纳米医学网遴选2017年05月全球最新纳米医药研究报道（240篇）如下，并将进一步优选TOP valued跟踪研讨：

1、Engineering and delivery ofnanocolloids of hydrophobic drugs.by Luyang Zhao, Guizhi Shen,Guanghui Ma, Xuehai Yan (2017) Adv Colloid Interface Sci (impact factor: 7.8)

2、Regulation of neuromuscular junctionorganization by Rab2 and its effector ICA69 in Drosophila.byBhagaban Mallik, Manish Kumar Dwivedi, …, Vimlesh Kumar (2017) Development(impact factor: 6.1)

3、Lipid based nanocarriers system fortopical delivery of photosensitizers.by Shadab Md, ShadabulHaque, …, Prashant Kesharwani (2017) Drug Discov. Today (impact factor: 5.6)

4、Development and Evaluation ofInjectable Nanosized Drug Delivery Systems for Apigenin.by ReatulKarim, Claudio Palazzo, …, Géraldine Piel (2017) Int J Pharm (impact factor: 4)

5、Sustained delivery of siRNA poly- andlipopolyplexes from porous macromer-crosslinked gelatin gels.byK Schwabe, A Ewe, …, M Schulz-Siegmund (2017) Int J Pharm (impact factor: 4)

6、Withaferin-A, a steroidal lactoneEncapsulated mannose decorated liposomes ameliorates rheumatoid arthritis byintriguing the macrophage repolarization in adjuvant-induced arthritic rats.byFarhath Sultana, Manoj Kumar Neog, MahaboobKhan Rasool (2017) Colloids Surf BBiointerfaces (impact factor: 3.9)

7、Polyamine-RNA-membrane interactions:From the past to the future in biology.by Carlos Acosta-Andrade,Ibai Artetxe, …, Francisca Sánchez-Jiménez (2017) Colloids Surf B Biointerfaces(impact factor: 3.9)

8、Assisted and Unassisted ProteinInsertion into Liposomes.by Andreas Kuhn, Maximilian Haase,Sebastian Leptihn (2017) Biophys. J. (impact factor: 3.6)

9、Long non-coding RNA HOTAIR enhancesradioresistance in MDA-MB231 breast cancer cells.by Yun Zhou,Chaoqun Wang, …, Haitao Yin (2017) Oncol Lett (impact factor: 1.5)

10、Delivery of Cargo to Lysosomes UsingGNeosomes.by Kristina M Hamill, Ezequiel Wexselblatt, …,Yitzhak Tor (2017) Methods in molecular biology (Clifton, N.J.)

11、Novelnano-semiconductor filmlayer supportednano-Pd Complex Nanostructured Catalyst Pd/Ⓕ-MeOx/ACfor High Efficient Selective Hydrogenation of Phenol to Cyclohexanone.byJiaqi Si, Wenbing Ouyang, …, Jicheng Zhou (2017) Sci Rep (impact factor: 5.2)

12、Bimetallic Bi/Pt peroxidase mimic andits bioanalytical applications.by Gang-Wei Wu, Yi-Min Shen, …,Wei Chen (2017) Anal. Chim. Acta (impact factor: 4.7)

13、Cyclodextrin-based Nanosponges for theTargeted Delivery of the Anti-restenotic Agent DB103: a Novel Opportunity for theLocal Therapy of Vessels Wall Subjected to Percutaneous Intervention.byVito Coviello, Stefania Sartini, …, Concettina La Motta (2017) Eur J PharmBiopharm (impact factor: 4)

14、Insights intoNano- andMicron-Scale Phase Separation in Amorphous Solid Dispersions Using Fluorescence-BasedTechniques in Combination with Solid State Nuclear Magnetic ResonanceSpectroscopy.by Hitesh S Purohit, James D Ormes, …, Lynne STaylor (2017) Pharm. Res. (impact factor: 3.3)

15、First principles study of bimetallicNi13-nAgnnano-clusters (n = 0-13): Structural, mixing, electronic, andmagnetic properties.by Soumendu Datta, A K Raychaudhuri,Tanusri Saha-Dasgupta (2017) J Chem Phys (impact factor: 2.9)

16、Novel green PVA-fullerenol mixedmatrix supported membranes for separating water-THF mixtures by pervaporation.byAnastasia V Penkova, Maria E Dmitrenko, …, Denis Roizard (2017) Environ SciPollut Res Int (impact factor: 2.8)

17、The delivery of siRNA to hepaticstellate cells using a lipidnanoparticle composed of a vitaminA-scaffold lipid-like material.by Naoyuki Toriyabe, YuSakurai, …, Hideyoshi Harahsima (2017) J Pharm Sci (impact factor: 2.6)

18、Paclitaxel loaded magneticnanoparticles: Synthesis, characterization and application in targeting.byJilai Tian, Caiyun Yan, …, Ning Gu (2017) J Pharm Sci (impact factor: 2.6)

19、Assembly of polymer micelles through the sol-gel transition for effective cancer therapy. by Nisar Ul Khaliq, Keun Sang Oh, …, Soon Hong Yuk (2017) J Control Release (impact factor: 7.4)

20、Magnetic headspace adsorptiveextraction of chlorobenzenes prior to thermal desorption gaschromatography-mass spectrometry.by Lorena Vidal, MazaherAhmadi, …, Antonio Canals (2017) Anal. Chim. Acta (impact factor: 4.7)

21、Cobalt nanoparticles supported onN-doped mesoporous carbon as a highly efficient catalyst for the synthesis ofaromatic amines.by Xueliang Cui, Kun Liang, …, Zhengping Dong(2017) J Colloid Interface Sci (impact factor: 3.8)

22、Light-responsive expansion-contractionof sphericalnanoparticlegrafted with azopolymers.byJie Fu, Xinghua Zhang, Bing Miao, Dadong Yan (2017) J Chem Phys (impact factor:2.9)

23、Field-theoretic simulations of blockcopolymer nanocomposites in a constant interfacial tension ensemble.byJason P Koski, Robert A Riggleman (2017) J Chem Phys (impact factor: 2.9)

24、Progress and opportunities forenhancing thedeliveryand efficacy of checkpoint inhibitors forcancer immunotherapy. by David M Francis, Susan N Thomas (2017) Adv. DrugDeliv. Rev. (impact factor: 15.6)

25、pH-sensitivepolymeric nanoparticles for co-deliveryof doxorubicin and curcumin totreat cancer via enhanced pro-apoptotic and anti-angiogenic activities. byJinming Zhang, Jingjing Li, …, Meiwan Chen (2017) Acta Biomater (impact factor:6)

26、Preparation and testing ofcefquinome-loaded poly lactic-co-glycolic acid microspheres for lung targeting.by Shaoqi Qu, Li Zhao, …, Zhihui Hao (2017) Drug Deliv (impact factor: 4.8)

27、Aretro-inverso cell-penetrating peptide for siRNAdelivery. by AnaïsVaissière, Gudrun Aldrian, …, Sébastien Deshayes (2017) J Nanobiotechnology(impact factor: 4.2)

28、Influence of Size and Shape on theAnatomical Distribution of Endotoxin-Free Gold Nanoparticles.byLaura Talamini, Martina Bruna Violatto, …, Paolo Bigini (2017) ACS Nano (impactfactor: 13.3)

29、Conjugation of squalene to gemcitabineas unique approach exploiting endogenous lipoproteins for drug delivery.byDunja Sobot, Simona Mura, …, Patrick Couvreur (2017) Nat Commun (impact factor:11.3)

30、A bioorthogonal nanosystem for imagingand in vivo tumor inhibition.by Bowen Li, Peilian Liu, …,Shuizhu Wu (2017) Biomaterials (impact factor: 8.4)

