

34、Multiparameter Quantification ofLiposomal Nanomedicines at the Single-particle Level by High Sensitivity FlowCytometry. by Chaoxiang Chen, Shaobin Zhu, …, Xiaomei Yan (2017) ACS Appl MaterInterfaces (impact factor: 7.1)

35、Randomized Controlled Trial ofInterscalene Block Compared with Injectable Liposomal Bupivacaine in ShoulderArthroplasty. by Surena Namdari, Thema Nicholson, …, Gerald Williams (2017) JBone Joint Surg Am (impact factor: 5.2)

36、The effect of thermosensitiveliposomal formulations on loading and release of high molecular weightbiomolecules. by Xiaoyi Huang, Min Li, …, Francesco Cellesi (2017) Int J Pharm(impact factor: 4)

37、Liposomes as a Putative Tool toInvestigate NAADP Signaling in Vasculogenesis. by Francesca Di Nezza, EstellaZuccolo, …, Luigi Ambrosone (2017) J. Cell. Biochem. (impact factor: 3.4)

38、A comprehensive mathematicalmodel of drug release kinetics from nano-liposomes, derived from optimizationstudies of cationic PEGylated liposomal doxorubicin formulations for drug-genedelivery. by Fateme Haghiralsadat, Ghasem Amoabediny, …, BehrouzZandieh-Doulabi (2017) Artif Cells Nanomed Biotechnol (impact factor: 2)

39、Liposomal microparticle injectioncan induce myeloid-derived suppressor cells (MDSC)-like cells in vivo. byHiroshi Azuma, Yoichiro Yoshida, …, Mitsuhiro Fujihara (2017) ImmunopharmacolImmunotoxicol (impact factor: 1.6)

40、PEGylated Anionic Magneto-FluorescentNanoassemblies: Impact of their Interface Structure on MRI Contrast andCellular Uptake. by Camille Linot, Julien Poly, …, Eléna Ishow(2017) ACS Appl Mater Interfaces (impact factor: 7.1)

41、Combined effects of scanningultrasound and a tau-specific single chain antibody in a tau transgenic mousemodel. by Rebecca M Nisbet, Ann Van der Jeugd, …, Jürgen Götz (2017) Brain(impact factor: 10.1)

42、Targeting tumor associatedmacrophages (TAMs) via nanocarriers. by Yuvraj Singh, Vivek Kumar Pawar, …,Manish K Chourasia (2017) J Control Release (impact factor: 7.4)

43、The role of image-guidedintensity modulated proton therapy in glioma. by David R Grosshans, RadheMohan, …, Paul D Brown (2017) Neuro-oncology (impact factor: 7.4)

44、U1 Adaptors suppress the KRAS-MYConcogenic axis in human pancreatic cancer xenografts. by Ashley T Tsang, CrissyDudgeon, …, Darren R Carpizo (2017) Mol. Cancer Ther. (impact factor: 5.6)

45、Imaging and targeted therapy ofpancreatic ductal adenocarcinoma using the theranostic sodium iodide symporter(NIS) gene. by Kathrin A Schmohl, Aayush Gupta, …, Christine Spitzweg (2017)Oncotarget (impact factor: 5)

46、Prostate specific membraneantigen (PSMA) from diagnostic to therapeutic target: radionuclide therapycomes of age in prostate cancer. by John A Violet, Michael S Hofman (2017) BJUInt. (impact factor: 4.4)

47、Combinatorial Library Screeningwith Liposomes for Discovery of Membrane Active Peptides. by Randy P Carney,Yann Thillier, …, Kit S Lam (2017) ACS Comb Sci (impact factor: 3.3)

48、In vivo inhibition of influenza Avirus replication by RNA interference targeting the PB2 subunit viaintratracheal delivery. by Daniel Tsung-Ning Huang, Chun-Yi Lu, …, Li-Min Huang(2017) PLoS ONE (impact factor: 3.1

49、Functional Delivery ofLipid-Conjugated siRNA by Extracellular Vesicles. by Aisling J OLoughlin, ImreMäger, …, Pieter Vader (2017) Mol. Ther. (impact factor: 6.9)

50、Progressive slowdown/preventionof cellular senescence by CD9-targeted delivery of rapamycin usinglactose-wrapped calcium carbonate nanoparticles. by Raj Kumar Thapa, Hanh ThuyNguyen, …, Jong Oh Kim (2017) Sci Rep (impact factor: 5.2)

51、A Strategy for Precise Treatmentof Cardiac Malignant Neoplasms. by Wenshuo Wang, Jinqiang Shen, …, Limin Xia(2017) Sci Rep (impact factor: 5.2)

52、Peptide-Drug Conjugate: A NovelDrug Design Approach. by Liang Ma, Chao Wang, …, Kun Huang (2017) Curr. Med.Chem. (impact factor: 3.5)

53、Therapeutic gene editing:delivery and regulatory perspectives. by Gayong Shim, Dongyoon Kim, …,Yu-Kyoung Oh (2017) Acta Pharmacol. Sin. (impact factor: 3.2)

54、Integration of PET/MR HybridImaging into Radiation Therapy Treatment. by Tong Zhu, Shiva Das, Terence ZWong (2017) Magn Reson Imaging Clin N Am (impact factor: 1.9)

55、Ultra-Small SemimetalNanoparticles of Bismuth for Dual-Modal Computed Tomography/PhotoacousticImaging and Synergistic Thermoradiotherapy. by Xujiang Yu, Ang Li, …, Wanwan Li(2017) ACS Nano (impact factor: 13.3)

56、Poly(HEMA-co-HEMA-PFPA):Synthesis and preparation of stable micelles encapsulating imagingnanoparticles. by Madanodaya Sundhoro, Jaehyeung Park, …, Mingdi Yan (2017) JColloid Interface Sci (impact factor: 3.8)

57、Engineering self-assembledmaterials to study and direct immune function. by Lisa H Tostanoski,Christopher M Jewell (2017) Adv. Drug Deliv. Rev. (impact factor: 15.6)

58、Novel lipoproteoplex deliversKeap1 siRNA based gene therapy to accelerate diabetic wound healing. by Piul SRabbani, Anna Zhou, …, Daniel J Ceradini (2017) Biomaterials (impact factor:8.4)

59、Design of Y-shaped targetingmaterial for liposome-based multifunctional glioblastoma-targeted drugdelivery. by Zakia Belhadj, Man Ying, …, Weiyue Lu (2017) J Control Release(impact factor: 7.4)

