Offer experimental techniques for other Nanopaprika members: SEM, TEM, AFM,...

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I offer to add to experimental techniques the best tool for generalization of experimental results obtained.

It is a Knowledge Base.

Under the Knowledge Base, I mean an information and calculation tool, containing all relationships between all variables of nano object, allowing to calculate a value of one variable by means of others as well as allowing a solving of direct and inverse problems, allowing a predicting of characteristics of nano objects which have not been investigated yet as well as a predicting a technology parameters that provide the required characteristics of nano object. I have a large experience for the Knowledge Base creation by means of Data Mining.

Will you see, please, a description in brief in Victor Abrukov. Knowledge base is a future of nanomaterials world. Abstracts of the 3rd International Conference on Nanotek & Expo, December 02-04, 2013 Hampton Inn Tropicana Las Vegas, USA // http://www.omicsgroup.com/conferences/ACS/conference/download-pdf.p...

I enclose the presentation of which I have made on the 3rd International Conference on Nanotek & Expo, December 02-04, 2013 Hampton Inn Tropicana Las Vegas, USA

The examples see, please, also in:

Abrukov et al http://elibrary.ru/item.asp?id=21115277

Abrukov et al http://elibrary.ru/item.asp?id=21115276

I offer to add to experimental techniques the best tool for generalization of experimental results obtained.

It is a Knowledge Base.

Under the Knowledge Base, I mean an information and calculation tool, containing all relationships between all variables of nano object, allowing to calculate a value of one variable by means of others as well as allowing a solving of direct and inverse problems, allowing a predicting of characteristics of nano objects which have not been investigated yet as well as a predicting a technology parameters that provide the required characteristics of nano object. I have a large experience for the Knowledge Base creation by means of Data Mining.

Will you see, please, a description in brief in Victor Abrukov. Knowledge base is a future of nanomaterials world. Abstracts of the 3rd International Conference on Nanotek & Expo, December 02-04, 2013 Hampton Inn Tropicana Las Vegas, USA // http://www.omicsgroup.com/conferences/ACS/conference/download-pdf.p...

I enclose the presentation of which I have made on the 3rd International Conference on Nanotek & Expo, December 02-04, 2013 Hampton Inn Tropicana Las Vegas, USA

The examples see, please, also in:

Abrukov et al http://elibrary.ru/item.asp?id=21115277

Abrukov et al http://elibrary.ru/item.asp?id=21115276

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HI - Happy 2015!

Lumiprobe offers to help with your nanotechnology research

Visit Lumiprobe.com , ask questions while you design your project. Each reagent page offers extensive information on what reagent binds to, information on structure, absorption and emission spectra, downloadable MSDS, and general properties.


Lumiprobe citation list
http://www.lumiprobe.com/citations
research publications citing use of Lumiprobe products, sorted by date or by product.

examples of use in nanotechnology

Choi, E.B.; Choi, J.; Bae, S.R.; Kim, H.-O.; Jang, E.; Kang, B.; Kim, M.-H.; Kim, B.; Suh, J.-S.; Lee, K. et al. Nano Research. Colourimetric redox-polyaniline nanoindicator for in situ vesicular trafficking of intracellular transport, 2014. doi: 10.1007/s12274-014-0597-6

Lin, Y.-A.; Cheetham, A.G.; Zhang, P.; Ou, Y.-C.; Li, Y.; Liu, G.; Hermida Merino, D.; Hamley, I.W.; Cui, H. Multi-Walled Nanotubes Formed by Catanionic Mixtures of Drug Amphiphiles. ACS Nano, 2014, 8(12), 12690-12700. doi: 10.1021/nn505688b

Ayala-Orozco, C.; Liu, J.G.; Knight, M.W.; Wang, Y.; Day, J.K.; Nordlander, P.; Halas, N.J. Nano Letters. Fluorescence Enhancement of Molecules Inside a Gold Nanomatryoshka, 2014, 14(5), 2926-2933.doi: 10.1021/nl501027j

Bruckman, M.A.; Randolph, L.N.; VanMeter, A.; Hern, S.; Shoffstall, A.J.; Taurog, R.E.; Steinmetz, N.F. Virology. Biodistribution, pharmacokinetics, and blood compatibility of native and PEGylated tobacco mosaic virus nano-rods and -spheres in mice, 2014, 449, 163-173. doi: 10.1016/j.virol.2013.10.035