31、The Recombinant Sea Urchin ImmuneEffector Protein, rSpTransformer-E1, Binds to Phosphatidic Acid and DeformsMembranes.by Cheng Man Lun, Robin L Samuel, …, L CourtneySmith (2017) Front Immunol (impact factor: 5.7)Free full text

32、Liposomal formulation of amethotrexate lipophilic prodrug: assessment in tumor cells and mouse T-cellleukemic lymphoma.by Anna A Alekseeva, Ekaterina V Moiseeva,…, Elena L Vodovozova (2017) Int J Nanomedicine (impact factor: 4.3)Free full text

33、Digitonin does not flip acrosscholesterol-poor membranes.by Helen Y Fan, Heiko Heerklotz (2017)J Colloid Interface Sci (impact factor: 3.8)

34、Recent Advances in Ultrasound-based Diagnosisand Therapy with Micro- and Nanometer-sized Formulations.by NihanGüvener, Lia Appold, …, Fabian Kiessling (2017) Methods (impact factor: 3.5)

35、Ligand-modified biopolymericnanoparticles as efficient tools for targeted cancer therapy.byHasan Kouchakzadeh, Tooba Soudi, Niloofar Heshmati Aghda, Seyed AbbasShojaosadati (2017) Curr. Pharm. Des. (impact factor: 3.1)

36、A Review of the Structure,Preparation, and Application of NLCs, PNPs, and PLNs.byQianwen Li, Tiange Cai, …, Yu Cai (2017) Nanomaterials (Basel) (impact factor:2.7)

37、MRI-sensitive contrast agent withanticoagulant activity for surface camouflage of transplanted pancreaticislets.by Yong Hwa Hwang, Min Jun Kim, Dong Yun Lee (2017)Biomaterials (impact factor: 8.4)

38、Direct NMR monitoring of phaseseparation behavior of highly supersaturated nifedipine solution stabilizedwith hypromellose derivatives.by Keisuke Ueda, KenjirouHigashi, Kunikazu Moribe (2017) Mol. Pharm. (impact factor: 4.3)

39、Correction to \"New Insights intoPeptide-SilverNanoparticleInteraction: Deciphering the Role ofCysteine and Lysine in the Peptide Sequence\".by HoracioPoblete, Anirudh Agarwal, …, Emilio I Alarcon (2017) Langmuir (impact factor:4)

40、Nuclear-targetedsiRNAdeliveryfor long-term gene silencing. by Na Li, Huijun Yang,…, Bo Tang (2017) Chem Sci (impact factor: 9.1)

41、An encoded viral micropatch formultiplex cell-based assays through localized genedelivery. by SangkwonHan, Hyung Jong Bae, …, Sunghoon Kwon (2017) Lab Chip (impact factor: 5.6)

42、Self-assemblednanocarriers based on amphiphilic natural polymers for anti-cancerdrugdeliveryapplications. by Sally Sabra, Mona Abdelmoneem, …,Ahmed Elzoghby (2017) Curr. Pharm. Des. (impact factor: 3.1)

43、Catalase-loadedcisplatin-prodrug-constructed liposomes to overcome tumor hypoxia for enhancedchemo-radiotherapy of cancer.by Rui Zhang, Xuejiao Song, …,Zhuang Liu (2017) Biomaterials (impact factor: 8.4)

44、Intracellular delivery ofoligonucleotides in Helicobacter pylori by fusogenic liposomes in the presenceof gastric mucus.by Rita S Santos, George R Dakwar, …, KevinBraeckmans (2017) Biomaterials (impact factor: 8.4)

45、Recent advancements in liposomestargeting strategies to cross blood-brain barrier (BBB) for the treatment ofAlzheimers disease.by Mukta Agrawal, Ajazuddin, …, AmitAlexander (2017) J Control Release (impact factor: 7.4)

46、Rigid aromatic linking moiety incationic lipids for enhanced gene transfection efficiency.byBing Wang, Rui-Mo Zhao, …, Xiao-Qi Yu (2017) Eur J Med Chem (impact factor:3.9)

47、BiocompatibilityofLiposomeNanocarriers in the Rat Inner Ear After IntratympanicAdministration.by Jing Zou, Hao Feng, …, Ilmari Pyykko (2017)Nanoscale Res Lett (impact factor: 2.6)

48、Using potentiometric free drug sensorsto determine the free concentration of ionisable drugs in colloidal systems.byThuy Tran, Anjan Chakraborty, …, Anette Müllertz (2017) J Pharm Sci (impactfactor: 2.6)

49、Linear polysialoside outperformsdendritic analogs for inhibition of influenza virus infection in vitro and invivo.by Sumati Bhatia, Daniel Lauster, …, Rainer Haag (2017)Biomaterials (impact factor: 8.4)

50、Artefact-free Evaluation of MetalEnhanced Fluorescence in Silica Coated Gold Nanoparticles.byTânia Ribeiro, Carlos Baleizão, José Paulo S Farinha (2017) Sci Rep (impactfactor: 5.2)

51、High-throughput continuous productionof liposomes using hydrodynamic flow-focusing microfluidic devices.byMariano Michelon, Davi Rocha Bernardes Oliveira, …, Rosiane Lopes Cunha (2017)Colloids Surf B Biointerfaces (impact factor: 3.9)

52、nRGD modified lycobetaine andoctreotide combination delivery system to overcome multiple barriers andenhance anti-glioma efficacy.by Tijia Chen, Xu Song, …, TaoGong (2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

53、Intestinal toxicity evaluation oflong-circulating and pH-sensitive liposomes loaded with cisplatin.byRaquel Silva Araújo, Ana Letícia Malheiros Silveira, …, Valbert NascimentoCardoso (2017) Eur J Pharm Sci (impact factor: 3.8)

54、Lectin-carbohydrate interactions:implications for the development of new anticancer agents.byEvellyne de Oliveira Figueirôa, Cassia Regina Albuquerque da Cunha, …, MariaTereza Dos Santos Correia (2017) Curr. Med. Chem. (impact factor: 3.5)

55、Stably engineered nanobubbles andultrasound - An effective platform for enhanced macromolecular delivery torepresentative cells of the retina.by Sachin S Thakur, MichealS Ward, …, Harendra S Parekh (2017) PLoS ONE (impact factor: 3.1)

56、Surface-Enhanced RamanScattering-Active Gold Nanoparticles with Enzyme Mimicking Activities forMeasuring Glucose and Lactate in Living Tissues.by Yihui Hu,Hanjun Cheng, …, Hui Wei (2017) ACSNano(impact factor: 13.3)

57、The construction of a novel nucleicacids detection microplatform based on the NSET for one-step detecting TK1-DNAand microRNA-21.by Jian Zhang, Qian Zhao, …, Jin Chang (2017)Biosens Bioelectron (impact factor: 7.5)

58、Self-cascade reaction catalyzed by CuOnanoparticle-based dual-functional enzyme mimics.by Ai-LingHu, Hao-Hua Deng, …, Guo-Lin Hong (2017) Biosens Bioelectron (impact factor:7.5)

59、Isolation of Phenotypically-DistinctCancer Cells UsingNanoparticle-Mediated Sorting.byBrenda Green, Leyla Kermanshah, …, Shana O Kelley (2017) ACS Appl MaterInterfaces (impact factor: 7.1)

60、Engineering the composition andstructure of bimetallic Au-Cu alloy nanoparticles in carbon nanofibers:Self-supported electrode materials for electrocatalytic water splitting.byJuan Wang, Han Zhu, …, MingLiang Du (2017) ACS Appl Mater Interfaces (impactfactor: 7.1)

