Inkjet-printed gold nanoparticle electrochemical arrays on plastic. Application to immunodetection of a cancer biomarker protein.
暂无分享,去创建一个
Colleen E Krause | James F Rusling | Gary C Jensen | Gregory A Sotzing | G. Sotzing | J. Rusling | C. Krause | Gary Jensen | Colleen Krause
[1] Joseph D. Gong,et al. Carbon nanotube amplification strategies for highly sensitive immunodetection of cancer biomarkers. , 2006, Journal of the American Chemical Society.
[2] Guodong Liu,et al. Multiple enzyme layers on carbon nanotubes for electrochemical detection down to 80 DNA copies. , 2005, Analytical chemistry.
[3] Hua-Zhong Yu,et al. Inkjet printed electrode arrays for potential modulation of DNA self-assembled monolayers on gold. , 2008, Analytical chemistry.
[4] P. Calvert. Inkjet Printing for Materials and Devices , 2001 .
[5] Chuan-ju Liu,et al. Serum interleukin-6 as a marker of periprosthetic infection following total hip and knee arthroplasty. , 2005, The Journal of bone and joint surgery. American volume.
[6] Karl Hörmann,et al. Serum levels of interleukin-6 in patients with primary head and neck squamous cell carcinoma. , 2005, Anticancer research.
[7] J. P. McCoy,et al. Serum IL-6: a candidate biomarker for intracranial pressure elevation following isolated traumatic brain injury , 2010, Journal of Neuroinflammation.
[8] J. Fourkas. Nanoscale Photolithography with Visible Light , 2010 .
[9] C. Grigoropoulos,et al. Air stable high resolution organic transistors by selective laser sintering of ink-jet printed metal nanoparticles , 2007 .
[10] Yuan‐Chiang Chung,et al. Clinical significance of tissue expression of interleukin-6 in colorectal carcinoma. , 2006, Anticancer research.
[11] Yee-Chia Yeo,et al. Controlled insulator-to-metal transformation in printable polymer composites with nanometal clusters. , 2007, Nature materials.
[12] David Elashoff,et al. Electrochemical Sensor for Multiplex Biomarkers Detection , 2009, Clinical Cancer Research.
[13] Vivek Subramanian,et al. Plastic-Compatible Low Resistance Printable Gold Nanoparticle Conductors for Flexible Electronics , 2003 .
[14] Chad A. Mirkin,et al. Drivers of biodiagnostic development , 2009, Nature.
[15] Marc D. Porter,et al. Alkanethiolate Gold Cluster Molecules with Core Diameters from 1.5 to 5.2 nm: Core and Monolayer Properties as a Function of Core Size , 1998 .
[16] James F Rusling,et al. Measurement of biomarker proteins for point-of-care early detection and monitoring of cancer. , 2010, The Analyst.
[17] Joseph Wang. Nanomaterial-based electrochemical biosensors. , 2005, The Analyst.
[18] E. Diamandis,et al. Strategies for discovering novel cancer biomarkers through utilization of emerging technologies , 2008, Nature Clinical Practice Oncology.
[19] S. Akira,et al. Interleukin-6 family of cytokines and gp130. , 1995, Blood.
[20] Michael S Wilson,et al. Electrochemical multianalyte immunoassays using an array-based sensor. , 2006, Analytical chemistry.
[21] Joseph Wang,et al. Electrochemical biosensors: towards point-of-care cancer diagnostics. , 2006, Biosensors & bioelectronics.
[22] Chih-Ming Ho,et al. Bio/abiotic interface constructed from nanoscale DNA dendrimer and conducting polymer for ultrasensitive biomolecular diagnosis. , 2009, Small.
[23] J. S. Gutkind,et al. Electrochemical Immunosensors for Interleukin-6. Comparison of Carbon Nanotube Forest and Gold Nanoparticle platforms. , 2009, Electrochemistry communications.
[24] J. Crowley,et al. Prevalence of prostate cancer among men with a prostate-specific antigen level < or =4.0 ng per milliliter. , 2004, The New England journal of medicine.
[25] U. Schubert,et al. Inkjet Printing of Narrow Conductive Tracks on Untreated Polymeric Substrates , 2008 .
[26] Guo‐Jun Zhang,et al. Serum interleukin-6 levels correlate to tumor progression and prognosis in metastatic breast carcinoma. , 1999, Anticancer research.
[27] Michael S. Wilson,et al. Multiplex measurement of seven tumor markers using an electrochemical protein chip. , 2006, Analytical chemistry.
[28] Masayuki Oba. Effect of curing accelerators on thermal imidization of polyamic acids at low temperature , 1996 .
[29] James F Rusling,et al. Ultrasensitive immunosensor for cancer biomarker proteins using gold nanoparticle film electrodes and multienzyme-particle amplification. , 2009, ACS nano.
[30] P. Kragsbjerg,et al. Serum concentrations of interleukin-6, tumour necrosis factor-alpha, and C-reactive protein in patients undergoing major operations. , 1995, The European journal of surgery = Acta chirurgica.
[31] Royce W Murray,et al. Nanoelectrochemistry: metal nanoparticles, nanoelectrodes, and nanopores. , 2008, Chemical reviews.
[32] S. Hanash,et al. Mining the plasma proteome for cancer biomarkers , 2008, Nature.
[33] Jae-Woo Joung,et al. Direct synthesis and inkjetting of silver nanocrystals toward printed electronics , 2006 .
[34] F. Papadimitrakopoulos,et al. Sequential layer analysis of protein immunosensors based on single wall carbon nanotube forests. , 2010, Langmuir : the ACS journal of surfaces and colloids.
[35] C. Grigoropoulos,et al. An experimental investigation of microresistor laser printing with gold nanoparticle-laden inks , 2005 .
[36] James F. Rusling,et al. Carbon Nanotubes for Electronic and Electrochemical Detection of Biomolecules , 2007, Advanced materials.
[37] James F Rusling,et al. Single-wall carbon nanotube forest arrays for immunoelectrochemical measurement of four protein biomarkers for prostate cancer. , 2009, Analytical chemistry.
[38] B. G. Blijenberg,et al. Screening and prostate-cancer mortality in a randomized European study. , 2009, The New England journal of medicine.
[39] M. Kuo,et al. The anti-apoptotic role of interleukin-6 in human cervical cancer is mediated by up-regulation of Mcl-1 through a PI 3-K/Akt pathway , 2001, Oncogene.
[40] Timothy D. Veenstra,et al. Proteomic patterns: their potential for disease diagnosis , 2005, Molecular and Cellular Endocrinology.
[41] J. Vaqué,et al. Ultrasensitive electrochemical immunosensor for oral cancer biomarker IL-6 using carbon nanotube forest electrodes and multilabel amplification. , 2010, Analytical chemistry.