publication_uri | type | publication_title | year | doi | pmid | journal_uri |
http://vivo.scripps.edu/individual/e2n32988 | AcademicArticle | Delivery and tracking of quantum dot peptide bioconjugates in an intact developing avian brain | 2015 | 10.1021/acschemneuro.5b00022 | 25688887 | http://vivo.scripps.edu/individual/endnote309398 |
http://vivo.scripps.edu/individual/e2n369302 | AcademicArticle | Examining the polyproline nanoscopic ruler in the context of quantum dots | 2015 | 10.1021/acs.chemmater.5b03181 | http://vivo.scripps.edu/individual/endnote192333 | |
http://vivo.scripps.edu/individual/e2n382149 | AcademicArticle | The role of negative charge in the delivery of quantum dots to neurons | 2015 | 10.1177/1759091415592389 | 26243591 | http://vivo.scripps.edu/individual/enote110322 |
http://vivo.scripps.edu/individual/e12n165049 | AcademicArticle | Probing the quenching of quantum dot photoluminescence by peptide-labeled ruthenium(II) complexes | 2014 | 10.1021/jp501039w | 24817922 | http://vivo.scripps.edu/individual/endnote49994 |
http://vivo.scripps.edu/individual/e3n241002 | AcademicArticle | Evaluation of diverse peptidyl motifs for cellular delivery of semiconductor quantum dots | 2013 | 10.1007/s00216-013-6982-2 | 23732866 | http://vivo.scripps.edu/individual/endnote212894 |
http://vivo.scripps.edu/individual/e3n211496 | AcademicArticle | Selecting improved peptidyl motifs for cytosolic delivery of disparate protein and nanoparticle materials | 2013 | 10.1021/nn400702r | 23710591 | http://vivo.scripps.edu/individual/endnote94627 |
http://vivo.scripps.edu/individual/e4n151812 | AcademicArticle | Site-specific cellular delivery of quantum dots with chemoselectively-assembled modular peptides | 2013 | 10.1039/c3cc42781a | 23759873 | http://vivo.scripps.edu/individual/endnote7617 |
http://vivo.scripps.edu/individual/e6n70085 | AcademicArticle | Competition between Förster resonance energy transfer and electron transfer in stoichiometrically assembled semiconductor quantum dot-fullerene conjugates | 2013 | 10.1021/nn403872x | 24128175 | http://vivo.scripps.edu/individual/endnote94627 |
http://vivo.scripps.edu/individual/e1n232471 | AcademicArticle | Multimodal characterization of a linear DNA-based nanostructure | 2012 | 10.1021/nn204680r | 22257317 | http://vivo.scripps.edu/individual/endnote94627 |
http://vivo.scripps.edu/individual/enote300087 | AcademicArticle | Complex Förster energy transfer interactions between semiconductor quantum dots and a redox-active osmium assembly | 2012 | 10.1021/nn301177h | 22671940 | http://vivo.scripps.edu/individual/endnote94627 |
http://vivo.scripps.edu/individual/enote21019 | AcademicArticle | Nanoparticle targeting to neurons in a rat hippocampal slice culture model | 2012 | 10.1042/an20120042 | 22973864 | http://vivo.scripps.edu/individual/enote110322 |
http://vivo.scripps.edu/individual/enote268766 | AcademicArticle | Quantum dots as simultaneous acceptors and donors in time-gated Förster resonance energy transfer relays: characterization and biosensing | 2012 | 10.1021/ja210162f | 22220737 | http://vivo.scripps.edu/individual/endnote181842 |
http://vivo.scripps.edu/individual/enote143628 | AcademicArticle | Proteolytic activity at quantum dot-conjugates: kinetic analysis reveals enhanced enzyme activity and localized interfacial "hopping" | 2012 | 10.1021/nl301727k | 22731798 | http://vivo.scripps.edu/individual/endnote181254 |
http://vivo.scripps.edu/individual/endnote115667 | AcademicArticle | The controlled display of biomolecules on nanoparticles: a challenge suited to bioorthogonal chemistry | 2011 | 10.1021/bc200065z | 21585205 | http://vivo.scripps.edu/individual/endnote102113 |
http://vivo.scripps.edu/individual/endnote370729 | AcademicArticle | Terbium to quantum dot FRET bioconjugates for clinical diagnostics: influence of human plasma on optical and assembly properties | 2011 | 10.3390/s111009667 | 22163719 | http://vivo.scripps.edu/individual/endnote239632 |
http://vivo.scripps.edu/individual/endnote42102 | AcademicArticle | Monitoring botulinum neurotoxin a activity with peptide-functionalized quantum dot resonance energy transfer sensors | 2011 | 10.1021/nn102997b | 21361387 | http://vivo.scripps.edu/individual/endnote94627 |
http://vivo.scripps.edu/individual/endnote60645 | AcademicArticle | Quantum dot peptide biosensors for monitoring caspase 3 proteolysis and calcium ions | 2010 | 10.1021/nn1016132 | 20822159 | http://vivo.scripps.edu/individual/endnote94627 |
http://vivo.scripps.edu/individual/endnote44942 | AcademicArticle | Quantum dot DNA bioconjugates: attachment chemistry strongly influences the resulting composite architecture | 2010 | 10.1021/nn1021346 | 21082822 | http://vivo.scripps.edu/individual/endnote94627 |
http://vivo.scripps.edu/individual/endnote119410 | AcademicArticle | Multidentate poly(ethylene glycol) ligands provide colloidal stability to semiconductor and metallic nanocrystals in extreme conditions | 2010 | 10.1021/ja102898d | 20578776 | http://vivo.scripps.edu/individual/endnote181842 |
http://vivo.scripps.edu/individual/endnote224648 | AcademicArticle | Self-assembled quantum dot-sensitized multivalent DNA photonic wires | 2010 | 10.1021/ja106465x | 21141858 | http://vivo.scripps.edu/individual/endnote181842 |
http://vivo.scripps.edu/individual/enote394067 | AcademicArticle | Quantum-dot/dopamine bioconjugates function as redox coupled assemblies for in vitro and intracellular pH sensing | 2010 | 10.1038/nmat2811 | 20651808 | http://vivo.scripps.edu/individual/endnote203121 |
http://vivo.scripps.edu/individual/enote349286 | AcademicArticle | Polyvalent display and packing of peptides and proteins on semiconductor quantum dots: predicted versus experimental results | 2010 | 10.1002/smll.200901845 | 20077423 | http://vivo.scripps.edu/individual/endnote48760 |