60、Nanoscale Functional Biomaterialsfor Cancer Theranostics. by Linying Liu, Xiaoshuang Li, Lei Chen, Xin Zhang(2017) Curr. Med. Chem. (impact factor: 3.5)

61、Optimized formulation ofmultivesicular liposomes loaded with oleanolic acid enhanced anticancer effectin vitro. by Yunlong Wang, Yuling Luo, …, Zhirong Zhong (2017) Drug Des DevelTher (impact factor: 2.9) Free full text

62、Technological and TheoreticalAspects for Testing Electroporation on Liposomes. by Agnese Denzi, Elena DellaValle, …, Micaela Liberti (2017) Biomed Res Int (impact factor: 2.1)

63、Osteogenic Sarcoma: SystemicChemotherapy Options for Localized Disease. by Douglas J Harrison, Cindy LSchwartz (2017) Curr Treat Options Oncol (impact factor: 2.1)

64、Lipid nanoparticle-basedco-delivery of epirubicin and BCL-2 siRNA for enhanced intracellular drugrelease and reversing multidrug resistance. by Miao Yu, Shangcong Han, …, YongSun (2017) Artif Cells Nanomed Biotechnol (impact factor: 2)

65、A Carbon Nanotube Optical SensorReports Nuclear Entry via a Noncanonical Pathway. by Januka Budhathoki-Uprety,Rachel E Langenbacher, …, Daniel A Heller (2017) ACS Nano (impact factor: 13.3)

66、Multi-step encapsulation ofchemotherapy and gene silencing agents in functionalized mesoporous silicananoparticles. by Jianliang Shen, Haoran Liu, …, Haifa Shen (2017) Nanoscale(impact factor: 7.8)

67、High oral bioavailability of2-methoxyestradiol in PEG-PLGA micelles-microspheres for cancer therapy. byXinHong Guo, CaiPing Chen, …, ZhenZhong Zhang (2017) Eur J Pharm Biopharm(impact factor: 4)

68、Controlled Synthesis ofNitrogen-Doped Graphene on Ruthenium from Azafullerene. by Xiangmin Fei, JoshuaNeilson, …, Li Gao (2017) Nano Lett. (impact factor: 13.8)

69、The Distance-Dependence ofInter-Particle Energy Transfer in the Near-Infrared within ElectrostaticAssemblies of PbS Quantum Dots. by Mohamad S Kodaimati, Chen Wang, …, Emily AWeiss (2017) ACS Nano (impact factor: 13.3)

70、Multiple hyperthermia-mediatedrelease of TRAIL/SPION nanocomplex from thermosensitive polymeric hydrogels forcombination cancer therapy. by Zhi-Qiang Zhang, Soo-Chang Song (2017)Biomaterials (impact factor: 8.4)

71、Molecular imaging based onmetabolic glycoengineering and bioorthogonal click chemistry. by Hong YeolYoon, Heebeom Koo, Kwangmeyung Kim, Ick Chan Kwon (2017) Biomaterials (impactfactor: 8.4)

72、Reticulated vitreous carbon as ascaffold for enzymatic fuel cell designing. by Michal Kizling, Maciej Dzwonek,…, Renata Bilewicz (2017) Biosens Bioelectron (impact factor: 7.5)

73、Dynamic contrast enhanced MRIdetects changes in vascular transport rate constants following treatment withthermally-sensitive liposomal doxorubicin. by Brett Z Fite, AzadehKheirolomoom, …, Katherine W Ferrara (2017) J Control Release (impact factor:7.4)

74、Nanotechnology application tolocal anaesthesia (LA). by Mahmoud Reza Moradkhani, Arash Karimi, BabakNegahdari (2017) Artif Cells Nanomed Biotechnol (impact factor: 2)

75、Effect of Oxygen Affinity ofLiposome-Encapsulated Hemoglobin on Cerebral Ischemia and Reperfusion asDetected by Positron Emission Tomography in Nonhuman Primates. by Akira TKawaguchi, Mariko Yamano, …, Hideo Tsukada (2017) Artif Organs (impact factor:2)

76、Methotraxate-Loaded HybridNanoconstructs Target Vascular Lesions and Inhibit Atherosclerosis Progressionin ApoE(-/-) Mice. by Cinzia Stigliano, Maricela R Ramirez, …, Paolo Decuzzi(2017) Adv Healthc Mater (impact factor: 5.8)

77、Cyclic-RGDyC functionalizedliposomes for dual-targeting of tumor vasculature and cancer cells inglioblastoma: An in vitro boron neutron capture therapy study. by Weirong Kang,Darren Svirskis, …, Zimei Wu (2017) Oncotarget (impact factor: 5)

78、Prostate Cancer Stem Cells andNanotechnology: A Focus on Wnt Signaling. by Wei Qin, Yongjiang Zheng, Bin-ZhiQian, Meng Zhao (2017) Front Pharmacol (impact factor: 4.4)

79、Mapping cell behavior across awide range of vertical silicon nanocolumn densities. by Nina Buch-Månson, Dong-HeeKang, …, Karen L Martinez (2017) Nanoscale (impact factor: 7.8)

80、Modified n-HA/PA66 scaffolds withchitosan coating for bone tissue engineering: cell stimulation and drugrelease. by Qin Zou, Junfeng Li, …, Yubao Li (2017) J Biomater Sci Polym Ed(impact factor: 1.7)

81、Evaluation of The MiStentsustained sirolimus eluting biodegradable polymer coated stent for thetreatment of coronary artery disease: Does uniform sustained abluminal drugrelease result in earlier strut coverage and better safety profile? by Ruben YG Tijssen, Robin P Kraak, …, Joanna J Wykrzykowska (2017) Expert Rev MedDevices (impact factor: 1.8)

82、Tumor Microenvironment-TriggeredAggregation of Antiphagocytosis (99m) Tc-Labeled Fe3 O4 Nanoprobes for EnhancedTumor Imaging In Vivo. by Zhenyu Gao, Yi Hou, …, Mingyuan Gao (2017) Adv.Mater. Weinheim (impact factor: 19)

83、Tunneling nanotubes facilitateautophagosome transfer in the leukemic niche. by B de Rooij, R Polak, …, M Lden Boer (2017) Leukemia (impact factor: 12.1)

84、Nanotubular topography enhancesthe bioactivity of titanium implants. by Jingyan Huang, Xinchun Zhang, …, YanWang (2017) Nanomedicine (impact factor: 5.7)

85、Recent advances in carbon basednanosystems for cancer theranostics. by Shine Augustine, Jay Singh, …, Bansi DMalhotra (2017) Biomater Sci (impact factor: 3.6)

