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Original

Controlling nanoparticle delivery in magnetic nanoparticle hyperthermia for cancer treatment: Experimental study in agarose gel

, , PhD, &
Pages 337-345 | Received 22 Oct 2007, Accepted 09 Jan 2008, Published online: 09 Jul 2009

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Crossref
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Crossref
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Crossref
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Crossref
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Alen Alexanderian, William Reese, Ralph C. Smith & Meilin Yu. (2019) Model Input and Output Dimension Reduction Using Karhunen–Loève Expansions With Application to Biotransport. ASCE-ASME J Risk and Uncert in Engrg Sys Part B Mech Engrg 5:4.
Crossref
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Crossref
Laura M. Sanchez & Vera A. Alvarez. (2019) Advances in Magnetic Noble Metal/Iron-Based Oxide Hybrid Nanoparticles as Biomedical Devices. Bioengineering 6:3, pages 75.
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Crossref
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Crossref
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Crossref
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Matteo Avolio, Andrea Guerrini, Francesca Brero, Claudia Innocenti, Claudio Sangregorio, Marco Cobianchi, Manuel Mariani, Francesco Orsini, Paolo Arosio & Alessandro Lascialfari. (2019) In-gel study of the effect of magnetic nanoparticles immobilization on their heating efficiency for application in Magnetic Fluid Hyperthermia. Journal of Magnetism and Magnetic Materials 471, pages 504-512.
Crossref
Helen L. Cleaves, Alen Alexanderian, Hayley Guy, Ralph C. Smith & Meilin Yu. (2019) Derivative-Based Global Sensitivity Analysis for Models with High-Dimensional Inputs and Functional Outputs. SIAM Journal on Scientific Computing 41:6, pages A3524-A3551.
Crossref
Gennaro Bellizzi & Ovidio Mario Bucci. (2019) Magnetic Nanoparticle-Guided Blind Focusing in Microwave Hyperthermia of Neck Tumors. IEEE Access 7, pages 64063-64076.
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Laura M. Sanchez, Lorena Arciniegas, Vera A. Alvarez & Jimena S. Gonzalez. 2019. Materials for Biomedical Engineering. Materials for Biomedical Engineering 435 456 .
Mohsen Izadi, Sara Sinaei, S.A.M. Mehryan, Hakan F. Oztop & Nidal Abu-Hamdeh. (2018) Natural convection of a nanofluid between two eccentric cylinders saturated by porous material: Buongiorno’s two phase model. International Journal of Heat and Mass Transfer 127, pages 67-75.
Crossref
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Maria V Efremova, Yulia A Nalench, Eirini Myrovali, Anastasiia S Garanina, Ivan S Grebennikov, Polina K Gifer, Maxim A Abakumov, Marina Spasova, Makis Angelakeris, Alexander G Savchenko, Michael Farle, Natalia L Klyachko, Alexander G Majouga & Ulf Wiedwald. (2018) Size-selected Fe 3 O 4 –Au hybrid nanoparticles for improved magnetism-based theranostics . Beilstein Journal of Nanotechnology 9, pages 2684-2699.
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Gurmeet Singh, Neeraj Kumar & Pramod Kumar Avti. (2018) Effects of spatial distribution patterns of magnetic nanoparticles on temperature distribution in magnetic hyperthermia. Effects of spatial distribution patterns of magnetic nanoparticles on temperature distribution in magnetic hyperthermia.
Eirini Myrovali, Nikos Maniotis, Antonis Makridis, Kostantinos Simeonidis, Theodoros Samaras & Makis Angelakeris. (2018) Regional Focus effect on Magnetic Particle Hyperthermia efficiency. Regional Focus effect on Magnetic Particle Hyperthermia efficiency.
K. Dubyk, A. Kuzmich, M. Isaiev, S. Alekseev, B. Zousman, O. Levinson, A. Rozhin & V. Lysenko. (2018) Ultrasound Generation Enhancement with Carbon-Based Nanoparticles as Photoacoustic Sensitizers. Ultrasound Generation Enhancement with Carbon-Based Nanoparticles as Photoacoustic Sensitizers.