61、Synthetic MSC? Nothing Beats the RealThing.by Megan M Monsanto, Bingyan J Wang, Mark A Sussman(2017) Circ. Res. (impact factor: 11.6)

62、Self-Expansion Construction ofUltralight CarbonNanotubeAerogels with a 3D and HierarchicalCellular Structure.by Yufeng Luo, Shu Luo, …, Jiaping Wang(2017) Small (impact factor: 8.3)

63、Heterogeneous Integration ofCarbon-Nanotube-Graphene for High-Performance, Flexible, and TransparentPhotodetectors.by Soonjae Pyo, Wondo Kim, …, Jongbaeg Kim(2017) Small (impact factor: 8.3)

64、Deliveringsafer immunotherapies for cancer. by Lauren Milling, Yuan Zhang, Darrell JIrvine (2017) Adv. Drug Deliv. Rev. (impact factor: 15.6)

65、PET-guidedevaluation and optimization of internalized antibody-drug conjugates targetingerythropoietin producing hepatoma A2 receptor. by Orit Jacobson, Haojun Chen,…, Xiaoyuan Chen (2017) J. Nucl. Med. （（impact factor: 5.8)

66、Genomic DNA Interactions MechanizePeptidotoxin-mediated Anti-cancer Nanotherapy. by Santosh K Misra, Aaron SSchwartz-Duval, Dipanjan Pan (2017) Mol. Pharm. (impact factor: 4.3)

67、Sensing of fluoride ions in aqueousmedia using a luminescent coordination polymerandliposomecomposite.by Masayuki Honjo, TomomiKoshiyama, …, Masaaki Ohba (2017) Dalton Trans (impact factor: 4.2)

68、Poly(γ-glutamic acid)-coatedlipoplexes loaded with Doxorubicin for enhancing the antitumor activity againstliver tumors.by Na Qi, Bo Tang, Guang Liu, Xingsi Liang (2017)Nanoscale Res Lett (impact factor: 2.6)

69、Ionic Liquid Anion ControlledNanoscale Gold Morphology Grown at a Liquid Interface.byNakara Bhawawet, Jeremy B Essner, Durgesh Vinod Wagle, Gary A Baker (2017)Langmuir (impact factor: 4)

70、Carbon nanomaterials as versatileplatforms for theranostic applications.by Mirae Kim, JinhyeongJang, Chaenyung Cha (2017) Drug Discov. Today (impact factor: 5.6)

71、Anti-tumor activity of anthrax toxinvariants that form a functional translocation pore by intermolecularcomplementation. by Shihui Liu, Qian Ma, …, Stephen H Leppla (2017) Oncotarget(impact factor: 5)

72、MicroRNAlet-7g alleviates atherosclerosis via the targeting of LOX-1 in vitro and invivo. by Mingxin Liu, Guizhou Tao, …, Xinchun Yang (2017) Int. J. Mol. Med.(impact factor: 2.3)

73、Engineered polymeric amphiphilesself-assembling into nanostructures and acting as efficient gene and drugcarriers. by Ruby Bansal, Pradeep Kumar (2017) J Biomater Appl (impact factor:2)

74、Validation of the use of an artificialmitochondrial reporter DNA vector containing a Cytomegalovirus promoter formitochondrial transgene expression.by Yuma Yamada, TakuyaIshikawa, Hideyoshi Harashima (2017) Biomaterials (impact factor: 8.4)

75、Liposomal co-delivered oleanolic acidattenuates doxorubicin induced multi-organ toxicity in hepatocellularcarcinoma.by Muhammad Sarfraz, Attia Afzal, …, Guangya Xiang(2017) Oncotarget (impact factor: 5)

76、Thermoresponsive pegylatedbubbleliposomenanovectors for efficient siRNA delivery via endosomalescape.by Kholod Alamoudi, Patricia Martins, …, Niveen M Khashab(2017) Nanomedicine (Lond) (impact factor: 4.9)

77、Polymer coated mucoadhesive liposomesintended for the management of xerostomia.by Małgorzata IAdamczak, Ørjan G Martinsen, Gro Smistad, Marianne Hiorth (2017) Int J Pharm(impact factor: 4)

78、Sertaconazole nitrate loadednanovesicular systems for targeting skin fungal infection: in-vitro, ex-vivoand in-vivo evaluation.by Menna M Abdellatif, Islam A Khalil,Mahmoud A F Khalil (2017) Int J Pharm (impact factor: 4)

79、[(18)F]-Fluorinated Carboplatin and[(111)In]-Liposomefor Image-Guided Drug Delivery.by NarottamLamichhane, Gajanan K Dewkar, …, Jamal Zweit (2017) Int J Mol Sci (impactfactor: 3.3)

80、Combinatorial therapeutic approacheswith RNAi and anticancer drugs using nanodrug delivery systems.byAnish Babu, Anupama Munshi, Rajagopal Ramesh (2017) Drug Dev Ind Pharm (impactfactor: 2.4)

81、Gold Nanoparticle Mediated GraphenePlasmon for Broadband Enhanced Infrared Spectroscopy.by LilanPeng, Lei Zhang, …, Zeping Peng (2017) Nanotechnology (impact factor: 3.6)

82、Surface design of magneticnanoparticles for stimuli-responsive cancer imaging and therapy.byTaegyu Kang, Fangyuan Li, …, Taeghwan Hyeon (2017) Biomaterials (impact factor:8.4)

83、An amplified comparative fluorescenceresonance energy transfer immunosensing of CA125 tumor marker and ovariancancer cells using green and economic carbon dots for bio-applications inlabeling, imaging and sensing.by Somayeh Hamd-Ghadareh, AbdollahSalimi, Fardin Fathi, Saman Bahrami (2017) Biosens Bioelectron (impact factor:7.5)

84、Novel photoelectrochemicalimmunosensor for disease-related protein assisted by hemin/G-quadruplex-basedDNAzyme on gold nanoparticles to enhance cathodic photocurrent on p-CuBi2O4semiconductor.by Shuzhen Lv, Kangyao Zhang, Zhenzhen Lin,Dianping Tang (2017) Biosens Bioelectron (impact factor: 7.5)

85、Combination of DESI2 and IP10 genetherapy significantly improves therapeutic efficacy against murine carcinoma.byChao Lin, HuaYing Yan, …, Zhu Yuan (2017) Oncotarget (impact factor: 5)

86、Self-propelling micro-nanorobots:challenges and future perspectives in nanomedicine. by Xing Ma, Samuel Sánchez(2017) Nanomedicine (Lond) (impact factor: 4.9)

87、Affinity-Based Assembly of Peptides onPlasmonic Nanoparticles Delivered Intracellularly with Light Activated Control.byDemosthenes P Morales, William Wonderly, …, Norbert O Reich (2017) Bioconjug.Chem. (impact factor: 4.5)

88、Halloysite and chitosanoligosaccharide nanocomposite for wound healing.by GiuseppinaSandri, Carola Aguzzi, …, Franca Ferrari (2017) Acta Biomater (impact factor:6)

89、Aptamer-mediatedgene therapy enhanced antitumor activity against human hepatocellular carcinomain vitro and in vivo. by Shuangli Xiao, Zhongbing Liu, …, Zhirong Zhong (2017)J Control Release (impact factor: 7.4)

90、Serum protein adsorption enhancesactive leukemia stem cell targeting of mesoporous silica nanoparticles. byMichaela Beck, Tamoghna Mandal, Christian Buske, Mika Lindén (2017) ACS ApplMater Interfaces (impact factor: 7.1)