86、Spatio-temporal control strategyof drug delivery systems based nano structures. by Nahla Rahoui, Bo Jiang,Nadia Taloub, Yu Dong Huang (2017) J Control Release (impact factor: 7.4)

87、Repurposing bacterial toxins forintracellular delivery of therapeutic proteins. by Greg L Beilhartz, SeijiSugiman-Marangos, Roman A Melnyk (2017) Biochem. Pharmacol. (impact factor:5.1)

88、Release of Doxorubicin by aFolate-Grafted, Chitosan-Coated Magnetic Nanoparticle. by Chung-Lin Yang,Jyh-Ping Chen, …, Zi-Xian Liao (2017) Nanomaterials (Basel) (impact factor:2.7)

89、Resonant non-plasmonicnanoparticles for efficient temperature-feedback optical heating. by George PZograf, Mihail I Petrov, …, Pavel A Belov (2017) Nano Lett. (impact factor:13.8)

90、Nano-curcumin safely preventsstreptozotocin-induced inflammation and apoptosis in pancreatic ß-cells foreffective management of type 1 diabetes mellitus. by Raghu Ganugula, MeenakshiArora, …, Majeti N V Ravi Kumar (2017) Br. J. Pharmacol. (impact factor: 5.3)

91、Control of Liposomal Penetrationinto Three-Dimensional Multicellular Tumor Spheroids by Modulating LiposomalMembrane Rigidity. by Yuki Takechi-Haraya, Yukihiro Goda, Kumiko Sakai-Kato(2017) Mol. Pharm. (impact factor: 4.3)

92、Tuning the extent and depth ofpenetration of flexible liposomes in human skin. by Silvia Franzè, GiuliaDonadoni, …, Francesco Cilurzo (2017) Mol. Pharm. (impact factor: 4.3)

93、Activatable near infrared dyeconjugated hyaluronic acid based nanoparticles as a targeted theranostic agentfor enhanced fluorescence/CT/photoacoustic imaging guided photothermal therapy.by Xiaolong Liang, Lei Fang, …, Fan Wang (2017) Biomaterials (impact factor:8.4)

94、Formulation of Carbapenems LoadedGold Nanoparticles to Combat Multi-antibiotic Bacterial Resistance: In vitroAntibacterial Study. by Mohamed A Shaker, Mona I Shaaban (2017) Int J Pharm(impact factor: 4)

95、Antibacterial efficacy of silvernanoparticles against multi-drug resistant clinical isolates from post-surgicalwound infections. by Muthupandi Kasithevar, Prakash Periakaruppan, Saravanan Muthupandian,Mahalakshmi Mohan (2017) Microb. Pathog. (impact factor: 1.9)

96、Label-free upconversionnanoparticles-based fluorescent probes for sequential sensing of Cu(2+),pyrophosphate and alkaline phosphatase activity. by Fangfang Wang, CuilingZhang, …, Yuezhong Xian (2017) Biosens Bioelectron (impact factor: 7.5)

97、A supramolecular nanoparticlesystem based on β-cyclodextrin-conjugated poly-l-lysine and hyaluronic acid forco-delivery of gene and chemotherapy agent targeting hepatocellular carcinoma.by Qingqing Xiong, Mangmang Cui, …, Tianqiang Song (2017) Colloids Surf BBiointerfaces (impact factor: 3.9)

98、Simultaneous removal of Cd(II),Ni(II), Pb(II) and Cu(II) ions via their complexation with HBANSA based on a combinedultrasound-assisted and cloud point adsorption method using CSG-BiPO4/FePO4 asnovel adsorbent: FAAS detection and optimization process. by Shadi Kheirandish,Mehrorang Ghaedi, …, Mohammad Ali Zare (2017) J Colloid Interface Sci (impactfactor: 3.8)

99、One-pot loading high-contentthionine on polydopamine-functionalized mesoporous silica nanosphere forultrasensitive electrochemical immunoassay. by Guosong Lai, Min Zheng, WenjieHu, Aimin Yu (2017) Biosens Bioelectron (impact factor: 7.5)

100、Enhancing tissue permeabilitywith MRI guided preclinical focused ultrasound system in rabbit muscle: Fromnormal tissue to VX2 tumor. by Yao Sun, Xiaobing Xiong, …, King C P Li (2017) JControl Release (impact factor: 7.4)

101、Posttranslationally modified progesteronereceptors direct ligand-specific expression of breast cancer stemcell-associated gene programs. by Todd P Knutson, Thu H Truong, …, Carol ALange (2017) J Hematol Oncol (impact factor: 6.3)

102、A novel chemotherapy drug-freedelivery system composed of three therapeutic aptamers for the treatment ofprostate and breast cancers in vitro and in vivo. by Khalil Abnous, NoorMohammad Danesh, …, Seyed Mohammad Taghdisi (2017) Nanomedicine (impact factor:5.7)

103、Efficient inhibition of influenzaA viral replication in cells by deoxyribozymes delivered by nanocomposites. byMarina Repkova, Asya Levina, …, Valentina Zarytova (2017) Int. J. Antimicrob.Agents (impact factor: 4.1)

104、Multifunctional nanoparticlesself-assembled from polyethylenimine-based graft polymers as efficientanticancer drug delivery. by Jianqin Yan, Ting Su, …, Bin He (2017) ColloidsSurf B Biointerfaces (impact factor: 3.9)

105、Cancer nanotheranostics: A reviewof the role of conjugated ligands for overexpressed receptors. by Lydia Ramzy,Maha Nasr, Abdelkader A Metwally, Gehanne A S Awad (2017) Eur J Pharm Sci(impact factor: 3.8)

106、Development of an intradermal DNAvaccine delivery strategy to achieve single-dose immunity against respiratorysyncytial virus. by Trevor R F Smith, Katherine Schultheis, …, Kate E Broderick(2017) Vaccine (impact factor: 3.4)

107、Therapeutic applications ofliposomal based drug delivery and drug targeting for immune linked inflammatorymaladies: A contemporary view point. by Mahfoozur Rahman, Sarwar Beg, …, VikasKumar (2017) Curr Drug Targets (impact factor: 3)

108、Precision Templated Bottom-UpMulti-Protein Nano-Assembly through Defined Click Chemistry Linkage to DNA. byGabriella Marth, Andrew M Hartley, …, Eugen Stulz (2017) ACS Nano (impactfactor: 13.3)

109、Quercetin Remodels the TumorMicroenvironment to Improve the Permeation, Retention, and Antitumor Effects ofNanoparticles. by Kaili Hu, Lei Miao, …, Leaf Huang (2017) ACS Nano (impactfactor: 13.3)