Yun-dong Tang, Tao Jin & Rodolfo C.C. Flesch. (2018) Impact of different infusion rates on mass diffusion and treatment temperature field during magnetic hyperthermia. International Journal of Heat and Mass Transfer 124, pages 639-645.
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Alexander LeBrun & Liang Zhu*. 2018. Theory and Applications of Heat Transfer in Humans. Theory and Applications of Heat Transfer in Humans 631 667 .
Madina Jelbuldina, Alina V. Korobeinyk, Sanzhar Korganbayev, Vassilis J. Inglezakis & Daniele Tosi. (2018) Fiber Bragg grating based temperature profiling in ferromagnetic nanoparticles-enhanced radiofrequency ablation. Optical Fiber Technology 43, pages 145-152.
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Payam Zarrintaj, Saeed Manouchehri, Zahed Ahmadi, Mohammad Reza Saeb, Aleksandra M. Urbanska, David L. Kaplan & Masoud Mozafari. (2018) Agarose-based biomaterials for tissue engineering. Carbohydrate Polymers 187, pages 66-84.
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Wenbo Zhan & Chi-Hwa Wang. (2018) Convection enhanced delivery of chemotherapeutic drugs into brain tumour. Journal of Controlled Release 271, pages 74-87.
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A.V. Nagornyi, V.I. Petrenko, M.V. Avdeev, O.V. Yelenich, S.O. Solopan, A.G. Belous, A.Yu. Gruzinov, O.I. Ivankov & L.A. Bulavin. (2017) Structural aspects of magnetic fluid stabilization in aqueous agarose solutions. Journal of Magnetism and Magnetic Materials 431, pages 16-19.
Crossref
A. Józefczak, K. Kaczmarek, M. Kubovčíková, Z. Rozynek & T. Hornowski. (2017) The effect of magnetic nanoparticles on the acoustic properties of tissue-mimicking agar-gel phantoms. Journal of Magnetism and Magnetic Materials 431, pages 172-175.
Crossref
M. Angelakeris. (2017) Magnetic nanoparticles: A multifunctional vehicle for modern theranostics. Biochimica et Biophysica Acta (BBA) - General Subjects 1861:6, pages 1642-1651.
Crossref
Nor Azwadi Che Sidik, Syahrullail Samion, Javad Ghaderian & Muhammad Noor Afiq Witri Muhammad Yazid. (2017) Recent progress on the application of nanofluids in minimum quantity lubrication machining: A review. International Journal of Heat and Mass Transfer 108, pages 79-89.
Crossref
Ayesha Sohail, Zaki Ahmad, O. Anwar Bég, Sarmad Arshad & Lubna Sherin. (2017) A review on hyperthermia via nanoparticle-mediated therapy. Bulletin du Cancer 104:5, pages 452-461.
Crossref
Iordana Astefanoaei, Horia Chiriac & Alexandru Stancu. (2017) Thermal performance of Fe-Cr-Nb-B systems in magnetic hyperthermia. Journal of Applied Physics 121:10.
Crossref
J.C. Umavathi, Odelu Ojjela & K. Vajravelu. (2017) Numerical analysis of natural convective flow and heat transfer of nanofluids in a vertical rectangular duct using Darcy-Forchheimer-Brinkman model. International Journal of Thermal Sciences 111, pages 511-524.
Crossref
Mostafa Zakariapour, Mohammad Hossein Hamedi & Nasser Fatouraee. (2016) Numerical Investigation of Magnetic Nanoparticles Distribution Inside a Cylindrical Porous Tumor Considering the Influences of Interstitial Fluid Flow. Transport in Porous Media 116:1, pages 251-274.
Crossref
Priscilla Lai, Eli Lechtman, Shahram Mashouf, Jean-Philippe Pignol & Raymond M. Reilly. (2016) Depot system for controlled release of gold nanoparticles with precise intratumoral placement by permanent brachytherapy seed implantation (PSI) techniques. International Journal of Pharmaceutics 515:1-2, pages 729-739.
Crossref
E. Myrovali, N. Maniotis, A. Makridis, A. Terzopoulou, V. Ntomprougkidis, K. Simeonidis, D. Sakellari, O. Kalogirou, T. Samaras, R. Salikhov, M. Spasova, M. Farle, U. Wiedwald & M. Angelakeris. (2016) Arrangement at the nanoscale: Effect on magnetic particle hyperthermia. Scientific Reports 6:1.