91、Biocompatibility and therapeuticevaluation of magnetic liposomes designed for self-controlled cancerhyperthermia and chemotherapy.by Manashjit Gogoi, Manish KJaiswal, …, Rinti Banerjee (2017) Integr Biol (Camb) (impact factor: 3.4)

92、Thickness Resonance AcousticMicroscopy for Nanomechanical Sub-Surface Imaging.by GajendraS Shekhawat, Arvind K Srivastava, Vinayak P Dravid, Oluwaseyi Balogun (2017)ACSNano(impact factor: 13.3)

93、Overcoming the instabilityofnanoparticlebased catalyst films in alkaline electrolysers byself-assembling and self-healing films.by Stefan Barwe, JustusMasa, …, Edgar Ventosa (2017) Angew. Chem. Int. Ed. Engl. (impact factor: 11.7)

94、Plasmon Enhanced Fluorescence Based onPorphyrin-Peptoid Hybridized GoldNanoparticlePlatform.byYounghye Kim, Boyeong Kang, …, Ki Tae Nam (2017) Small (impact factor: 8.3)

95、Protein Reduction and Dialysis-FreeWork-Up Through Phosphines Immobilized on a Magnetic Support: TCEP-FunctionalizedCarbon-Coated Cobalt Nanoparticles.by Adrian Zwyssig, Elia MSchneider, …, Wendelin Jan Stark (2017) Chemistry (impact factor: 5.8)

96、Charge reversible calcium phosphatelipid hybridnanoparticle for siRNA delivery.by Rong-Qiao Cai,Dao-Zhou Liu, …, Si-Yuan Zhou (2017) Oncotarget (impact factor: 5)

97、Synthesis of Gold Nanoparticles usingthe Interface of an Emulsion Droplet.by Suchanuch Sachdev,Rhushabh Maugi, …, Mark Platt (2017) Langmuir (impact factor: 4)

98、Multi-layered nanogels withMMP-sheddable PEG masks: Preparation and promotion of tumor cell uptake bycontrolling surface characteristics.by Jong Hoon Choi, JungSeok Lee, …, Ki Dong Park (2017) Colloids Surf B Biointerfaces (impact factor:3.9)

99、Rational design of nanoparticlestowards targeting antigen-presenting cells and improved T cell priming. by EvaZupančič, Caterina Curato, …, Helena F Florindo (2017) J Control Release(impact factor: 7.4)

100、ImmunologicalAspect of Radiation-Induced Pneumonitis, Current Treatment Strategies, andFuture Prospects. by Anup Kainthola, Teena Haritwal, …, Paban K Agrawala (2017)Front Immunol (impact factor: 5.7)

101、Old drug, new wrapping - A possiblecomeback for chloramphenicol?by Sveinung G Ingebrigtsen, AlenaDidriksen, …, Ann Mari Holsæter (2017) Int J Pharm (impact factor: 4)

102、Application of Various Types ofLiposomes in Drug Delivery Systems.by Mehran Alavi, NaserKarimi, Mohsen Safaei (2017) Advanced pharmaceutical bulletinFree full text

103、Vitamin D3-Loaded Nanostructured LipidCarriers as a Potential Approach for Fortifying Food Beverages; in Vitro and inVivo Evaluation.by Maryam Mohammadi, Akram Pezeshki, …, HamedHamishehkar (2017) Advanced pharmaceutical bulletinFree full text

104、Biomedical applications ofnanotechnology.by Ana P Ramos, Marcos A E Cruz, Camila BTovani, Pietro Ciancaglini (2017) Biophysical reviews

105、Novel focused ultrasound gene therapyapproach non-invasively restores dopaminergic neuron function in a ratParkinsons disease model.by Brian Patrick Mead, Namho Kim, …,Richard J Price (2017)NanoLett. (impact factor: 13.8)

106、Tailoring nanostructured lipidcarriers for the delivery of protein antigens: Physicochemical propertiesversus immunogenicity studies.by Thomas Courant, Emilie Bayon,…, Fabrice P Navarro (2017) Biomaterials (impact factor: 8.4)

107、DNA-assisted upconversion nanoplatformfor imaging-guided synergistic therapy and laser-switchable drugdetoxification.by Luoyuan Li, Panlong Hao, …, Jing Zhou (2017)Biomaterials (impact factor: 8.4)

108、Protein corona formation on colloidalpolymeric nanoparticles and polymeric nanogels: impact on cellular uptake,toxicity, immunogenicity and drug release properties.by KatjaObst, Guy Yealland, …, Sarah Hedtrich (2017) Biomacromolecules (impact factor:5.6)

109、Dexamethasone distributioncharacteristic following controllable continuous sub-tenondrugdeliveryin rabbit. by Xuetao Huang, Manqiang Peng, …, Ding Lin(2017) Drug Deliv (impact factor: 4.8)

110、Nanoparticlesfor Magnetic TargetedDeliveryof Cancer Drugs. by MargaritaLópez-Viota, Mazen M El-Hammadi, …, Ángel V Delgado (2017) AAPS PharmSciTech(impact factor: 2)

111、Modulating Angiogenesis withIntegrin-Targeted Nanomedicines.by Aroa Duro-Castano, ElenaGallon, Caitlin Decker, María J Vicent (2017) Adv. Drug Deliv. Rev. (impactfactor: 15.6)

112、Multifunctional liposomes delayphenotype progression and prevent memory impairment in a presymptomatic stagemouse model of Alzheimer disease.by Simona Mancini, ClaudiaBalducci, …, Francesca Re (2017) J Control Release (impact factor: 7.4)

113、Multifunctional Liposomes forImage-Guided Intratumoral Chemo-Phototherapy.by Dyego Miranda,Kevin Carter, …, Jonathan F Lovell (2017) Adv Healthc Mater (impact factor:5.8)

114、Essential oil-mediated glycerosomesincrease transdermal paeoniflorin delivery: optimization, characterization, andevaluation in vitro and in vivo.by Kai Zhang, Yongtai Zhang,…, Nianping Feng (2017) Int J Nanomedicine (impact factor: 4.3)Free full text

115、Humanized NOG mice as a model fortuberculosis vaccine induced immunity: A comparative analysis with the mouseand guinea pig models of tuberculosis.by Ajay Grover, AmberTroy, …, Angelo A Izzo (2017) Immunology (impact factor: 4.1)

116、Paclitaxel: What has been done and thechallenges remain ahead.by Ezequiel Bernabeu, MaximilianoCagel, …, Diego A Chiappetta (2017) Int J Pharm (impact factor: 4)

117、Effects of elemene on inhibitingproliferation of vascular smooth muscle cells and promotingreendothelialization at the stent implantation site.by WenjieSun, Yuhua Huang, …, Guixue Wang (2017) Biomater Sci (impact factor: 3.6)

118、Engineering liposomal nanoparticlesfor targeted gene therapy.by C Zylberberg, K Gaskill, SPasley, S Matosevic (2017) Gene Ther. (impact factor: 3.2)

119、Cellular uptake mechanism andclearance kinetics of fluorescence-labeled glycyrrhetinic acid andglycyrrhetinic acid-modifiedliposomein hepatocellular carcinomacells.by Yuqi Sun, Jinghua Lu, …, Dawei Chen (2017) Environ.Toxicol. Pharmacol. (impact factor: 2.2)

120、Liposomeloaded phage cocktail:Enhanced therapeutic potential in resolving Klebsiella pneumoniae mediated burnwound infections.by Parul Chadha, Om Prakash Katare, SanjayChhibber (2017) Burns (impact factor: 1.9)

121、Thermal management in nanofiber-basedface mask.by Ankun Yang, Lili Cai, …, Yi Cui (2017)NanoLett.(impact factor: 13.8)