110、Fullerene-doped polyaniline asnew redox nanoprobe and catalyst in electrochemical aptasensor forultrasensitive detection of Mycobacterium tuberculosis MPT64 antigen in humanserum. by Lijuan Bai, Yuhan Chen, …, Ailong Huang (2017) Biomaterials (impact factor:8.4)

111、Bilirubin nanoparticlepreconditioning protects against hepatic ischemia-reperfusion injury. by JinYong Kim, Dong Yun Lee, …, Sangyong Jon (2017) Biomaterials (impact factor:8.4)

112、The nanoparticle protein coronaformed in human blood or human blood fractions. by Martin Lundqvist, CeciliaAugustsson, …, Tommy Cedervall (2017) PLoS ONE (impact factor: 3.1)

113、A close collaboration of chitosanwith lipid colloidal carriers for drug delivery applications. by LoïcBugnicourt, Catherine Ladaviere (2017) J Control Release (impact factor: 7.4)

114、Macrophage conditioned mediuminduced cellular network formation in MCF-7 cells through enhanced tunnelingnanotube formation and tunneling nanotube mediated release of viablecytoplasmic fragments. by Pooja Patheja, Khageswar Sahu (2017) Exp. Cell Res.(impact factor: 3.4)

115、In situ synthesis of fluorescentmagnetosomes using an organic membrane as a soft template. by Wenjing Ke, JuhuaZhang, Xueqin An, Bo Zhang (2017) Nanoscale (impact factor: 7.8)

116、Human Melanoma-DerivedExtracellular Vesicles Regulate Dendritic Cell Maturation. by Rachel L G Maus,James W Jakub, …, Svetomir N Markovic (2017) Front Immunol (impact factor: 5.7)

117、Targeting the centriolarreplication factor STIL synergizes with DNA damaging agents for treatment ofovarian cancer. by Noa Rabinowicz, Lingegowda S Mangala, …, Shai Izraeli (2017)Oncotarget (impact factor: 5)

118、Particle-based delivery of theHIV envelope protein. by Benedikt Asbach, Ralf Wagner (2017) Curr Opin HIV AIDS(impact factor: 4.4)

119、Impact of lipid composition andphotosensitizer hydrophobicity on the efficiency of light-triggered liposomalrelease. by Julien Massiot, Ali Makky, …, Véronique Rosilio (2017) Phys ChemChem Phys (impact factor: 4.4)

120、Tumor Microenvironment Targetingand Responsive Peptide-based Nanoformulations for Improved Tumor Therapy. byHao Qin, Yanping Ding, …, Guangjun Nie (2017) Mol. Pharmacol. (impact factor:3.9)

121、Exerting Enhanced Permeabilityand Retention Effect Driven Delivery by Ultrafine Iron Oxide Nanoparticles withT1-T2 Switchable Magnetic Resonance Imaging Contrast. by Liya Wang, Jing Huang,…, Hui Mao (2017) ACS Nano (impact factor: 13.3)

122、Cell-borne 2D nanomaterials forefficient cancer targeting and photothermal therapy. by Zhibin Li, JundongShao, …, Paul K Chu (2017) Biomaterials (impact factor: 8.4)

123、Secondary Sensitivity Control ofSilver-Nanowire-Based Resistive-Type Strain Sensors by Geometric Modulation ofthe Elastomer Substrate. by Yunjeong Heo, Youngkyu Hwang, …, Heung Cho Ko(2017) Small (impact factor: 8.3)

124、Evolution of dealloying inducedstrain in nanoporous gold crystals. by Yu-Chen Karen Chen-Wiegart, Ross Harder,David C Dunand, Ian McNulty (2017) Nanoscale (impact factor: 7.8)

125、Robust raspberry-likemetallo-dielectric nanoclusters of critical sizes as SERS substrates. by A LeBeulze, S Gomez-Graña, …, M Treguer-Delapierre (2017) Nanoscale (impact factor:7.8)

126、Nanoscale imaging andspectroscopy of band gap and defects in polycrystalline photovoltaic devices.by Yohan Yoon, Jungseok Chae, …, Nikolai Zhitenev (2017) Nanoscale (impactfactor: 7.8)

127、Cholesterol-Assisted BacterialCell Surface Engineering for Photodynamic Inactivation of Gram-Positive andGram-Negative Bacteria. by Hao-Ran Jia, Ya-Xuan Zhu, Zhan Chen, Fu-Gen Wu(2017) ACS Appl Mater Interfaces (impact factor: 7.1)

128、CE method for the in-process controlof the synthesis of active substances conjugated with gold nanoparticles. byWioleta Maruszak, Elżbieta U Stolarczyk, Krzysztof Stolarczyk (2017) J PharmBiomed Anal (impact factor: 3.2)

129、Silica nanoparticles inducedintrinsic apoptosis in neuroblastoma SH-SY5Y cells via CytC/Apaf-1 pathway. byYanyan Yang, Yongbo Yu, …, Zhiwei Sun (2017) Environ. Toxicol. Pharmacol.(impact factor: 2.2)

130、On-Demand Gas-to-Liquid Processto Fabricate Thermoresponsive Antimicrobial Nanocomposites and Coatings. byBijay Kumar Poudel, Jae Hong Park, Jeong Hoon Byeon (2017) ACS Appl MaterInterfaces (impact factor: 7.1)

131、Control of long-distancecell-to-cell communication and autophagosome transfer in squamous cellcarcinoma via tunneling nanotubes. by Inés Sáenz-de-Santa-María, CristóbalBernardo-Castiñeira, …, María-Dolores Chiara (2017) Oncotarget (impact factor:5)

132、Giant electrostrictive responseand piezoresistivity of emulsion templated nanocomposites. by Alan Luna,Mickael Pruvost, …, Annie Colin (2017) Langmuir (impact factor: 4)

133、Antimicrobial Activity ofMesenchymal Stem Cells: Current Status and New Perspectives of AntimicrobialPeptide-Based Therapies. by Francisca Alcayaga-Miranda, Jimena Cuenca, MarounKhoury (2017) Front Immunol (impact factor: 5.7)

134、Experience with precisiongenomics and tumor board, indicates frequent target identification, butbarriers to delivery. by Alan H Bryce, Jan B Egan, …, Robert R McWilliams(2017) Oncotarget (impact factor: 5)

135、Targeted drug delivery based ongold nanoparticle derivatives. by Mazaher Gholipourmalekabadi, MohammadmahdiMobaraki, …, Alexander Seifalian (2017) Curr. Pharm. Des. (impact factor: 3.1)