 Hu, S.-H.; Fang, R.-H.; Chen, Y.-W.; Liao, B.-J.; Chen, I.-W.; Chen, S.-Y. Advanced Functional Materials. Photoresponsive Protein-Graphene-Protein Hybrid Capsules with Dual Targeted Heat-Triggered Drug Delivery Approach for Enhanced Tumor Therapy, 2014, 24(26), 4144-4155. doi: 10.1002/adfm.201400080

Li, L.-L.; Xu, J.-H.; Qi, G.-B.; Zhao, X.; Yu, F.; Wang, H. ACS Nano. Core-Shell Supramolecular Gelatin Nanoparticles for Adaptive and "On-Demand" Antibiotic Delivery, 2014, 8(5), 4975-4983.doi: 10.1021/nn501040h

Lv, S.; Tang, Z.; Li, M.; Lin, J.; Song, W.; Liu, H.; Huang, Y.; Zhang, Y.; Chen, X. Biomaterials. Co-delivery of doxorubicin and paclitaxel by PEG-polypeptide nanovehicle for the treatment of non-small cell lung cancer, 2014, 35(23), 6118-6129. doi: 10.1016/j.biomaterials.2014.04.034

Ma, X.; Cheng, Z.; Jin, Y.; Liang, X.; Yang, X.; Dai, Z.; Tian, J. Biomaterials. SM5-1-Conjugated PLA nanoparticles loaded with 5-fluorouracil for targeted hepatocellular carcinoma imaging and therapy, 2014, 35(9), 2878-2889. doi: 10.1016/j.biomaterials.2013.12.045

Morton, S.W.; Lee, M.J.; Deng, Z.J.; Dreaden, E.C.; Siouve, E.; Shopsowitz, K.E.; Shah, N.J.; Yaffe, M.B.; Hammond, P.T. Science Signaling. A Nanoparticle-Based Combination Chemotherapy Delivery System for Enhanced Tumor Killing by Dynamic Rewiring of Signaling Pathways, 2014, 7(325), ra44-ra44. doi: 10.1126/scisignal.2005261

Nobori, T.; Shiosaki, S.; Mori, T.; Toita, R.; Kim, C.W.; Nakamura, Y.; Kishimura, A.; Niidome, T.; Katayama, Y. Bioconjugate Chemistry. Fluorescent Polyion Complex Nanoparticle That Incorporates an Internal Standard for Quantitative Analysis of Protein Kinase Activity, 2014, 25(5), 869-872. doi: 10.1021/bc500142j

Wang, X.; Yang, Y.; Jia, H.; Jia, W.; Miller, S.; Bowman, B.; Feng, J.; Zhan, F. Biomaterials Science. Peptide decoration of nanovehicles to achieve active targeting and pathology-responsive cellular uptake for bone metastasis chemotherapy, 2014, 2(7), 961-971. doi: 10.1039/c4bm00020j


many more citations   http://www.lumiprobe.com/citations



Traz Ardagau said:

HI - Happy 2015!

Lumiprobe offers to help with your nanotechnology research

Visit Lumiprobe.com , ask questions while you design your project. Each reagent page offers extensive information on what reagent binds to, information on structure, absorption and emission spectra, downloadable MSDS, and general properties.


Lumiprobe citation list
http://www.lumiprobe.com/citations
research publications citing use of Lumiprobe products, sorted by date or by product.

examples of use in nanotechnology

Choi, E.B.; Choi, J.; Bae, S.R.; Kim, H.-O.; Jang, E.; Kang, B.; Kim, M.-H.; Kim, B.; Suh, J.-S.; Lee, K. et al. Nano Research. Colourimetric redox-polyaniline nanoindicator for in situ vesicular trafficking of intracellular transport, 2014. doi: 10.1007/s12274-014-0597-6

Lin, Y.-A.; Cheetham, A.G.; Zhang, P.; Ou, Y.-C.; Li, Y.; Liu, G.; Hermida Merino, D.; Hamley, I.W.; Cui, H. Multi-Walled Nanotubes Formed by Catanionic Mixtures of Drug Amphiphiles. ACS Nano, 2014, 8(12), 12690-12700. doi: 10.1021/nn505688b

