CSIRO Publishing

An international journal for chemical science

Shopping Cart: ( empty )

Articles citing this paper

Critical Design Factors for Optical Imaging with Metal Coordination Complexes

David Parker ^A

+ Author Affiliations

- Author Affiliations

^A Department of Chemistry, Durham University, South Road, Durham, DH1 3LE, UK. Email: david.parker@durham.ac.uk

David Parker read Chemistry at Christ Church, Oxford and worked with Dr. J. M. Brown for his D.Phil, studying mechanisms of asymmetric catalysis. In 1980–81 he enjoyed a post doctoral period as a NATO Fellow with Professor J. M. Lehn in Strasbourg, before his appointment in January 1982 to a Lectureship in Chemistry at Durham University. He was promoted to a Chair at Durham in 1992, and was elected to the Fellowship of the Royal Society in 2002. His main research interests span many aspects of metal complexation phenomena; embracing synthesis, chirality, analysis, mechanism and function.

Australian Journal of Chemistry 64(3) 239-243 https://doi.org/10.1071/CH10365
Submitted: 4 October 2010 Accepted: 1 November 2010 Published: 11 March 2011

37 articles found in Crossref database.

Supramolecular Chemistry (2012)

Kitchen Jonathan A., Parkesh Raman, Veale Emma B., Gunnlaugsson Thorfinnur

Improved steady-state photoluminescence derived from the compensation of the charge-imbalance in Ca3Mg3(PO4)4:Eu3+ phosphor

Nair Govind B., Kumar Ashwini, Swart H.C., Dhoble S.J.

Ceramics International. 2019 45(17). p.21709

Fluorine‐18 Radiolabelling and Photophysical Characteristics of Multimodal PET–Fluorescence Molecular Probes

Klenner Mitchell A., Pascali Giancarlo, Massi Massimiliano, Fraser Benjamin H.

Chemistry – A European Journal. 2021 27(3). p.861

Inorganic Chemical Biology (2014)

Wang Qin, Franz Katherine J.

Inorganic Chemical Biology (2014)

Zhang Kenneth Yin, Lo Kenneth Kam‐Wing

ChemInform Abstract: Critical Desgin Factors for Optical Imaging with Metal Coordination Complexes

Parker David

ChemInform. 2011 42(30).

Luminescent probes for the bioimaging of small anionic species in vitro and in vivo

Ashton Trent D., Jolliffe Katrina A., Pfeffer Frederick M.

Chemical Society Reviews. 2015 44(14). p.4547

Synthesis, characterization, photophysical properties of lanthanide complexes with flexible tripodal carboxylate ligands

Chan Chi-Fai, Li Hongguang, Seto Chunyu, Tam Hoi-Lam, Law Ga-Lai, Wong Ka-Leung

Polyhedron. 2013 52 p.939

Foreword to the 39th International Conference on Coordination Chemistry Bioinorganic Research Front

Bernhardt Paul V.

Australian Journal of Chemistry. 2011 64(3). p.229

Energy transfer process in highly photoluminescent binuclear hydrocinnamate of europium, terbium and gadolinium containing 1,10-phenanthroline as ancillary ligand

Marques Lippy F., Cuin Alexandre, de Carvalho Gustavo S.G., dos Santos Molíria V., Ribeiro Sidney J.L., Machado Flávia C.

Inorganica Chimica Acta. 2016 441 p.67

“ON–OFF” switching of europium complex luminescence coupled with a ligand redox process

Yano Masafumi, Matsuhira Keisuke, Tatsumi Masakazu, Kashiwagi Yukiyasu, Nakamoto Masami, Oyama Munetaka, Ohkubo Kei, Fukuzumi Shunich, Misaki Hitomi, Tsukube Hiroshi

Chemical Communications. 2012 48(34). p.4082

New Trick for an Old Ligand! The Sensing of Zn(II) Using a Lanthanide Based Ternary Yb(III)-cyclen-8-hydroxyquinoline System As a Dual Emissive Probe for Displacement Assay