136、Poly-cytosine DNA as aHigh-Affinity Ligand for Inorganic Nanomaterials. by Chang Lu, Zhicheng Huang,…, Juewen Liu (2017) Angew. Chem. Int. Ed. Engl. (impact factor: 11.7)

137、Micellar delivery of miR-34amodulator rubone and paclitaxel in resistant prostate cancer. by Di Wen, YangPeng, …, Ram I Mahato (2017) Cancer Res. (impact factor: 8.6)

138、Cell-penetrating peptide CGKRKmediates efficient and widespread targeting of bladder mucosa following focalinjury. by James I Griffin, Siu Kit Kevin Cheng, …, Dmitri Simberg (2017)Nanomedicine (impact factor: 5.7)

139、Dehydroascorbic Acids-modifiedPolymer Micelles Target Cancer Cells to Enhance Anti-tumor Efficacy ofPaclitaxel. by Xiaoyu Pei, Feifei Luo, …, Jie Liu (2017) Sci Rep (impactfactor: 5.2)

140、Dielectric properties of a novelcolloidal oral matrix drug carrier. by Alexander Vol, Orna Gribova, …, YuriFeldman (2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

141、RNA aptamer-based electrochemicalaptasensor for C-reactive protein detection using functionalized silicamicrospheres as immunoprobes. by Junchun Wang, Jinjin Guo, …, Yuzhong Zhang(2017) Biosens Bioelectron (impact factor: 7.5)

142、Dendrimer-conjugated iron oxidenanoparticles as stimuli-responsive drug carriers for thermally-activatedchemotherapy of cancer. by Saumya Nigam, Dhirendra Bahadur (2017) Colloids SurfB Biointerfaces (impact factor: 3.9)

143、Stealth recombinant human serumalbumin nanoparticles conjugating 5-fluorouracil augmented drug delivery andcytotoxicity in human colon cancer, HT-29 cells. by Ankita Sharma, Amanpreet Kaur,…, Jitender Madan (2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

144、Nanoparticle Interactions withthe Immune System: Clinical Implications for Liposome-Based CancerChemotherapy. by Ninh M La-Beck, Alberto A Gabizon (2017) Front Immunol (impactfactor: 5.7)

145、Pulmonary delivery oftriptolide-loaded liposomes decorated with anti-carbonic anhydrase IX antibodyfor lung cancer therapy. by Congcong Lin, Blenda Chi Kwan Wong, …, Zhijun Yang(2017) Sci Rep (impact factor: 5.2)

146、Impact of Surface-ActiveGuanidinium-, Tetramethylguanidinium-, and Cholinium-Based Ionic Liquids onVibrio Fischeri Cells and Dipalmitoylphosphatidylcholine Liposomes. by Antti HRantamäki, Suvi-Katriina Ruokonen, …, Susanne K Wiedmer (2017) Sci Rep (impactfactor: 5.2)

147、Enhanced anti-rheumatic activityof methotrexate-entrapped ultradeformable liposomal gel in adjuvant-inducedarthritis rat model. by Alam Zeb, Omer Salman Qureshi, …, Jin-Ki Kim (2017) IntJ Pharm (impact factor: 4)

148、Gas-forming liposomes preparedusing a liposomal magnetoporation method. by Jae Min Lee, Dong Sup Kwag, YuSeok Youn, Eun Seong Lee (2017) Colloids Surf B Biointerfaces (impact factor:3.9)

149、Preparation, Characterization andCytotoxic Effects of Pegylated Nanoliposomal Containing Carboplatin on OvarianCancer Cell Lines. by Meysam Ebrahimifar, Amir Nili-Ahmadabadi, …, JalalRezaee-Diyan (2017) Indian journal of clinical biochemistry : IJCB

150、Thermal Conductivity Enhancementof Coaxial Carbon@Boron Nitride Nanotube Arrays. by Lin Jing, Majid KabiriSamani, …, Alfred Iing Yoong Tok (2017) ACS Appl Mater Interfaces (impactfactor: 7.1)

151、Synthesis and loading-dependentcharacteristics of nitrogen-doped graphene foam/carbon nanotube/manganese oxideternary composite electrodes for high performance supercapacitors. by TaoCheng, Baozhi Yu, …, Jinbo Bai (2017) J Colloid Interface Sci (impact factor:3.8)

152、Engineering genetic circuitinteractions within and between synthetic minimal cells. by Katarzyna PAdamala, Daniel A Martin-Alarcon, Katriona R Guthrie-Honea, Edward S Boyden(2017) Nat Chem (impact factor: 27.9)

153、Investigating in vitro and invivo αvβ6 integrin receptor-targeting liposomal alendronate for combinatory γδT cell immunotherapy. by Naomi O Hodgins, Wafa T Al-Jamal, …, Khuloud TAl-Jamal (2017) J Control Release (impact factor: 7.4)

154、Impact of Surface-ActiveGuanidinium-, Tetramethylguanidinium-, and Cholinium-Based Ionic Liquids onVibrio Fischeri Cells and Dipalmitoylphosphatidylcholine Liposomes. by Antti HRantamäki, Suvi-Katriina Ruokonen, …, Susanne K Wiedmer (2017) Sci Rep (impactfactor: 5.2)

155、Gas-forming liposomes preparedusing a liposomal magnetoporation method. by Jae Min Lee, Dong Sup Kwag, YuSeok Youn, Eun Seong Lee (2017) Colloids Surf B Biointerfaces (impact factor:3.9)

156、Membrane fusion betweenbaculovirus budded virus-enveloped particles and giant liposomes generatedusing a droplet-transfer method for the incorporation of recombinant membraneproteins. by Misako Nishigami, Takaaki Mori, …, Kanta Tsumoto (2017) ColloidsSurf B Biointerfaces (impact factor: 3.9)

157、The calorimetric properties ofliposomes determine the morphology of dried droplets. by JorgeGonzález-Gutiérrez, Rosendo Pérez-Isidoro, M I Pérez-Camacho, J C Ruiz-Suárez(2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

158、Liposomal curcumin alterschemosensitivity of breast cancer cells to Adriamycin via regulating microRNAexpression. by Siying Zhou, Jian Li, …, Jinhai Tang (2017) Gene (impact factor:2.3)

159、In vitro assay for measuring realtime topotecan release from liposomes: release kinetics and cellularinternalization. by Roger Gilabert-Oriol, Lina Chernov, …, Marcel B Bally(2017) Drug Deliv Transl Res (impact factor: 1.9)

