Jill Venton
#173,294
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Jill Venton's AcademicInfluence.com Rankings
Jill Ventonchemistry Degrees
Chemistry
#5272
World Rank
#6422
Historical Rank
Analytical Chemistry
#236
World Rank
#243
Historical Rank
Physical Chemistry
#883
World Rank
#943
Historical Rank
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Chemistry
Jill Venton's Degrees
- PhD Chemistry University of North Carolina at Chapel Hill
- Bachelors Chemistry University of North Carolina at Chapel Hill
Why Is Jill Venton Influential?
(Suggest an Edit or Addition)According to Wikipedia, B. Jill Venton is a professor of chemistry at University of Virginia, where she serves as the department chair since 2019. Venton's research focuses on developing analytical chemistry methods to enable detection of molecules in the brain.
Jill Venton's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Review: Carbon nanotube based electrochemical sensors for biomolecules. (2010) (881)
- Detecting subsecond dopamine release with fast-scan cyclic voltammetry in vivo. (2003) (531)
- Recent trends in carbon nanomaterial-based electrochemical sensors for biomolecules: A review. (2015) (371)
- Psychoanalytical Electrochemistry: Dopamine and Behavior (2003) (332)
- Carbon nanotube-modified microelectrodes for simultaneous detection of dopamine and serotonin in vivo. (2007) (254)
- In vivo measurements of neurotransmitters by microdialysis sampling. (2006) (250)
- Cocaine Increases Dopamine Release by Mobilization of a Synapsin-Dependent Reserve Pool (2006) (223)
- Subsecond detection of physiological adenosine concentrations using fast-scan cyclic voltammetry. (2007) (181)
- Carbon-fiber microelectrodes for in vivo applications. (2009) (160)
- Real‐time decoding of dopamine concentration changes in the caudate–putamen during tonic and phasic firing (2003) (155)
- Real‐time decoding of dopamine concentration changes in the caudate–putamen during tonic and phasic firing (2004) (152)
- Correlation of local changes in extracellular oxygen and pH that accompany dopaminergic terminal activity in the rat caudate–putamen (2003) (148)
- Response times of carbon fiber microelectrodes to dynamic changes in catecholamine concentration. (2002) (145)
- A role for presynaptic mechanisms in the actions of nomifensine and haloperidol (2003) (108)
- Carbon Nanotubes Grown on Metal Microelectrodes for the Detection of Dopamine (2015) (101)
- Analytical Techniques in Neuroscience: Recent Advances in Imaging, Separation, and Electrochemical Methods. (2017) (97)
- Functional groups modulate the sensitivity and electron transfer kinetics of neurochemicals at carbon nanotube modified microelectrodes. (2011) (97)
- Synapsins Differentially Control Dopamine and Serotonin Release (2010) (91)
- Fundamentals of fast-scan cyclic voltammetry for dopamine detection. (2020) (89)
- Rapid, sensitive detection of neurotransmitters at microelectrodes modified with self-assembled SWCNT forests. (2012) (87)
- Flame etching enhances the sensitivity of carbon-fiber microelectrodes. (2008) (86)
- Carbon nanopipette electrodes for dopamine detection in Drosophila. (2015) (82)
- High Temporal Resolution Measurements of Dopamine with Carbon Nanotube Yarn Microelectrodes (2014) (81)
- A genetically encoded sensor for measuring serotonin dynamics (2021) (76)
- Quantitative evaluation of serotonin release and clearance in Drosophila (2009) (71)
- Neurochemistry and electroanalytical probes. (2002) (69)
- 3D-Printed Carbon Electrodes for Neurotransmitter Detection. (2018) (68)
- Nafion-CNT coated carbon-fiber microelectrodes for enhanced detection of adenosine. (2012) (65)
- Laser Treated Carbon Nanotube Yarn Microelectrodes for Rapid and Sensitive Detection of Dopamine in Vivo. (2016) (65)
- Evaluation of carbon nanotube fiber microelectrodes for neurotransmitter detection: Correlation of electrochemical performance and surface properties. (2017) (64)
- Polyethylenimine Carbon Nanotube Fiber Electrodes for Enhanced Detection of Neurotransmitters (2014) (62)
- Fast-scan Cyclic Voltammetry for the Characterization of Rapid Adenosine Release (2014) (60)
- Characterization of Spontaneous, Transient Adenosine Release in the Caudate-Putamen and Prefrontal Cortex (2014) (58)
- Detection of endogenous dopamine changes in Drosophila melanogaster using fast-scan cyclic voltammetry. (2009) (57)
- Development of a novel micro biosensor for in vivo monitoring of glutamate release in the brain. (2019) (57)
- Recent advances in fast-scan cyclic voltammetry. (2020) (56)
- Sawhorse Waveform Voltammetry for Selective Detection of Adenosine, ATP, and Hydrogen Peroxide (2014) (56)