Comby Steve, Tuck Sarah A., Truman Laura K., Kotova Oxana, Gunnlaugsson Thorfinnur

Inorganic Chemistry. 2012 51(19). p.10158

Lanthanide-Aromatic Iminodiacetate Frameworks with Helical Tubes: Structure, Properties, and Low-Temperature Heat Capacity

Liu Ming-li, Shi Quan, Liu Lei-fang, Li Wen-bo

ACS Omega. 2021 6(15). p.10475

Effect of Lanthanide Complex Structure on Cell Viability and Association

Peterson Katie L., Dang Jonathan V., Weitz Evan A., Lewandowski Cutler, Pierre Valérie C.

Inorganic Chemistry. 2014 53(12). p.6013

Measuring Equilibrium Bicarbonate Concentrations Directly in Cellular Mitochondria and in Human Serum Using Europium/Terbium Emission Intensity Ratios

Smith David G, Pal Robert, Parker David

Chemistry – A European Journal. 2012 18(37). p.11604

Current Development of Lanthanide Complexes for Biomedical Applications

Wang Mengfei, Kitagawa Yuichi, Hasegawa Yasuchika

Chemistry – An Asian Journal. 2024 19(7).

Structural and Spectroscopic Properties of New Chiral Quinoline‐based Ln(III) Complexes

Mihorianu Monica, Leonzio Marco, Monari Magda, Ravotto Luca, Ceroni Paola, Bettinelli Marco, Piccinelli Fabio

ChemistrySelect. 2016 1(9). p.1996

Progress with, and prospects for, metal complexes in cell imaging

Coogan Michael P., Fernández-Moreira Vanesa

Chem. Commun.. 2014 50(4). p.384

Lanthanide Probes for Bioresponsive Imaging

Heffern Marie C., Matosziuk Lauren M., Meade Thomas J.

Chemical Reviews. 2014 114(8). p.4496

Evidence for the optical signalling of changes in bicarbonate concentration within the mitochondrial region of living cells

Smith David G., Law Ga-lai, Murray Benjamin S., Pal Robert, Parker David, Wong Ka-Leung

Chemical Communications. 2011 47(26). p.7347

Bright lights down under: Metal ion complexes turning the spotlight on metabolic processes at the cellular level

Gillam Todd A., Sweetman Martin J., Bader Christie A., Morrison Janna L., Hayball John D., Brooks Doug A., Plush Sally E.

Coordination Chemistry Reviews. 2018 375 p.234

Recent Highlights in the use of Lanthanide-directed Synthesis of Novel Supramolecular (Luminescent) Self-assembly Structures such as Coordination Bundles, Helicates and Sensors

Lincheneau Christophe, Stomeo Floriana, Comby Steve, Gunnlaugsson Thorfinnur

Australian Journal of Chemistry. 2011 64(10). p.1315

Modulation of the organelle specificity in Re(i) tetrazolato complexes leads to labeling of lipid droplets

Bader Christie A., Brooks Robert D., Ng Yeap S., Sorvina Alexandra, Werrett Melissa V., Wright Phillip J., Anwer Ayad G., Brooks Douglas A., Stagni Stefano, Muzzioli Sara, Silberstein Morry, Skelton Brian W., Goldys Ewa M., Plush Sally E., Shandala Tetyana, Massi Massimiliano

RSC Adv.. 2014 4(31). p.16345

Inorganic and Organometallic Transition Metal Complexes with Biological Molecules and Living Cells (2017)

Dolan C., Burke C.S., Byrne A., Keyes T.E.