122、Interlocked DNA topologies fornanotechnology.by Julián Valero, Finn Lohmann, Michael Famulok(2017) Curr. Opin. Biotechnol. (impact factor: 8.3)

123、Spatial-temporal imaging ofanisotropic photocarrier dynamics in black phosphorus.by BolinLiao, Huan Zhao, …, Ahmed H Zewail (2017)NanoLett. (impact factor:13.8)

124、Oxygen Sensing withPerfluorocarbon-Loaded Ultraporous Mesostructured Silica Nanoparticles.byAmani L Lee, Clifford T Gee, …, Christy L Haynes (2017)ACSNano(impact factor: 13.3)

125、Generalized Boussinesq-Scriven surfacefluid model with curvature dissipation for liquid surfaces and membranes.byOscar F Aguilar Gutierrez, Edtson E Herrera Valencia, Alejandro D Rey (2017) JColloid Interface Sci (impact factor: 3.8)

126、Ultrasensitive magnetic field-assistedsurface plasmon resonance immunoassay for human cardiac troponin I.byQiong Wu, Ying Sun, …, Daqian Song (2017) Biosens Bioelectron (impact factor:7.5)

127、Integrated signal probe basedaptasensor for dual-analyte detection.by Juan Xiang, XiaomeiPi, …, Chunyan Deng (2017) Biosens Bioelectron (impact factor: 7.5)

128、Molecular and biocompatibilitycharacterization of red blood cell membrane targeted and cell penetratingpeptide-modified polymeric nanoparticles.by Kaustuv Sahoo,Sriharsha Karumuri, …, Ashish Ranjan (2017) Mol. Pharm. (impact factor: 4.3)

129、Confined Pool-Buried Water-SolubleNanoparticles from Reverse Micelles.by Yong Liu, Ying Chen, …,Zhongwei Gu (2017) Langmuir (impact factor: 4)

130、pH-Responsive Co-assembly ofOligo(ethylene glycol)-Coated Gold Nanoparticles with External Anionic Polymersvia Hydrogen Bonding.by Yu Torii, Naotoshi Sugimura, …,Kuniharu Ijiro (2017) Langmuir (impact factor: 4)

131、Apoptosis induction activity andmolecular docking studies of survivin siRNA carried byFe3O4-PEG-LAC-chitosan-PEI nanoparticles in MCF-7 human breast cancer cells.bySanam Arami, Majid Mahdavi, …, Nasser Samadi (2017) J Pharm Biomed Anal (impactfactor: 3.2)

132、Carbon nanotubes, graphene and boronnitride nanotubes reinforced bioactive ceramics for bone repair.byChengde Gao, Pei Feng, Shuping Peng, Cijun Shuai (2017) Acta Biomater (impactfactor: 6)

133、A Microfluidic Ion Pump for In VivoDrugDelivery. by Ilke Uguz, Christopher M Proctor, …, George G Malliaras(2017) Adv. Mater. Weinheim (impact factor: 19)

134、Hyaluronic acid/polyethylene glycolnanoparticles for controlleddeliveryof mitoxantrone. by AzamSargazi, Naeem Kamali, Fereshteh Shiri, Mostafa Heidari Majd (2017) Artif CellsNanomed Biotechnol (impact factor: 2)

135、Endocytosis and intracellular trafficof cholesterol-PDMAEMAliposomecomplexes in human epithelial-likecells.by F Szymanowski, A A Hugo, …, Pablo F Pérez (2017)Colloids Surf B Biointerfaces (impact factor: 3.9)

136、FtsZ Constriction Force - CurvedProtofilaments Bending Membranes.by Harold P Erickson, MasakiOsawa (2017) Sub-cellular biochemistry

137、FtsZ-ring Architecture and Its Controlby MinCD.by Piotr Szwedziak, Debnath Ghosal (2017)Sub-cellular biochemistry

138、PA-Tb-Cu MOF as luminescent nanoenzymefor catalytic assay of hydrogen peroxide.by Zewan Qi, Li Wang,Qi You, Yang Chen (2017) Biosens Bioelectron (impact factor: 7.5)

139、Preparation of Nanowire likeWSe2-Graphene Nanocomposite for Photocatalytic Reduction of CO2 into CH3OH withthe Presence of Sacrificial Agents.by Asghar Ali, Won-Chun Oh(2017) Sci Rep (impact factor: 5.2)

140、Intranasal drug delivery of smallinterfering RNA targeting Beclin1 encapsulated with polyethylenimine (PEI) inmouse brain to achieve HIV attenuation.by Myosotys Rodriguez,Jessica Lapierre, …, Nazira El-Hage (2017) Sci Rep (impact factor: 5.2)

141、Novel superparamagnetic micro-devicesbased on magnetised PLGA/PLA microparticles obtained by supercritical fluidemulsion and coating by carboxybetaine-functionalised chitosan allowing thetuneable release of therapeutics.by Cricchio Vincenzo, MarkBest, …, Della Porta Giovanna (2017) J Pharm Sci (impact factor: 2.6)

142、Using reduced graphene oxide-Ca:CdSenanocomposite to enhance photoelectrochemical activity of gold nanoparticlesfunctionalized tungsten oxide for highly sensitive prostate specific antigendetection.by Xueping Wang, Rui Xu, …, Qin Wei (2017) BiosensBioelectron (impact factor: 7.5)

143、Nanoformulation of Olaparib amplifiesPARP inhibition and sensitizes PTEN/TP53-deficient prostate cancer toradiation.by Anne L van de Ven, Shifalika Tangutoori, …,Srinivas Sridhar (2017) Mol. Cancer Ther. (impact factor: 5.6)

144、Catechol-FunctionalChitosan/SilverNanoparticleComposite as a Highly EffectiveAntibacterial Agent with Species-Specific Mechanisms.byXiaofei Huang, Xiaojiong Bao, …, Qiaoling Hu (2017) Sci Rep (impact factor:5.2)

145、Novel polyglycerol-dioleate basedcubosomal dispersion with tailored physical characteristics for controlleddelivery of ondansetron.by M Mansour, A O Kamel, S Mansour, ND Mortada (2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

146、Adjuvants based on syntheticmycobacterial cord factor analogues: Biophysical properties of neat glycolipidsand nano-self-assemblies with DDA.by Rie S Kallerup, HenrikFranzyk, …, Camilla Foged (2017) Mol. Pharm. (impact factor: 4.3)

147、Novel dual VES phospholipidself-assembled liposomes with an extremely high drug loading efficiency.byYongpeng Hou, Chen Yao, …, Xinsong Li (2017) Colloids Surf B Biointerfaces(impact factor: 3.9)

148、Nucleic acids-based nanotherapeuticscrossing the blood brain barrier.by Noha Nafee, Noha Gouda(2017) Curr Gene Ther (impact factor: 2.7)

149、Anisotropic Fe3O4/Mn3O4 hybridnanocrystals with unique magnetic properties.by Maowei Jiang,Xiaogang Peng (2017)NanoLett. (impact factor: 13.8)

150、Perovskite-type calcium titanatenanoparticles as novel matrix for designing sensitive electrochemicalbiosensing.by Lei Wang, Juan Li, …, Zhanjun Yang (2017)Biosens Bioelectron (impact factor: 7.5)

151、Interactions of mussel-inspiredpolymeric nanoparticles with gastric mucin: Implications for gastro-retentivedrug delivery.by Suhair Sunoqrot, Lina Hasan, …, Ola Tarawneh(2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

152、Folate-functionalized assembly of lowdensity lipoprotein/sodium carboxymethyl cellulose nanoparticles for targeteddelivery.by Hongshan Liang, Lei He, …, Jing Li (2017) ColloidsSurf B Biointerfaces (impact factor: 3.9)