160、Simple Rectangular Gratings as aNear-Field \"Anti-Reflection\" Pattern for GaSb TPV Cells. by HaitongYu, Dong Liu, Zhen Yang, Yuanyuan Duan (2017) Sci Rep (impact factor: 5.2)

161、Introduction ofN-cadherin-binding motif to alginate hydrogels for controlled stem celldifferentiation. by Jae Won Lee, Hyoseok An, Kuen Yong Lee (2017) Colloids SurfB Biointerfaces (impact factor: 3.9)

162、Nanoencapsulation strategies forthe delivery of novel bifunctional antioxidant/σ1 selective ligands. by ClaudiaCarbone, Emanuela Arena, …, Giovanni Puglisi (2017) Colloids Surf BBiointerfaces (impact factor: 3.9)

163、Preparation, characterization,and in vivo study of Rhein Solid Lipid Nanoparticles for oral delivery. byHaiyang Feng, Yuping Zhu, Zhixuan Fu, Dechuan Li (2017) Chem Biol Drug Des(impact factor: 2.8)

164、Poly-cytosine DNA as aHigh-Affinity Ligand for Inorganic Nanomaterials. by Chang Lu, Zhicheng Huang,…, Juewen Liu (2017) Angew. Chem. Int. Ed. Engl. (impact factor: 11.7)

165、Enhanced Response of Metformintowards the Cancer Cells due to Synergism with Multi-walled Carbon Nanotubes inPhotothermal Therapy. by Sweejiang Yoo, Jin Hou, …, Xun Hou (2017) Sci Rep(impact factor: 5.2)

166、Micellar delivery of miR-34amodulator rubone and paclitaxel in resistant prostate cancer. by Di Wen, YangPeng, …, Ram I Mahato (2017) Cancer Res. (impact factor: 8.6)

167、Dehydroascorbic Acids-modifiedPolymer Micelles Target Cancer Cells to Enhance Anti-tumor Efficacy ofPaclitaxel. by Xiaoyu Pei, Feifei Luo, …, Jie Liu (2017) Sci Rep (impactfactor: 5.2)

168、Dual-functional nanoparticles forprecise drug delivery to Alzheimers disease lesions: targeting mechanisms,pharmacodynamics and safety. by Xiaoyao Zheng, Chi Zhang, …, Qizhi Zhang (2017)Int J Pharm (impact factor: 4)

169、Selection of a Novel AptamerAgainst Vitronectin Using Capillary Electrophoresis and Next GenerationSequencing. by Christopher H Stuart, Kathryn R Riley, …, William H Gmeiner(2016) Molecular therapy. Nucleic acids

170、Dual-functional drug liposomes intreatment of resistant cancers. by Li-Min Mu, Rui-Jun Ju, …, Wan-Liang Lu(2017) Adv. Drug Deliv. Rev. (impact factor: 15.6)review

171、Human rhinovirus-inducedinflammatory responses are inhibited by phosphatidylserine containingliposomes. by C A Stokes, R Kaur, …, L C Parker (2017) Mucosal Immunol (impactfactor: 6.1)

172、Effect of size and pegylation ofliposomes and peptide-based synthetic lipoproteins on tumor targeting. by JieTang, Rui Kuai, …, Anna Schwendeman (2017) Nanomedicine (impact factor: 5.7)

173、Polyphenol nanoformulations forcancer therapy: experimental evidence and clinical perspective. by YasaminDavatgaran-Taghipour, Salar Masoomzadeh, …, Mohammad Abdollahi (2017) Int JNanomedicine (impact factor: 4.3)

174、Neuroprotection against apoptosisof SK-N-MC cells using RMP-7- and lactoferrin-grafted liposomes carryingquercetin. by Yung-Chih Kuo, Chien-Wei Tsao (2017) Int J Nanomedicine (impactfactor: 4.3)

175、Useof short interfering RNA delivered by cationic liposomes to enable efficientdown-regulation of PTPN22 gene in human T lymphocytes. by Valentina Perri,Marsha Pellegrino, …, Alessandra Fierabracci (2017) PLoS ONE (impact factor:3.1)

176、 Long-Acting Release Formulationof Exendin-4 Based on Biomimetic Mineralization for Type 2 Diabetes Therapy. byWei Chen, Guohao Wang, …, Xiaoyuan Chen (2017) ACS Nano (impact factor: 13.3)

177、Structure and dynamics ofcetyltrimethylammonium chloride-sodium dodecylsulfate (CTAC-SDS) catanionicvesicles: High-value nano-vehicles from low-cost surfactants. by Irene RussoKrauss, Riccardo Imperatore, …, Gerardino DErrico (2017) J Colloid InterfaceSci (impact factor: 3.8)

178、Tumor acidity-activatable TATtargeted nanomedicine for enlarged fluorescence/magnetic resonanceimaging-guided photodynamic therapy. by Meng Gao, Feng Fan, …, Xianzhu Yang(2017) Biomaterials (impact factor: 8.4)

179、Imaging-guided synergetic therapyof orthotopic transplantation tumor by superselectively arterial administrationof microwave-induced microcapsules. by Shunsong Tang, Changhui Fu, …, XianweiMeng (2017) Biomaterials (impact factor: 8.4)

180、Influence of inflammation andnitric oxide upon platelet aggregation following deposition of diesel exhaustparticles in the airways. by E Smyth, A Solomon, …, M Emerson (2017) Br. J.Pharmacol. (impact factor: 5.3)

181、Different toxicity of anatase andrutile TiO2 nanoparticles on macrophages: Involvement of difference in affinityto proteins and phospholipids. by Qilin Yu, Honggang Wang, …, Mingchun Li(2017) J. Hazard. Mater. (impact factor: 4.8)

182、Nanomolar electrochemicaldetection of caffeic acid in fortified wine samples based on gold/palladiumnanoparticles decorated graphene flakes. by Kokulnathan Thangavelu, Nehru Raja,Shen-Ming Chen, Wei-Cheng Liao (2017) J Colloid Interface Sci (impact factor:3.8)

183、SiRNA Delivery with PEGylatedGraphene Oxide Nanosheets for Combined Photothermal and Genetherapy forPancreatic Cancer. by Feng Yin, Kuan Hu, …, Zigang Li (2017) Theranostics(impact factor: 8.9)

184、A pathogen-specific cargodelivery platform based on mesoporous silica nanoparticles. by Bastian Ruehle,Daniel L Clemens, …, Jeffrey I Zink (2017) J. Am. Chem. Soc. (impact factor:13)