- Fast-scan cyclic voltammetry for the detection of tyramine and octopamine (2009) (51)
- Cavity Carbon-Nanopipette Electrodes for Dopamine Detection. (2019) (50)
- Electrochemical Properties of Different Carbon‐Fiber Microelectrodes Using Fast‐Scan Cyclic Voltammetry (2008) (50)
- Quantitation of dopamine, serotonin and adenosine content in a tissue punch from a brain slice using capillary electrophoresis with fast-scan cyclic voltammetry detection. (2013) (48)
- Nanodiamond Coating Improves the Sensitivity and Antifouling Properties of Carbon-Fiber Microelectrodes. (2019) (47)
- Adenosine Release Evoked by Short Electrical Stimulations in Striatal Brain Slices is Primarily Activity Dependent. (2010) (47)
- Analysis of biogenic amines in a single Drosophila larva brain by capillary electrophoresis with fast-scan cyclic voltammetry detection. (2011) (47)
- O2 Plasma Etching and Antistatic Gun Surface Modifications for CNT Yarn Microelectrode Improve Sensitivity and Antifouling Properties. (2017) (45)
- Carbon nanospikes grown on metal wires as microelectrode sensors for dopamine. (2015) (44)
- Fast Scan Cyclic Voltammetry as a Novel Method for Detection of Real-Time Gonadotropin-Releasing Hormone Release in Mouse Brain Slices (2012) (40)
- Review: New insights into optimizing chemical and 3D surface structures of carbon electrodes for neurotransmitter detection (2018) (40)
- Mechanical stimulation evokes rapid increases in extracellular adenosine concentration in the prefrontal cortex (2014) (40)
- Early changes in transient adenosine during cerebral ischemia and reperfusion injury (2018) (39)
- Both synthesis and reuptake are critical for replenishing the releasable serotonin pool in Drosophila (2010) (38)
- Electrochemistry at the Synapse. (2019) (38)
- Dynamic amino acid increases in the basolateral amygdala during acquisition and expression of conditioned fear (2006) (36)
- Carbon Nanohorn-Modified Carbon Fiber Microelectrodes for Dopamine Detection. (2018) (36)
- Optogenetic control of serotonin and dopamine release in Drosophila larvae. (2014) (36)
- The mechanism of electrically stimulated adenosine release varies by brain region (2013) (36)
- Comparison of Nafion- and overoxidized polypyrrole-carbon nanotube electrodes for neurotransmitter detection (2011) (35)
- Carbon nanospikes have better electrochemical properties than carbon nanotubes due to greater surface roughness and defect sites. (2019) (34)
- Fast-Scan Cyclic Voltammetry (FSCV) Detection of Endogenous Octopamine in Drosophila melanogaster Ventral Nerve Cord. (2016) (34)
- Correlation of transient adenosine release and oxygen changes in the caudate‐putamen (2017) (34)
- Analysis of Neurotransmitter Tissue Content of Drosophila melanogaster in Different Life Stages (2014) (33)
- A1 receptors self-regulate adenosine release in the striatum: evidence of autoreceptor characteristics (2010) (33)
- Epoxy insulated carbon fiber and carbon nanotube fiber microelectrodes. (2013) (32)
- Mechanism of Histamine Oxidation and Electropolymerization at Carbon Electrodes. (2019) (30)
- Clearance of rapid adenosine release is regulated by nucleoside transporters and metabolism (2015) (29)
- Drosophila Dopamine2-like receptors function as autoreceptors. (2011) (29)
- Regional Variations of Spontaneous, Transient Adenosine Release in Brain Slices. (2017) (28)
- Communication-Carbon Nanotube Fiber Microelectrodes for High Temporal Measurements of Dopamine. (2018) (27)
- Strategies for enhancing remote student engagement through active learning (2021) (27)
- Drosophila as a Model System for Neurotransmitter Measurements. (2018) (26)
- 3D-Printed Carbon Nanoelectrodes for In Vivo Neurotransmitter Sensing. (2020) (25)
- Automated Algorithm for Detection of Transient Adenosine Release. (2017) (25)
- Quantification of Histamine and Carcinine in Drosophila melanogaster Tissues. (2016) (23)
- Electrochemical Measurements of Acetylcholine-Stimulated Dopamine Release in Adult Drosophila melanogaster Brains. (2018) (22)
- Kinetics of the dopamine transporter in Drosophila larva. (2013) (22)
- Microelectrode Sensing of Adenosine/Adenosine-5′-triphosphate with Fast-Scan Cyclic Voltammetry (2010) (20)
- Nicotinic acetylcholine receptor (nAChR) mediated dopamine release in larval Drosophila melanogaster (2018) (18)
- Comparison of dopamine kinetics in the larval Drosophila ventral nerve cord and protocerebrum with improved optogenetic stimulation (2015) (17)
- Complex sex and estrous cycle differences in spontaneous transient adenosine (2020) (17)
- Rapid determination of adenosine deaminase kinetics using fast-scan cyclic voltammetry. (2010) (17)