153、Efficient protein digestion usingimmobilized trypsin onto tannin modified Fe3O4 magnetic nanoparticles.byKeziban Atacan, Bekir Çakıroğlu, Mahmut Özacar (2017) Colloids Surf BBiointerfaces (impact factor: 3.9)

154、Carbonnanotubeandsemiconductor nanorods hybrids: Preparation, characterization and evaluation ofphotocurrent generation.by Jugun Prakash Chinta, Nir Waiskopf,…, Shlomo Yitzchaik (2017) Langmuir (impact factor: 4)

155、Stapled RGD Peptide EnablesGlioma-Targeted DrugDeliveryby Overcoming Multiple Barriers. byHuitong Ruan, Xishan Chen, …, Weiyue Lu (2017) ACS Appl Mater Interfaces(impact factor: 7.1)

156、EnhancingSpecific Disruption of Intracellular Protein Complexes by Hydrocarbon StapledPeptides Using Lipid BasedDelivery. by D Thean, J S Ebo, …, C J Brown(2017) Sci Rep (impact factor: 5.2)

157、A new chemotherapy agent-freetheranostic system composed of graphene oxide nano-complex and aptamers fortreatment of cancer cells. by Amirhossein Bahreyni, Rezvan Yazdian-Robati, …,Seyed Mohammad Taghdisi (2017) Int J Pharm (impact factor: 4)

158、Genedeliveryparticleengineering strategies for shape-dependent targeting of cells and tissues. byKristen Lynn Kozielski, Metin Sitti (2017) Curr Gene Ther (impact factor: 2.7)

159、DeliveringsiRNA with Dendrimers: In Vivo Applications. by Victoria Leiro, Sofia DuqueSantos, Ana Paula Pêgo (2017) Curr Gene Ther (impact factor: 2.7)

160、Potential gene therapy towardstreating neurodegenerative diseases employing polymeric nanosystems. by PrachiBangde, Sonal Atale, …, Ratnesh Jain (2017) Curr Gene Ther (impact factor: 2.7)

161、miR-34battenuates trauma-induced anxiety-like behavior by targeting CRHR1. by JingZhu, Zhejun Chen, …, Zhanzhuang Tian (2017) Int. J. Mol. Med. (impact factor:2.3)

162、Dipole Orientation Matters:Longer-circulating Choline Phosphate than Phosphocholine Liposomes for EnhancedTumor Targeting.by Shuya Li, Feng Wang, …, Juewen Liu (2017)ACS Appl Mater Interfaces (impact factor: 7.1)

163、NovelCurcuminLiposomeModified with Hyaluronan Targeting CD44 Plays anAnti-Leukemic Role in Acute Myeloid Leukemia in Vitro and in Vivo.byDan Sun, Jian-Kang Zhou, …, Yong Peng (2017) ACS Appl Mater Interfaces (impactfactor: 7.1)

164、A Freeze-Concentration andPolyampholyte-ModifiedLiposome-Based Antigen-Delivery System forEffective Immunotherapy.by Sana Ahmed, Satoshi Fujita, KazuakiMatsumura (2017) Adv Healthc Mater (impact factor: 5.8)

165、Mechanism of transdermal permeationpromotion of lipophilic drugs by ethosomes.by Li Yang, LifangWu, …, Xiaoliang Zhu (2017) Int J Nanomedicine (impact factor: 4.3)

166、Near Infrared ResponsiveGold-Layersome Nanoshells.by Akram Abbasi, Keunhan Park,Arijit Bose, Geoffrey D Bothun (2017) Langmuir (impact factor: 4)

167、Long-lasting insulin treatment via asingle subcutaneous administration of liposomes in thermoreversible Pluronic®F127 based hydrogel.by Xiaoyu Chen, Blenda Chi Kwan Wong, …,Zhijun Yang (2017) Curr. Pharm. Des. (impact factor: 3.1)

168、Folate receptor-targeted ultrasonicPFOB nanoparticles: Synthesis, characterization and application intumor-targeted imaging.by Keshi Li, Yahui Liu, …, Yong Wang(2017) Int. J. Mol. Med. (impact factor: 2.3)

169、Preparation and quality evaluation ofcoenzyme Q10 long-circulating liposomes.by Huibin Li, FangChen (2017) Saudi J Biol Sci (impact factor: 1.8)Free full text

170、Preparationofliposomebearing disulfide proteinoid and its reduction-responsiverelease property.by Kyeongnan Kwon, Jin-Chul Kim (2017) JBiomater Sci Polym Ed (impact factor: 1.7)

171、Direct Plasmon-AcceleratedElectrochemical Reaction on Gold Nanoparticles.by Chen Wang,Xing-Guo Nie, …, Hong-Yuan Chen (2017) ACSNano(impact factor: 13.3)

172、Intramyocardial fate and effect ofiron nanoparticles co-injected with MACS(®) purified stem cell products.byPaula Müller, Ralf Gaebel, …, Robert David (2017) Biomaterials (impact factor:8.4)

173、Enhanced detection sensitivity ofcarcinoembryonic antigen on a plasmonic nanoimmunosensor by transmissiongrating-based total internal reflection scattering microscopy.bySujin Ahn, Hyunung Yu, Seong Ho Kang (2017) Biosens Bioelectron (impact factor:7.5)

174、Metalcarbonyl-goldnanoparticleconjugates for highly sensitive SERSdetection of organophosphorus pesticides.by Mein Jin Tan,Zi-Yao Hong, …, Kien Voon Kong (2017) Biosens Bioelectron (impact factor: 7.5)

175、Lateral flow assay-based bacterialdetection using engineered cell wall binding domains of a phage endolysin.byMinsuk Kong, Joong Ho Shin, …, Sangryeol Ryu (2017) Biosens Bioelectron (impactfactor: 7.5)

176、Silica nanoparticles as sources ofsilicic acid favoring wound healing in vitro.by SandrineQuignard, Thibaud Coradin, Jonathan J Powell, Ravin Jugdaohsingh (2017)Colloids Surf B Biointerfaces (impact factor: 3.9)

177、Zinc oxide nanoparticlesantagonize the effect of Cetuximab on head and neck squamous cell carcinoma invitro.by Thomas Gehrke, Agmal Scherzad, …, Stephan Hackenberg(2017) Cancer Biol. Ther. (impact factor: 2.9)

178、MnO2 Nanotubes-based NanoSearchlightfor Imaging of Multiple MicroRNAs in Live Cells.by Qian Lu,Daniel Ericson, …, Yuehe Lin (2017) ACS Appl Mater Interfaces (impact factor:7.1)

179、Comparing the therapeutic potential ofthermosensitive liposomes and hyperthermia in two distinct subtypes of breastcancer.by Wouter J M Lokerse, Michiel Bolkestein, …, Gerben AKoning (2017) J Control Release (impact factor: 7.4)

180、Evaluation of a combination tumortreatment using thermo-triggered liposomal drug delivery and carbon ion irradiation.byDaisuke Kokuryo, Ichio Aoki, …, Tsuneo Saga (2017) Transl Res (impact factor:4.6)

181、Codelivery of dihydroartemisinin anddoxorubicin in mannosylated liposomes for drug-resistant colon cancer therapy.byXue-Jia Kang, Hui-Yuan Wang, …, Yong-Zhuo Huang (2017) Acta Pharmacol. Sin.(impact factor: 3.2)

182、PEGylation of the GALA peptideenhances the lung-targeting activity of nanocarriers that contain encapsulatedsiRNA.by Sarochin Santiwarangkool, Hidekata Akita, …,Hideyoshi Harashima (2017) J Pharm Sci (impact factor: 2.6)