Crossref
Beriache M'hamed, Nor Azwadi Che Sidik, Mohammad Noor Afiq Witri Muhammad Yazid, Rizalman Mamat, G. Najafi & G.H.R. Kefayati. (2016) A review on why researchers apply external magnetic field on nanofluids. International Communications in Heat and Mass Transfer 78, pages 60-67.
Crossref
Xiao Li Liu, Cheng Teng Ng, Prashant Chandrasekharan, Hai Tao Yang, Ling Yun Zhao, Erwin Peng, Yun Bo Lv, Wen Xiao, Jie Fang, Jia Bao Yi, Huan Zhang, Kai‐Hsiang Chuang, Boon Huat Bay, Jun Ding & Hai Ming Fan. (2016) Synthesis of Ferromagnetic Fe 0.6 Mn 0.4 O Nanoflowers as a New Class of Magnetic Theranostic Platform for In Vivo T 1 ‐T 2 Dual‐Mode Magnetic Resonance Imaging and Magnetic Hyperthermia Therapy . Advanced Healthcare Materials 5:16, pages 2092-2104.
Crossref
Iordana Astefanoaei, Ioan Dumitru, Horia Chiriac & Alexandru Stancu. (2016) Thermofluid Analysis in Magnetic Hyperthermia Using Low Curie Temperature Particles. IEEE Transactions on Magnetics 52:7, pages 1-5.
Crossref
G. Pizzichelli, F. Di Michele & E. Sinibaldi. (2016) An analytical model for nanoparticles concentration resulting from infusion into poroelastic brain tissue. Mathematical Biosciences 272, pages 6-14.
Crossref
Sanjeev Soni, Himanshu Tyagi, Robert A. Taylor & Amod Kumar. (2015) Experimental and numerical investigation of heat confinement during nanoparticle-assisted thermal therapy. International Communications in Heat and Mass Transfer 69, pages 11-17.
Crossref
MORTEZA HEYDARI, MEHRDAD JAVIDI, MOHAMMAD MAHDI ATTAR, ALIREZA KARIMI, MAHDI NAVIDBAKHSH, MOHAMMAD HAGHPANAHI & SAEID AMANPOUR. (2015) MAGNETIC FLUID HYPERTHERMIA IN A CYLINDRICAL GEL CONTAINS WATER FLOW. Journal of Mechanics in Medicine and Biology 15:05, pages 1550088.
Crossref
WISSAM ASSAAD, ALEX JAHYA, PEDRO MOREIRA & SARTHAK MISRA. (2015) FINITE-ELEMENT MODELING OF A BEVEL-TIPPED NEEDLE INTERACTING WITH GEL. Journal of Mechanics in Medicine and Biology 15:05, pages 1550079.
Crossref
James J. Kwan, Rachel Myers, Christian M. Coviello, Susan M. Graham, Apurva R. Shah, Eleanor Stride, Robert C. Carlisle & Constantin C. Coussios. (2015) Ultrasound-Propelled Nanocups for Drug Delivery. Small 11:39, pages 5305-5314.
Crossref
F. Di Michele, G. Pizzichelli, B. Mazzolai & E. Sinibaldi. (2015) On the preliminary design of hyperthermia treatments based on infusion and heating of magnetic nanofluids. Mathematical Biosciences 262, pages 105-116.
Crossref
R R Wildeboer, P Southern & Q A Pankhurst. (2014) On the reliable measurement of specific absorption rates and intrinsic loss parameters in magnetic hyperthermia materials. Journal of Physics D: Applied Physics 47:49, pages 495003.
Crossref
Irene Tsiapa, Eleni K. Efthimiadou, Eirini Fragogeorgi, George Loudos, Alexandra D. Varvarigou, Penelope Bouziotis, George C. Kordas, Dimitris Mihailidis, George C. Nikiforidis, Stavros Xanthopoulos, Dimitrios Psimadas, Maria Paravatou-Petsotas, Lazaros Palamaris, John D. Hazle & George C. Kagadis. (2014) 99m Tc-labeled aminosilane-coated iron oxide nanoparticles for molecular imaging of ανβ3 -mediated tumor expression and feasibility for hyperthermia treatment. Journal of Colloid and Interface Science 433, pages 163-175.