Investigating Intracellular Localisation and Cytotoxicity Trends for Neutral and Cationic Iridium Tetrazolato Complexes in Live Cells

Caporale Chiara, Bader Christie A., Sorvina Alexandra, MaGee Karen D. M., Skelton Brian W., Gillam Todd A., Wright Phillip J., Raiteri Paolo, Stagni Stefano, Morrison Janna L., Plush Sally E., Brooks Douglas A., Massi Massimiliano

Chemistry – A European Journal. 2017 23(62). p.15666

Formation of luminescent terbium(iii) self-assemblies from pyridyl bis-amidothioureas based ligands in MeOH and in water–DMSO solutions and their use in anion sensing application

Lincheneau Christophe, Duke Rebecca M., Gunnlaugsson Thorfinnur

Organic & Biomolecular Chemistry. 2012 10(30). p.6069

Rhenium tetrazolato complexes coordinated to thioalkyl-functionalised phenanthroline ligands: synthesis, photophysical characterisation, and incubation in live HeLa cells

Werrett Melissa V., Wright Phillip J., Simpson Peter V., Raiteri Paolo, Skelton Brian W., Stagni Stefano, Buckley Alysia G., Rigby Paul J., Massi Massimiliano

Dalton Transactions. 2015 44(47). p.20636

Dinuclear Au(i) N-heterocyclic carbene complexes derived from unsymmetrical azolium cyclophane salts: potential probes for live cell imaging applications

Wedlock Louise E., Barnard Peter J., Filipovska Aleksandra, Skelton Brian W., Berners-Price Susan J., Baker Murray V.

Dalton Transactions. 2016 45(30). p.12221

Nano optical probe samarium tetracycline complex for early diagnosis of histidinemia in new born children

Attia M.S.

Biosensors and Bioelectronics. 2017 94 p.81

Ultra-Sensitive Nano Optical Sensor Samarium-Doxycycline Doped in Sol Gel Matrix for Assessment of Glucose Oxidase Activity in Diabetics Disease

Tharwat Marwa M., Attia M. S., Alghamdi M. S., Mahros Amr M.

Journal of Fluorescence. 2017 27(5). p.1885

Combined Two‐Photon Excitation and d→f Energy Transfer in a Water‐Soluble IrIII/EuIII Dyad: Two Luminescence Components from One Molecule for Cellular Imaging

Baggaley Elizabeth, Cao Deng‐Ke, Sykes Daniel, Botchway Stanley W., Weinstein Julia A., Ward Michael D.

Chemistry – A European Journal. 2014 20(29). p.8898

Live cell imaging of lysosomal pH changes with pH responsive ratiometric lanthanide probes

Smith David G., McMahon Brian K., Pal Robert, Parker David

Chemical Communications. 2012 48(68). p.8520

Synthesis of luminescent homo-dinuclear cationic lanthanide cyclen complexes bearing amide pendant arms through the use of copper catalysed (1,3-Huisgen, CuAAC) click chemistry

Molloy Jennifer K., Kotova Oxana, Peacock Robert D., Gunnlaugsson Thorfinnur

Org. Biomol. Chem.. 2012 10(2). p.314

Photophysics of 1,8-naphthalimide/Ln(iii) dyads (Ln = Eu, Gd): naphthalimide → Eu(iii) energy-transfer from both singlet and triplet states

Plyusnin Victor F., Kupryakov Arkady S., Grivin Vyacheslav P., Shelton Alexander H., Sazanovich Igor V., Meijer Anthony J. H. M., Weinstein Julia A., Ward Michael D.

Photochemical & Photobiological Sciences. 2013 12(9). p.1666

Mechanisms Controlling the Cellular Accumulation of Copper Bis(thiosemicarbazonato) Complexes

Price Katherine Ann, Crouch Peter J., Volitakis Irene, Paterson Brett M., Lim SinChun, Donnelly Paul S., White Anthony R.

Inorganic Chemistry. 2011 50(19). p.9594

Interpretation of europium(III) spectra

Binnemans Koen

Coordination Chemistry Reviews. 2015 295 p.1

Cyclometalated iridium(III) complexes for life science

Caporale Chiara, Massi Massimiliano

Coordination Chemistry Reviews. 2018 363 p.71