183、Tissue Pharmacokinetics andPharmacodynamics of AmBisome® (L-AmBis) in Uninfected and Infected Animals andTheir Effects on Dosing Regimens.by J P Adler-Moore, R TProffitt, J A Olson, G M Jensen (2017) JLiposomeRes (impact factor:1.8)

184、Tri-block co-polymer nanocarriers forenhancement of oral delivery of felodipine: preparation, in-vitrocharacterization and ex-vivo permeation.by Sinar Sayed Fouad,Basant A Habib, Ghada M Elsayed (2017) JLiposomeRes (impact factor: 1.8)

185、PTD modified paclitaxel anti-resistantliposomes for treatment of drug-resistant non-small cell lung cancer.byRui-Jun Ju, Lan Cheng, …, Xue-Tao Li (2017) JLiposomeRes (impactfactor: 1.8)

186、Multimodal assessment of SERSnanoparticle biodistribution post ingestion reveals new potential for clinicaltranslation of Raman imaging.by Jos L Campbell, Elliott DSoRelle, …, Cristina Zavaleta (2017) Biomaterials (impact factor: 8.4)

187、Plasmonic/magnetic nanocomposites:Gold nanorods-functionalized silica coated magnetic nanoparticles.byEugenio Redolfi Riva, Isabel Pastoriza-Santos, …, Virgilio Mattoli (2017) JColloid Interface Sci (impact factor: 3.8)

188、Synthesis and characterization ofpolyaniline-silica composites: Raspberry vs core-shell structures. Where do westand?by Nicolas Roosz, Myriam Euvard, …, Lydie Viau (2017) JColloid Interface Sci (impact factor: 3.8)

189、Fabrication of a Novel HighlySensitive and Selective Immunosensor for Botulinum Neurotoxin Serotype A Basedon an Effective Platform of Electrosynthesized Gold Nanodendrites/ChitosanNanoparticles.by Rahim Sorouri, Hasan Bagheri, Abbas Afkhami,Jafar Salimian (2017) Sensors (Basel) (impact factor: 2)

190、Graphene and carbon nanotubes activatedifferent cell surface receptors on macrophages before and after deactivation ofendotoxins.by Mohamed H Lahiani, Kuppan Gokulan, …, SangeetaKhare (2017) J Appl Toxicol (impact factor: 2.7)

191、Development of biodegradable PLGAnanoparticles surface engineered with hyaluronic acid fortargeteddeliveryof paclitaxel to triple negative breast cancer cells. byBrenda Brenner S Cerqueira, Annette Lasham, Andrew N Shelling, Raida Al-Kassas(2017) Mater Sci Eng C Mater Biol Appl (impact factor: 3.4)

192、TargetedsiRNAdeliveryreduces nitric oxide mediated cell death after spinalcord injury. by Wen Gao, Jianming Li (2017) J Nanobiotechnology (impact factor:4.2)

193、Nano-Phytosome: A Developing Platformfor Herbal Anti-Cancer Agents in Cancer Therapy. by Afshin Babazadeh, MahdiZeinali, Hamed Hamishehkar (2017) Curr Drug Targets (impact factor: 3)

194、Recent Advances in the Use ofNanoparticles for Allergen-specific Immunotherapy.by HannahPohlit, Iris Bellinghausen, Holger Frey, Joachim Saloga (2017) Allergy (impactfactor: 6.3)

195、Targeting and Internalization ofLiposomes by Bladder Tumor Cells Using a Fibronectin Attachment Protein-DerivedPeptide-Lipopolymer Conjugate.by Young Lee, Erin Kischuk, …,David H Thompson (2017) Bioconjug. Chem. (impact factor: 4.5)

196、Mechanical properties of membranescomposed of gel-phase or fluid-phase phospholipids probed on liposomes byatomic force spectroscopy.by Oumaima Et-Thakafy, NicolasDelorme, …, Fanny Guyomarch (2017) Langmuir (impact factor: 4)

197、Nanotechnology: a promising tooltowards wound healing.by Thaís Alberti, Daniela S Coelho, …,Beatriz Veleirinho (2017) Curr. Pharm. Des. (impact factor: 3.1)

198、Delivery of cationic quantum dotsusing fusogenic liposomes in living cells.by Anna L L Matos,Goreti Pereira, …, Adriana Fontes (2017) J. Photochem. Photobiol. B, Biol.(impact factor: 3)

199、ICAM-1-Targeted Liposomes Loaded withLiver X Receptor Agonists Suppress PDGF-Induced Proliferation of VascularSmooth Muscle Cells.by Xu Huang, Meng-Qi Xu, …, Feng Cao(2017) Nanoscale Res Lett (impact factor: 2.6)

200、Double-loop hairpin probe anddoxorubicin-loaded gold nanoparticles for the ultrasensitive electrochemicalsensing of microRNA.by Yiyi Tao, Dan Yin, …, Guoming Xie(2017) Biosens Bioelectron (impact factor: 7.5)

201、New tumor suppressor microRNAs targetglypican-3 in human liver cancer.by Flora Cartier, EmilieIndersie, …, Christophe F Grosset (2017) Oncotarget (impact factor: 5)

202、Nano-pulse stimulation (NPS) ablatestumors and inhibits lung metastasis on both canine spontaneous osteosarcoma andmurine transplanted hepatocellular carcinoma with high metastatic potential.byXinhua Chen, Yiling Chen, …, Shusen Zheng (2017) Oncotarget (impact factor: 5)

203、Small and Sharp Triangular SilverNanoplates Synthesized Utilizing Tiny Triangular Nuclei and Their ExcellentSERS Activity for Selective Detection of Thiram Residue in Soil.byChun-Hong Zhang, Jian Zhu, Jian-Jun Li, Jun-Wu Zhao (2017) ACS Appl Mater Interfaces(impact factor: 7.1)

204、Expanding transdermal delivery withlipid nanoparticles: a new drug-in-NLC-in-adhesive design.by MMendes, S C C Nunes, …, C Vitorino (2017) Mol. Pharm. (impact factor: 4.3)

205、Shear dependent LC purification of anengineered DNA nanoswitch and implications for DNA origami.byKen Halvorsen, Megan Kizer, …, Maria Basanta Sanchez (2017) Anal. Chem. (impactfactor: 5.9)

206、Silica-based systems fororaldeliveryof drugs, macromolecules and cells. by Roudayna Diab,Nadia Canilho, …, Andreea Pasc (2017) Adv Colloid Interface Sci (impact factor:7.8)

207、Preparation of chondroitinsulfate-adipic acid dihydrazide-doxorubicin conjugate and its antitumorcharacteristics against LLC cells. by Hiraku Onishi, Ai Fukasawa, …, YoshiyukiHattori (2017) J DrugTarget(impact factor: 2.8)

208、Effect of the presence of cholesterolin the interfacial microenvironment on the modulation of the alkalinephosphatase activity during in vitro mineralization.by B FFavarin, M A R Andrade, …, P Ciancaglini (2017) Colloids Surf B Biointerfaces(impact factor: 3.9)

209、Neutral PEGylated liposomal formulationfor efficient folate-mediated delivery of MCL1 siRNA to activated macrophages.byEugénia Nogueira, Jaime Freitas, …, Artur Cavaco-Paulo (2017) Colloids Surf BBiointerfaces (impact factor: 3.9)

210、Stimulation of vascularization of asubcutaneous scaffold applicable for pancreatic islet-transplantation enhancesimmediate post-transplant islet graft function but not long-term normoglycemia.byAlexandra M Smink, Li Shiri, …, Paul de Vos (2017) J Biomed Mater Res A (impactfactor: 3.3)