Ayala-Orozco, C.; Liu, J.G.; Knight, M.W.; Wang, Y.; Day, J.K.; Nordlander, P.; Halas, N.J. Nano Letters. Fluorescence Enhancement of Molecules Inside a Gold Nanomatryoshka, 2014, 14(5), 2926-2933.doi: 10.1021/nl501027j

Bruckman, M.A.; Randolph, L.N.; VanMeter, A.; Hern, S.; Shoffstall, A.J.; Taurog, R.E.; Steinmetz, N.F. Virology. Biodistribution, pharmacokinetics, and blood compatibility of native and PEGylated tobacco mosaic virus nano-rods and -spheres in mice, 2014, 449, 163-173. doi: 10.1016/j.virol.2013.10.035


 Hu, S.-H.; Fang, R.-H.; Chen, Y.-W.; Liao, B.-J.; Chen, I.-W.; Chen, S.-Y. Advanced Functional Materials. Photoresponsive Protein-Graphene-Protein Hybrid Capsules with Dual Targeted Heat-Triggered Drug Delivery Approach for Enhanced Tumor Therapy, 2014, 24(26), 4144-4155. doi: 10.1002/adfm.201400080

Li, L.-L.; Xu, J.-H.; Qi, G.-B.; Zhao, X.; Yu, F.; Wang, H. ACS Nano. Core-Shell Supramolecular Gelatin Nanoparticles for Adaptive and "On-Demand" Antibiotic Delivery, 2014, 8(5), 4975-4983.doi: 10.1021/nn501040h

Lv, S.; Tang, Z.; Li, M.; Lin, J.; Song, W.; Liu, H.; Huang, Y.; Zhang, Y.; Chen, X. Biomaterials. Co-delivery of doxorubicin and paclitaxel by PEG-polypeptide nanovehicle for the treatment of non-small cell lung cancer, 2014, 35(23), 6118-6129. doi: 10.1016/j.biomaterials.2014.04.034

Ma, X.; Cheng, Z.; Jin, Y.; Liang, X.; Yang, X.; Dai, Z.; Tian, J. Biomaterials. SM5-1-Conjugated PLA nanoparticles loaded with 5-fluorouracil for targeted hepatocellular carcinoma imaging and therapy, 2014, 35(9), 2878-2889. doi: 10.1016/j.biomaterials.2013.12.045

Morton, S.W.; Lee, M.J.; Deng, Z.J.; Dreaden, E.C.; Siouve, E.; Shopsowitz, K.E.; Shah, N.J.; Yaffe, M.B.; Hammond, P.T. Science Signaling. A Nanoparticle-Based Combination Chemotherapy Delivery System for Enhanced Tumor Killing by Dynamic Rewiring of Signaling Pathways, 2014, 7(325), ra44-ra44. doi: 10.1126/scisignal.2005261

Nobori, T.; Shiosaki, S.; Mori, T.; Toita, R.; Kim, C.W.; Nakamura, Y.; Kishimura, A.; Niidome, T.; Katayama, Y. Bioconjugate Chemistry. Fluorescent Polyion Complex Nanoparticle That Incorporates an Internal Standard for Quantitative Analysis of Protein Kinase Activity, 2014, 25(5), 869-872. doi: 10.1021/bc500142j

Wang, X.; Yang, Y.; Jia, H.; Jia, W.; Miller, S.; Bowman, B.; Feng, J.; Zhan, F. Biomaterials Science. Peptide decoration of nanovehicles to achieve active targeting and pathology-responsive cellular uptake for bone metastasis chemotherapy, 2014, 2(7), 961-971. doi: 10.1039/c4bm00020j


many more citations   http://www.lumiprobe.com/citations

Ok! I have looked and found a sentence “We found that the molecular mixing ratio, the solvent composition, the overall drug concentrations, as well as the molecular design of the studied amphiphiles are all important experimental parameters contributing to the tubular morphology” in yours article “Multiwalled Nanotubes Formed by Catanionic Mixtures of Drug Amphiphiles”.

Let’s start with this work. I need a table of your experimental results (input factors: the molecular mixing ratio, the solvent composition, the overall drug concentrations, the molecular design of the studied amphiphiles. Output (goal function) is the tubular morphology). Then I will be able to make a multifactor model of your Multiwalled Nanotubes.
I send you an example of one of my table (Note: your table may have much less rows).

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