Crossref
Peter Isfort, H. Witte, I. Slabu, T. Penzkofer, M. Baumann, T. Braunschweig, L. N. Kennes, C. K. Kuhl, T. Schmitz-Rode, A. H. Mahnken & P. Bruners. (2014) Efficacy of Magnetic Thermoablation Using SPIO in the Treatment of Osteoid Osteoma in a Bovine Model Compared to Radiofrequency and Microwave Ablation. CardioVascular and Interventional Radiology 37:4, pages 1053-1061.
Crossref
Ling Gu, Ali R. Koymen & Samarendra K. Mohanty. (2014) Crystalline magnetic carbon nanoparticle assisted photothermal delivery into cells using CW near-infrared laser beam. Scientific Reports 4:1.
Crossref
Antonios Makridis, Konstantina Topouridou, Magdalini Tziomaki, Despoina Sakellari, Konstantinos Simeonidis, Mavroeidis Angelakeris, Maria P. Yavropoulou, John G. Yovos & Orestis Kalogirou. (2014) In vitro application of Mn-ferrite nanoparticles as novel magnetic hyperthermia agents. J. Mater. Chem. B 2:47, pages 8390-8398.
Crossref
L. O. Mair & R. Superfine. (2014) Single particle tracking reveals biphasic transport during nanorod magnetophoresis through extracellular matrix. Soft Matter 10:23, pages 4118-4125.
Crossref
D. Jaque, L. Martínez Maestro, B. del Rosal, P. Haro-Gonzalez, A. Benayas, J. L. Plaza, E. Martín Rodríguez & J. García Solé. (2014) Nanoparticles for photothermal therapies. Nanoscale 6:16, pages 9494-9530.
Crossref
Xiao Li Liu, Eugene Shi Guang Choo, Anansa S. Ahmed, Ling Yun Zhao, Yong Yang, Raju V. Ramanujan, Jun Min Xue, Dai Di Fan, Hai Ming Fan & Jun Ding. (2014) Magnetic nanoparticle-loaded polymer nanospheres as magnetic hyperthermia agents. J. Mater. Chem. B 2:1, pages 120-128.
Crossref
Bin Wang, Pei-pei Zhang, Gareth R. Williams, Christopher Branford-White, Jing Quan, Hua-li Nie & Li-min Zhu. (2013) A simple route to form magnetic chitosan nanoparticles from coaxial-electrospun composite nanofibers. Journal of Materials Science 48:11, pages 3991-3998.
Crossref
Sara Novak, Damjana Drobne, Miha Golobič, Jernej Zupanc, Tea Romih, Alessandra Gianoncelli, Maya Kiskinova, Burkhard Kaulich, Primož Pelicon, Primož Vavpetič, Luka Jeromel, Nina Ogrinc & Darko Makovec. (2013) Cellular Internalization of Dissolved Cobalt Ions from Ingested CoFe 2 O 4 Nanoparticles: In Vivo Experimental Evidence . Environmental Science & Technology 47:10, pages 5400-5408.
Crossref
Robert Taylor, Sylvain Coulombe, Todd Otanicar, Patrick Phelan, Andrey Gunawan, Wei Lv, Gary Rosengarten, Ravi Prasher & Himanshu Tyagi. (2013) Small particles, big impacts: A review of the diverse applications of nanofluids. Journal of Applied Physics 113:1.
Crossref
S.W. Larsen, J. Østergaard, A. Yaghmur, H. Jensen & C. Larsen. (2013) Use of in vitro release models in the design of sustained and localized drug delivery systems for subcutaneous and intra-articular administration. Journal of Drug Delivery Science and Technology 23:4, pages 315-324.
Crossref
W Minkowycz, E Sparrow & J AbrahamMichael Etheridge, Navid Manuchehrabadi, Rhonda Franklin & John Bischof. 2012. Nanoparticle Heat Transfer and Fluid Flow. Nanoparticle Heat Transfer and Fluid Flow 97 122 .