211、Aptamer functionalization ofnanosystems for Glioblastoma targeting through the Blood-Brain-Barrier.byIlaria Monaco, Simona Camorani, …, Mauro Comes Franchini (2017) J. Med. Chem.(impact factor: 5.6)

212、Mitochondria chaperone GRP75moonlighting as a cell cycle controller to derail endocytosis provides anopportunity for nanomicrosphere intracellular delivery.byZhihui Gao, Xiuran Niu, …, Sihe Zhang (2017) Oncotarget (impact factor: 5)

213、Co-encapsulated resveratrol andquercetin in chitosan and peg modified chitosan nanoparticles: for efficientintra ocular pressure reduction.by Subramanian Natesan,Saravana Kumar Pandian, …, Ruckmani Kandasamy (2017) Int. J. Biol. Macromol.(impact factor: 3.1)

214、Nanoparticles based on chitosanhydrochloride/hyaluronic acid/PEG containing curcumin: In vitro evaluation andpharmacokinetics in rats.by Yurui Xu, Sajid Asghar, …, YanyuXiao (2017) Int. J. Biol. Macromol. (impact factor: 3.1)

215、Lipid-oligonucleotide conjugatesimprove cellular uptake and efficiency of TCTP-antisense incastration-resistant prostate cancer. by Sara Karaki, Sebastien Benizri, …,Palma Rocchi (2017) J Control Release (impact factor: 7.4)

216、Identificationof a nanobody specific to human pulmonary surfactant protein A. by Xian He,Shan-Mei Wang, …, Hui-Ping Li (2017) Sci Rep (impact factor: 5.2)

217、Co-administration of liposomal l-OHPand PEGylated TS shRNA-lipoplex: A novel approach to enhance anti-tumorefficacy and reduce the immunogenic response to RNAi molecules.byEman Alaaeldin, Amr S Abu Lila, …, Tatsuhiro Ishida (2017) J Control Release(impact factor: 7.4)

218、The first fluorogenic sensor forsphingosine-1-phosphate lyase activity in intact cells.by PolSanllehí, Mireia Casasampere, …, Antonio Delgado (2017) Chem. Commun. (Camb.)(impact factor: 6.6)

219、Preparation and characterization ofisoniazid-loaded crude soybean lecithin liposomes.by ChristianIsalomboto Nkanga, Rui Werner Krause, Xavier Siwe Noundou, Roderick BryanWalker (2017) Int J Pharm (impact factor: 4)

220、Preparation of dual-stimuli-responsiveliposomes using methacrylate-based copolymers with pH and temperaturesensitivities for precisely controlled release.by TakumiSugimoto, Naoko Yamazaki, …, Kenji Kono (2017) Colloids Surf B Biointerfaces(impact factor: 3.9)

221、Intracellular localization anddelivery of plasmid DNA by biodegradable microsphere-mediated femtosecond laseroptoporation.by Atsuhiro Ishii, Yuki Hiruta, …, MitsuhiroTerakawa (2017) J Biophotonics (impact factor: 3.8)

222、Dual 7-ethyl-10-hydroxycamptothecinconjugated phospholipid prodrug assembled liposomes with in vitro anticancereffects.by Yawei Du, Wei Zhang, …, Xinsong Li (2017) Bioorg.Med. Chem. (impact factor: 2.9)

223、PEGylated liposomes of Meloxicam:Optimization by Quality by Design, in vitro characterization and cytotoxicityevaluation.by Jessy Shaji, Ipshita Menon (2017) Pharmaceuticalnanotechnology

224、Contribution of macrophages in thecontrast loss in iron oxide-based MRI cancer cell tracking studies.byPierre Danhier, Gladys Deumer, …, Bernard Gallez (2017) Oncotarget (impactfactor: 5)

225、A Versatile Molecular Silver InkPlatform for Printed Flexible Electronics.by Arnold JasonKell, Chantal Paquet, …, Patrick R L Malenfant (2017) ACS Appl Mater Interfaces(impact factor: 7.1)

226、TargetingPEPT1: a novel strategy to improve the antitumor efficacy of Doxorubicin inhuman Hepatocellular carcinoma therapy. by Yanxia Gong, Xiang Wu, …, Xu Jian(2017) Oncotarget (impact factor: 5)

227、Acid-sensitive sheddable PEGylated,mannose-modified nanoparticles increase thedeliveryof betamethasoneto chronic inflammation sites in a mouse model. by Hannah L OMary, Abdulaziz MAldayel, …, Zhengrong Cui (2017) Mol. Pharm. (impact factor: 4.3)

228、DrugEncapsulated Nanoparticles for Treating Targeted Cells. by Koh Hann Suk, SubashC B Gopinath (2017) Curr. Med. Chem. (impact factor: 3.5)

229、Chiral Surface of NanoparticlesDetermines the Orientation of Adsorbed Transferrin and its Interaction withReceptors.by Xinyi Wang, Mingzhe Wang, …, Chunying Chen (2017)ACS Nano (impact factor: 13.3)

230、Lipophilic peptide character - Whatoral barriers fear the most.by Ožbej Zupančič, AndreasBernkop-Schnürch (2017) J Control Release (impact factor: 7.4)

231、Development of a Rapidly DissolvableOral Pediatric Formulation for Mefloquine Using Liposomes.byWei-Lun Tang, Wei-Hsin Sophia Tang, …, Shyh-Dar Li (2017) Mol. Pharm. (impactfactor: 4.3)

232、A generic (89)Zr labeling method toquantify the in vivo pharmacokinetics of liposomal nanoparticles with positronemission tomography.by Nan Li, Zilin Yu, …, Ran Yan (2017) IntJ Nanomedicine (impact factor: 4.3)

233、Azide-modified Membrane Lipids:Synthesis, Properties, and Reactivity.by Sindy Lindner, KaiGruhle, …, Simon Drescher (2017) Langmuir (impact factor: 4)

234、Interaction between PEG lipid andDSPE/DSPC phospholipids: An insight of PEGylation degree and kinetics ofde-PEGylation.by Donatella Paolino, Maria Lorena Accolla, …,Christian Celia (2017) Colloids Surf B Biointerfaces (impact factor: 3.9)

235、Application of surface enhanced Ramanspectroscopy as a diagnostic system for hypersialylated metastatic cancers.byBabita Shashni, Yukichi Horiguchi, …, Yukio Nagasaki (2017) Biomaterials(impact factor: 8.4)

236、Surface-enhanced molecularly imprintedelectrochemiluminescence sensor based on Ru@SiO2 for ultrasensitive detectionof fumonisin B1.by Wei Zhang, Huiwen Xiong, …, Shengfu Wang(2017) Biosens Bioelectron (impact factor: 7.5)

237、Dexamethasone-conjugated DNA nanotubesas anti-inflammatory agents in vivo.by Sabine Sellner, SametKocabey, …, Markus Rehberg (2017) Biomaterials (impact factor: 8.4)

238、Crucial Role of Oxidation Debris ofCarbon Nanotubes in Subsequent End-Use Applications of Carbon Nanotubes.byYern Seung Kim, Jun Young Oh, …, Chong Rae Park (2017) ACS Appl MaterInterfaces (impact factor: 7.1)

239、Functionalized carbon nanotubes assuitable scaffold materials for proliferation and differentiation of caninemesenchymal stem cells.by Kinsuk Das, A P Madhusoodan, …,Sadhan Bag (2017) Int J Nanomedicine (impact factor: 4.3)

240、Tailoring the electrochemicalproperties of carbonnanotubemodified indium tin oxide via In-situgrafting of aryl diazonium.by Jacqueline Mellisande Hicks, ZhiYi, …, Frankie James Rawson (2017) Langmuir (impact factor: 4)