Literature DB >> 19271715

Tailoring the structure of nanopyramids for optimal heat generation.

Warefta Hasan1, Christopher L Stender, Min Hyung Lee, Colleen L Nehl, Jeunghoon Lee.   

Abstract

This paper investigates how structural features of noble metal nanoparticles affect their photothermal properties. Using PEEL, we fabricated a range of Au nanopyramid-like particles with surface plasmon resonances tunable from visible to near-infrared wavelengths. By systematically varying geometric parameters including size, shell thickness, and presence or absence of tips, we determined which factors were most important in heat generation. For solutions with the same Au content, we discovered that pyramidal particles with thin shells and having sharp tips showed the largest photothermal response.

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Year:  2009        PMID: 19271715      PMCID: PMC2668542          DOI: 10.1021/nl803647n

Source DB:  PubMed          Journal:  Nano Lett        ISSN: 1530-6984            Impact factor:   11.189


  24 in total

1.  A clearer vision for in vivo imaging.

Authors:  R Weissleder
Journal:  Nat Biotechnol       Date:  2001-04       Impact factor: 54.908

2.  Mesoscale metallic pyramids with nanoscale tips.

Authors:  Joel Henzie; Eun-Soo Kwak; Teri W Odom
Journal:  Nano Lett       Date:  2005-07       Impact factor: 11.189

Review 3.  Therapeutic possibilities of plasmonically heated gold nanoparticles.

Authors:  Dakrong Pissuwan; Stella M Valenzuela; Michael B Cortie
Journal:  Trends Biotechnol       Date:  2005-12-27       Impact factor: 19.536

Review 4.  Why gold nanoparticles are more precious than pretty gold: noble metal surface plasmon resonance and its enhancement of the radiative and nonradiative properties of nanocrystals of different shapes.

Authors:  Susie Eustis; Mostafa A el-Sayed
Journal:  Chem Soc Rev       Date:  2005-12-16       Impact factor: 54.564

5.  Optimization of plasmonic heating by gold nanospheres and nanoshells.

Authors:  Nadine Harris; Michael J Ford; Michael B Cortie
Journal:  J Phys Chem B       Date:  2006-06-08       Impact factor: 2.991

6.  Highly efficient, wavelength-tunable, gold nanoparticle based optothermal nanoconvertors.

Authors:  Cheng-Hsuan Chou; Cheng-Dah Chen; C R Chris Wang
Journal:  J Phys Chem B       Date:  2005-06-09       Impact factor: 2.991

7.  Gold nanoparticles are taken up by human cells but do not cause acute cytotoxicity.

Authors:  Ellen E Connor; Judith Mwamuka; Anand Gole; Catherine J Murphy; Michael D Wyatt
Journal:  Small       Date:  2005-03       Impact factor: 13.281

Review 8.  Gold nanostructures: engineering their plasmonic properties for biomedical applications.

Authors:  Min Hu; Jingyi Chen; Zhi-Yuan Li; Leslie Au; Gregory V Hartland; Xingde Li; Manuel Marquez; Younan Xia
Journal:  Chem Soc Rev       Date:  2006-09-06       Impact factor: 54.564

9.  Manipulating the optical properties of pyramidal nanoparticle arrays.

Authors:  Joel Henzie; Kevin L Shuford; Eun-Soo Kwak; George C Schatz; Teri W Odom
Journal:  J Phys Chem B       Date:  2006-07-27       Impact factor: 2.991

10.  Size-dependent cytotoxicity of gold nanoparticles.

Authors:  Yu Pan; Sabine Neuss; Annika Leifert; Monika Fischler; Fei Wen; Ulrich Simon; Günter Schmid; Wolfgang Brandau; Willi Jahnen-Dechent
Journal:  Small       Date:  2007-11       Impact factor: 13.281
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  16 in total

1.  Using SV119-gold nanocage conjugates to eradicate cancer stem cells through a combination of photothermal and chemo therapies.

Authors:  Tianmeng Sun; Yi Wang; Yucai Wang; Jinbin Xu; Xin Zhao; Suwanna Vangveravong; Robert H Mach; Younan Xia
Journal:  Adv Healthc Mater       Date:  2014-03-26       Impact factor: 9.933

Review 2.  Putting gold nanocages to work for optical imaging, controlled release and cancer theranostics.

Authors:  Bo Pang; Xuan Yang; Younan Xia
Journal:  Nanomedicine (Lond)       Date:  2016-06-27       Impact factor: 5.307

3.  Biological stimuli and biomolecules in the assembly and manipulation of nanoscale polymeric particles.

Authors:  Lyndsay M Randolph; Miao-Ping Chien; Nathan C Gianneschi
Journal:  Chem Sci       Date:  2012-05-01       Impact factor: 9.825

Review 4.  The golden age: gold nanoparticles for biomedicine.

Authors:  Erik C Dreaden; Alaaldin M Alkilany; Xiaohua Huang; Catherine J Murphy; Mostafa A El-Sayed
Journal:  Chem Soc Rev       Date:  2011-11-22       Impact factor: 54.564

5.  Optical properties of tipless gold nanopyramids.

Authors:  Christina M Sweeney; Christopher L Stender; Colleen L Nehl; Warefta Hasan; Kevin L Shuford; Teri W Odom
Journal:  Small       Date:  2011-06-09       Impact factor: 13.281

6.  High Performance In Vivo Near-IR (>1 μm) Imaging and Photothermal Cancer Therapy with Carbon Nanotubes.

Authors:  Joshua T Robinson; Kevin Welsher; Scott M Tabakman; Sarah P Sherlock; Hailiang Wang; Richard Luong; Hongjie Dai
Journal:  Nano Res       Date:  2010-10-01       Impact factor: 8.897

7.  Gold nanocages as photothermal transducers for cancer treatment.

Authors:  Jingyi Chen; Charles Glaus; Richard Laforest; Qiang Zhang; Miaoxian Yang; Michael Gidding; Michael J Welch; Younan Xia
Journal:  Small       Date:  2010-04-09       Impact factor: 13.281

8.  Comparison study of gold nanohexapods, nanorods, and nanocages for photothermal cancer treatment.

Authors:  Yucai Wang; Kvar C L Black; Hannah Luehmann; Weiyang Li; Yu Zhang; Xin Cai; Dehui Wan; Si-Yun Liu; Max Li; Paul Kim; Zhi-Yuan Li; Lihong V Wang; Yongjian Liu; Younan Xia
Journal:  ACS Nano       Date:  2013-02-12       Impact factor: 15.881

9.  Quantifying the cellular uptake of antibody-conjugated Au nanocages by two-photon microscopy and inductively coupled plasma mass spectrometry.

Authors:  Leslie Au; Qiang Zhang; Claire M Cobley; Michael Gidding; Andrea G Schwartz; Jingyi Chen; Younan Xia
Journal:  ACS Nano       Date:  2010-01-26       Impact factor: 15.881

10.  Enzyme-directed assembly of a nanoparticle probe in tumor tissue.

Authors:  Miao-Ping Chien; Matthew P Thompson; Christopher V Barback; Ti-Hsuan Ku; David J Hall; Nathan C Gianneschi
Journal:  Adv Mater       Date:  2013-05-28       Impact factor: 30.849
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