W Minkowycz, E Sparrow & J AbrahamRonghui Ma, Di Su & Liang Zhu. 2012. Nanoparticle Heat Transfer and Fluid Flow. Nanoparticle Heat Transfer and Fluid Flow 69 96 .
Fengbin Ye, Susan Weng Larsen, Anan Yaghmur, Henrik Jensen, Claus Larsen & Jesper Østergaard. (2012) Drug release into hydrogel-based subcutaneous surrogates studied by UV imaging. Journal of Pharmaceutical and Biomedical Analysis 71, pages 27-34.
Crossref
N. Manuchehrabadi, A. Attaluri, H. Cai, R. Edziah, E. Lalanne, C. Bieberich, R. Ma, A. M. Johnson & L. Zhu. (2012) MicroCT Imaging and In Vivo Temperature Elevations in Implanted Prostatic Tumors in Laser Photothermal Therapy Using Gold Nanorods. Journal of Nanotechnology in Engineering and Medicine 3:2.
Crossref
Manu Mital & Hooman V. Tafreshi. (2011) A methodology for determining optimal thermal damage in magnetic nanoparticle hyperthermia cancer treatment. International Journal for Numerical Methods in Biomedical Engineering 28:2, pages 205-213.
Crossref
Catherine C. Berry. 2012. Nanobiotechnology - Inorganic Nanoparticles vs Organic Nanoparticles. Nanobiotechnology - Inorganic Nanoparticles vs Organic Nanoparticles 159 180 .
M. Lahonian & A. A. Golneshan. (2011) Numerical Study of Temperature Distribution in a Spherical Tissue in Magnetic Fluid Hyperthermia Using Lattice Boltzmann Method. IEEE Transactions on NanoBioscience 10:4, pages 262-268.
Crossref
Yosefine Arum, Youngjin Song & Junghwan Oh. (2011) Controlling the optimum dose of AMPTS functionalized-magnetite nanoparticles for hyperthermia cancer therapy. Applied Nanoscience 1:4, pages 237-246.
Crossref
Patrick Marmorato, Giacomo Ceccone, Alessandra Gianoncelli, Lorella Pascolo, Jessica Ponti, François Rossi, Murielle Salomé, Burkhard Kaulich & Maya Kiskinova. (2011) Cellular distribution and degradation of cobalt ferrite nanoparticles in Balb/3T3 mouse fibroblasts. Toxicology Letters 207:2, pages 128-136.
Crossref
Di Su, Ronghui Ma & Liang Zhu. (2011) Numerical study of nanofluid infusion in deformable tissues for hyperthermia cancer treatments. Medical & Biological Engineering & Computing 49:11, pages 1233-1240.
Crossref
Ali Akbar Golneshan & Mansour Lahonian. (2011) Diffusion of magnetic nanoparticles in a multi-site injection process within a biological tissue during magnetic fluid hyperthermia using lattice Boltzmann method. Mechanics Research Communications 38:6, pages 425-430.
Crossref
Sophie Laurent, Silvio Dutz, Urs O. Häfeli & Morteza Mahmoudi. (2011) Magnetic fluid hyperthermia: Focus on superparamagnetic iron oxide nanoparticles. Advances in Colloid and Interface Science 166:1-2, pages 8-23.
Crossref
Daisuke Kami, Shogo Takeda, Yoko Itakura, Satoshi Gojo, Masatoshi Watanabe & Masashi Toyoda. (2011) Application of Magnetic Nanoparticles to Gene Delivery. International Journal of Molecular Sciences 12:6, pages 3705-3722.
Crossref
Kuo-Chi Liu. (2011) Nonlinear behavior of thermal lagging in concentric living tissues with Gaussian distribution source. International Journal of Heat and Mass Transfer 54:13-14, pages 2829-2836.
Crossref
Jing Fan & Liqiu Wang. (2011) Analytical theory of bioheat transport. Journal of Applied Physics 109:10.
Crossref
Anilchandra Attaluri, Ronghui Ma & Liang Zhu. (2011) Using MicroCT Imaging Technique to Quantify Heat Generation Distribution Induced by Magnetic Nanoparticles for Cancer Treatments. Journal of Heat Transfer 133:1.