185、Biopolymers codeliveringengineered T cells and STING agonists can eliminate heterogeneous tumors. byTyrel T Smith, Howell F Moffett, …, Matthias T Stephan (2017) J. Clin. Invest.(impact factor: 12.6)

186、Interleukin 3- receptor targetedexosomes inhibit in vitro and in vivo Chronic Myelogenous Leukemia cell growth.by Daniele Bellavia, Stefania Raimondo, …, Riccardo Alessandro (2017)Theranostics (impact factor: 8.9)

187、Recent advances in CO2bubble-generating carrier systems for localized controlled release. by Yu-JungLin, Chieh-Cheng Huang, …, Hsing-Wen Sung (2017) Biomaterials (impact factor:8.4)

188、Effective humoral immune responsefrom a H1N1 DNA vaccine delivered to the skin by microneedles coated withPLGA-based cationic nanoparticles. by Hae-Yong Seok, Jin Yong No, …, Yeu ChunKim (2017) J Control Release (impact factor: 7.4)

189、Chitosan enhances nanoparticledelivery from the reproductive tract to target draining lymphoid organs. byJaehyung Park, Renuka Ramanathan, Linhchi Pham, Kim A Woodrow (2017)Nanomedicine (impact factor: 5.7)

190、Nanomedicine-mediated drugtargeting of cancer stem cells. by Deepika Singh, Aliva Prity Minz, SanjeebKumar Sahoo (2017) Drug Discov. Today (impact factor: 5.6)

191、Pulmonary Delivery ofVirosome-Bound Antigen Enhances Antigen-Specific CD4(+) T Cell ProliferationCompared to Liposome-Bound or Soluble Antigen. by Rebecca A M Blom, MarioAmacker, …, Christophe von Garnier (2017) Front Immunol (impact factor:5.7)

192、Chitosan and hyaluronan coatedliposomes for pulmonary administration of curcumin. by Maria Manconi, MariaLetizia Manca, …, Elias Fattal (2017) Int J Pharm (impact factor: 4)

193、In vitro collapsing colon cancercells by selectivity of disulfiram-loaded charge switchable nanoparticlesagainst cancer stem cells. by Marwa Muhammad Abu-Serie, Fatma Hassan El-Rashidy(2017) Recent Pat Anticancer Drug Discov (impact factor: 3.5)

194、(188)Re-Liposome Can InduceMitochondrial Autophagy and Reverse Drug Resistance for Ovarian Cancer: FromBench Evidence to Preliminary Clinical Proof-of-Concept. by Chia-Ming Chang,Keng-Li Lan, …, Chi-Mu Chuang (2017) Int J Mol Sci (impact factor: 3.3)

195、Hydrophobic Nanoparticles Modifythe Thermal Release Behavior of Liposomes. by Matthew Ryan Preiss, Ashley EHart, Christopher L Kitchens, Geoffrey D Bothun (2017) J Phys Chem B (impactfactor: 3.2)

196、Design of multifunctionalliposome-quantum dot hybrid nanocarriers and their biomedical application. byWenjing Qu, Wenbao Zuo, …, Jianhong Yang (2017) J Drug Target (impact factor:2.8)

197、Gemcitabine IntegratedNano-Prodrug Carrier System. by Seren Hamsici, Melis Sardan Ekiz, …, Mustafa OGuler (2017) Bioconjug. Chem. (impact factor: 4.5)

198、Paradoxical long timespan openingof the hole in self-supported water films of nanometrical thickness. by ZahavaBarkay, Edward Bormashenko (2017) Langmuir (impact factor: 4)

199、Treating normal early gestationplacentae with preeclamptic sera produces extracellular micro and nano vesiclesthat activate endothelial cells. by Xirong Xiao, Fengyi Xiao, …, Qi Chen (2017)J. Reprod. Immunol. (impact factor: 3.2)

200、Core-shell hierarchicalmesostructured silica nanoparticles for gene/chemo-synergetic stepwise therapyof multidrug-resistant cancer. by Lijun Sun, Dangge Wang, …, Jianlin Shi (2017)Biomaterials (impact factor: 8.4)

201、Near-infrared lightstimuli-responsive synergistic therapy nanoplatforms based on the coordinationof tellurium-containing block polymer and cisplatin for cancer treatment. byFeng Li, Tianyu Li, …, Huaping Xu (2017) Biomaterials (impact factor: 8.4)

202、Assembly of Macrocycle DyeDerivatives into Particles for Fluorescence and Photoacoustic Applications. byHoang Dung Lu, Tristan L Lim, …, Robert K Prudhomme (2017) ACS Comb Sci(impact factor: 3.3)

203、Growth inhibition and antibiofilmpotential of Ag nanoparticles coated with lectin, an arthropod immune molecule.by Sangily Jayanthi, Sathappan Shanthi, …, Giovanni Benelli (2017) J.Photochem. Photobiol. B, Biol. (impact factor: 3)

204、Surface-Enhanced Raman Scattering(SERS) Active Gold Nanoparticles Decorated on a Porous Polymer Filter. by LeiChen, Huiying Yan, …, Bing Zhao (2017) Appl Spectrosc (impact factor: 1.8)

205、Glycinated fullerenes fortamoxifen intracellular delivery with improved anticancer activity andpharmacokinetics. by Charu Misra, Manish Kumar, …, Kaisar Raza (2017)Nanomedicine (Lond) (impact factor: 4.9)

206、Zeta-potential-changingnanoparticles conjugated with cell-penetrating peptides for enhancedtransfection efficiency. by Wongsakorn Suchaoin, Arshad Mahmood, KesineeNetsomboon, Andreas Bernkop-Schnürch (2017) Nanomedicine (Lond) (impact factor:4.9)

207、Color-coded intravital imagingdemonstrates a transforming growth factor-beta (TGF-β) antagonist selectivelytargets stromal cells in a human pancreatic cancer orthotopic mouse model. byTakashi Murakami, Yukihiko Hiroshima, …, Robert M Hoffman (2017) Cell Cycle(impact factor: 4)

208、Light/magnetic hyperthermiatriggered drug released from multi-functional thermo-sensitive magnetoliposomesfor precise cancer synergetic theranostics. by Yuxin Guo, Yang Zhang, …, XuanZhu (2017) J Control Release (impact factor: 7.4)

209、Tat-functionalized liposomes forthe treatment of meningitis: an in vitro study. by Caterina Bartomeu Garcia, DiShi, Thomas J Webster (2017) Int J Nanomedicine (impact factor: 4.3)