Crossref
Raja Shekar Rachakatla, Sivasai Balivada, Gwi-Moon Seo, Carl B. Myers, Hongwang Wang, Thilani N. Samarakoon, Raj Dani, Marla Pyle, Franklin O. Kroh, Brandon Walker, Xiaoxuan Leaym, Olga B. Koper, Viktor Chikan, Stefan H. Bossmann, Masaaki Tamura & Deryl L. Troyer. (2010) Attenuation of Mouse Melanoma by A/C Magnetic Field after Delivery of Bi-Magnetic Nanoparticles by Neural Progenitor Cells. ACS Nano 4:12, pages 7093-7104.
Crossref
Liang Zhu. (2010) Recent Developments in Biotransport. Journal of Thermal Science and Engineering Applications 2:4.
Crossref
A. V. Kuznetsov & D. A. Nield. (2010) The Onset of Double-Diffusive Nanofluid Convection in a Layer of a Saturated Porous Medium. Transport in Porous Media 85:3, pages 941-951.
Crossref
Tuan Anh Pham, Nanjundan Ashok Kumar & Yeon Tae Jeong. (2010) Facile preparation of boronic acid functionalized Fe-core/Au-shell magnetic nanoparticles for covalent immobilization of adenosine. Colloids and Surfaces A: Physicochemical and Engineering Aspects 370:1-3, pages 95-101.
Crossref
Di Su, Ronghui Ma, Maher Salloum & Liang Zhu. (2010) Multi-scale study of nanoparticle transport and deposition in tissues during an injection process. Medical & Biological Engineering & Computing 48:9, pages 853-863.
Crossref
Huang-Chiao Huang, Kaushal Rege & Jeffrey J. Heys. (2010) Spatiotemporal Temperature Distribution and Cancer Cell Death in Response to Extracellular Hyperthermia Induced by Gold Nanorods. ACS Nano 4:5, pages 2892-2900.
Crossref
Philipp Bruners, Till Braunschweig, Michael Hodenius, Hubertus Pietsch, Tobias Penzkofer, Martin Baumann, Rolf W. Günther, Thomas Schmitz-Rode & Andreas H. Mahnken. (2009) Thermoablation of Malignant Kidney Tumors Using Magnetic Nanoparticles: An In Vivo Feasibility Study in a Rabbit Model. CardioVascular and Interventional Radiology 33:1, pages 127-134.
Crossref
Cristina I. Olariu, Humphrey H. P. Yiu & Laurent Bouffier. 2013. New Frontiers of Nanoparticles and Nanocomposite Materials. New Frontiers of Nanoparticles and Nanocomposite Materials 85 133 .
Catherine C Berry. (2009) Progress in functionalization of magnetic nanoparticles for applications in biomedicine. Journal of Physics D: Applied Physics 42:22, pages 224003.
Crossref
Chun-han Hou, Ching-wei Chen, Sheng-mou Hou, Yu-ting Li & Feng-huei Lin. (2009) The fabrication and characterization of dicalcium phosphate dihydrate-modified magnetic nanoparticles and their performance in hyperthermia processes in vitro. Biomaterials 30:27, pages 4700-4707.
Crossref
Xiang-Yu Ye, Zhen-Mei Liu, Zhen-Gang Wang, Xiao-Jun Huang & Zhi-Kang Xu. (2009) Preparation and characterization of magnetic nanofibrous composite membranes with catalytic activity. Materials Letters 63:21, pages 1810-1813.
Crossref
Marjan Rafat, Danielle R. Raad, Amy C. Rowat & Debra T. Auguste. (2009) Fabrication of reversibly adhesive fluidic devices using magnetism. Lab on a Chip 9:20, pages 3016.
Crossref
Kyung Taek Oh & Eun Seong Lee. (2008) Cancer‐associated pH‐responsive tetracopolymeric micelles composed of poly(ethylene glycol)‐ b ‐poly( L ‐histidine)‐ b ‐poly( L ‐lactic acid)‐ b ‐poly(ethylene glycol) . Polymers for Advanced Technologies 19:12, pages 1907-1913.
Crossref

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