210、Development of light-drivengas-forming liposomes for efficient tumor treatment. by Jae Min Lee, Yu SeokYoun, Eun Seong Lee (2017) Int J Pharm (impact factor: 4)

211、Effects of various spacersbetween biotin and the phospholipid headgroup on immobilization andsedimentation of biotinylated phospholipid-containing liposomes facilitated byavidin-biotin interactions. by Yasuhisa Sakamoto, Koji Kikuchi, Kazuaki Umeda,Hiroyuki Nakanishi (2017) J. Biochem. (impact factor: 2.4)

212、Effect of the side chain spacerstructure on the pH-responsive properties of polycarboxylates. by AtsushiHarada, Ryoma Teranishi, Eiji Yuba, Kenji Kono (2017) J Biomater Sci Polym Ed(impact factor: 1.7)

213、Vaginal delivery of benzydaminehydrochloride through liposomes dispersed in mucoadhesive gels. by FatmanurTuğcu-Demiröz (2017) Chem. Pharm. Bull. (impact factor: 1.2)

214、Portable aptamer biosensor ofplatelet-derived growth factor-BB using a personal glucose meter with triplyamplified. by Lu Hong, Fu Zhou, …, Guangfeng Wang (2017) Biosens Bioelectron(impact factor: 7.5)

215、EGFR-targeted micelles containingnear-infrared dye for enhanced photothermal therapy in colorectal cancer. byYing-Hsia Shih, Tsai-Yueh Luo, …, Ming-Jium Shieh (2017) J Control Release(impact factor: 7.4)

216、Microfluidic-integrated patternedITO immunosensor for rapid detection of prostate-specific membrane antigenbiomarker in prostate cancer. by Rajesh Seenivasan, Chandra K Singh, …,Sundaram Gunasekaran (2017) Biosens Bioelectron (impact factor: 7.5)

217、Structural and BiologicalProperties of Thermosensitive Chitosan-Graphene Hybrid Hydrogels for SustainedDrug Delivery Applications. by Leyla Saeednia, Li Yao, …, Ramazan Asmatulu(2017) J Biomed Mater Res A (impact factor: 3.3)

218、Influence of adjuvant formulationon inducing immune response in mice immunized with a recombinant serpin fromTrichinella spiralis. by Jing Xu, Xue Bai, …, Xiao Lei Liu (2017) ParasiteImmunol. (impact factor: 1.9)

219、Antibacterial activity andcytocompatibility of an implant coating consisting of TiO2 nanotubes combinedwith a GL13K antimicrobial peptide. by Tao Li, Na Wang, …, Zhenting Zhang(2017) Int J Nanomedicine (impact factor: 4.3)

220、Antigenic GM3 Lactone MimeticMolecule Integrated Mannosylated Glycopeptide Nanofibers for the Activation andMaturation of Dendritic Cells. by Gokhan Gunay, Melis Sardan Ekiz, …, Mustafa OGuler (2017) ACS Appl Mater Interfaces (impact factor: 7.1)

221、Retro-inverso D-peptide-modifiedHA/RHB/pDNA core-shell ternary nanoparticles for the dual-targeted delivery ofshort hairpin RNA-encoding plasmids. by Jijin Gu, Xinyi Chen, Xiaoling Fang,Xianyi Sha (2017) Acta Biomater (impact factor: 6)

222、Tumor antigen glycosaminoglycanmodification regulates antibody-drug conjugate delivery and cytotoxicity. byHelena C Christianson, Julien A Menard, …, Mattias Belting (2017) Oncotarget(impact factor: 5)

223、High Serum Stability of CollagenHybridizing Peptides and Their Fluorophore Conjugates. by Lucas L Bennink,Daniel J Smith, …, S Michael Yu (2017) Mol. Pharm. (impact factor: 4.3)

224、Co-delivery of microRNA-21antisense oligonucleotides and Gemcitabine using nanomedicine for pancreaticcancer therapy. by Yaqing Li, Yinting Chen, …, Linjuan Zeng (2017) Cancer Sci.(impact factor: 3.9)

225、Supported binary liposomevesicle-gold nanoparticle for enhanced label free DNA and protein sensing. byDivya Karutha Pandian, Venkataraman Dharuman (2017) Biosens Bioelectron (impactfactor: 7.5)

226、Doxorubicin-loaded liposomes:enhancing the oral bioavailability by modulation of physicochemical characteristics.by Marjan Daeihamed, Azadeh Haeri, …, Simin Dadashzadeh (2017) Nanomedicine(Lond) (impact factor: 4.9)

227、Prolonged circulation andincreased tumor accumulation of liposomal vincristine in a mouse model ofrhabdomyosarcoma. by Maurizio Roveri, Alice Pfohl, …, Michele Bernasconi (2017)Nanomedicine (Lond) (impact factor: 4.9)

228、Effective intraperitoneal genetransfection system using nanobubbles and ultrasound irradiation. by KoyoNishimura, Shintaro Fumoto, …, Shigeru Kawakami (2017) Drug Deliv (impactfactor: 4.8)

229、Broadening CD4(+) and CD8(+) Tcell responses against hepatitis C virus by vaccination with NS3 overlappingpeptide panels in cross-priming liposomes. by Jonathan Filskov, MarianneMikkelsen, …, Else Marie Agger (2017) J. Virol. (impact factor: 4.6)

230、Conformational changes atcytoplasmic inter-subunit interactions control Kir channel gating. by ShizhenWang, William F Borschel, …, Colin G Nichols (2017) J. Biol. Chem. (impactfactor: 4.3)

231、The effect of intravesicalliposome-based NGF antisense therapy on bladder overactivity and nociception ina rat model of cystitis induced by hydrogen peroxide. by Tsuyoshi Majima,Pradeep Tyagi, …, Naoki Yoshimura (2017) Hum. Gene Ther. (impact factor: 4.1)

232、PEGylated bilirubin nanoparticleas an anti-oxidative and anti-inflammatory demulcent in pancreatic isletxenotransplantation. by Min Jun Kim, Yonghyun Lee, Sangyong Jon, Dong Yun Lee(2017) Biomaterials (impact factor: 8.4)

233、Dual responsive magneticcomposite nanogels for thermo-chemotherapy. by S Indulekha, P Arunkumar, DBahadur, R Srivastava (2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

234、Chitosan nanoparticle-deliveredsiRNA reduces CXCR4 expression and sensitizes breast cancer cells to cisplatin.by Shaonan Yu, Yan Chen, …, Guifeng Liu (2017) Biosci. Rep. (impact factor:2.4)