- Characterization of dopamine releasable and reserve pools in Drosophila larvae using ATP/P2X2‐mediated stimulation (2015) (16)
- Structural Similarity Image Analysis for Detection of Adenosine and Dopamine in Fast-Scan Cyclic Voltammetry Color Plots. (2020) (15)
- Caffeine Modulates Spontaneous Adenosine and Oxygen Changes during Ischemia and Reperfusion. (2018) (13)
- Influence of Geometry on Thin Layer and Diffusion Processes at Carbon Electrodes. (2021) (13)
- Transient Adenosine Release Is Modulated by NMDA and GABAB Receptors. (2017) (12)
- Comparison of spontaneous and mechanically-stimulated adenosine release in mice (2019) (12)
- Thin layer cell behavior of CNT yarn and cavity carbon nanopipette electrodes: Effect on catecholamine detection. (2020) (11)
- CD73 or CD39 deletion reveals different mechanisms of formation for spontaneous and mechanically-stimulated adenosine release and sex specific compensations in ATP degradation. (2020) (11)
- Erratum: Real-time decoding of dopamine concentration changes in the caudate-putamen during tonic and phasic firing (Journal of Neurochemistry (2003) 87 (1284-1295)) (2004) (11)
- Improving serotonin fast-scan cyclic voltammetry detection: new waveforms to reduce electrode fouling. (2020) (10)
- Carbon Nanotube-Based Microelectrodes for Enhanced Neurochemical Detection. (2017) (8)
- Dopaminergic learning and arousal circuits mediate opposing effects on alcohol consumption in Drosophila (2019) (8)
- Voltammetry (2020) (7)
- Electrochemical treatment in KOH renews and activates carbon fiber microelectrode surfaces (2021) (7)
- Optimization of graphene oxide-modified carbon-fiber microelectrode for dopamine detection. (2020) (7)
- Dietary yeast influences ethanol sedation in Drosophila via serotonergic neuron function (2020) (7)
- A1 and A2A receptors modulate spontaneous adenosine but not mechanically-stimulated adenosine in the caudate. (2020) (6)
- Spontaneous, transient adenosine release is not enhanced in the CA1 region of hippocampus during severe ischemia models (2021) (5)
- Novel carbon-fiber microelectrode batch fabrication using a 3D-printed mold and polyimide resin. (2016) (5)
- Different Electrochemical Behavior of Cationic Dopamine from Anionic Ascorbic Acid and DOPAC at CNT Yarn Microelectrodes. (2022) (4)
- Addition reaction and characterization of chlorotris(triphenylphosphine)iridium(I) on silicon(1 1 1) surfaces (2009) (4)
- Real-Time Measurement of Stimulated Dopamine Release in Compartments of the Adult Drosophila melanogaster Mushroom Body (2020) (4)
- Carbon microelectrodes with customized shapes for neurotransmitter detection: A review. (2022) (4)
- High performance, low cost carbon nanotube yarn based 3D printed electrodes compatible with a conventional screen printed electrode system (2017) (3)
- ghts into optimizing chemical and 3 D surface structures of carbon electrodes for neurotransmitter detection (2019) (3)
- Introduction to electrochemistry for health applications (2019) (3)
- Ring Finger Protein 11 (RNF11) Modulates Dopamine Release in Drosophila (2020) (3)
- Spontaneous Adenosine and Dopamine Cotransmission in the Caudate-Putamen Is Regulated by Adenosine Receptors. (2021) (3)
- Pannexin1 channels regulate mechanically stimulated but not spontaneous adenosine release (2022) (3)
- PEDOT: Nafion Coated Microelectrode Biosensor for in Vivo Monitoring of Glutamate Release in Brain (2017) (3)
- NGenE 2021: Electrochemistry Is Everywhere (2021) (3)
- Expanding University Student Outreach: Professional Development Workshops for Teachers Led by Graduate Students (2018) (3)
- Atomistic simulations of dopamine diffusion dynamics on a pristine graphene surface. (2021) (2)
- Carbon nanospike coated nanoelectrodes for measurements of neurotransmitters. (2021) (2)
- Dual-Channel Electrochemical Measurements Reveal Rapid Adenosine is Localized in Brain Slices. (2022) (2)
- Comparison of Polyethylenimine/CNT Fiber, Chlorosulfonic Acid/CNT Fiber, and CNT Yarn Microelectrodes for Neurotransmitter Detection (2017) (1)
- MPCVD-Grown Nanodiamond Microelectrodes with Oxygen Plasma Activation for Neurochemical Applications. (2022) (1)
- 3D printing for customized carbon electrodes. (2023) (1)
- Measurement of natural variation of neurotransmitter tissue content in red harvester ant brains among different colonies (2020) (1)
- ELECTROCHEMICAL DETECTION OF ADENOSINE IN VIVO (2015) (1)
- Fast‐Scan Cyclic Voltammetry (FSCV) Reveals Behaviorally Evoked Dopamine Release by Sugar Feeding in the Adult Drosophila Mushroom Body (2022) (1)
- Carbon Nanomaterials for Neuroanalytical Chemistry (2017) (1)
- Invited) Tunable CNT Fiber and Yarn Microelectrodes for Measurements of Different Neurochemicals (2017) (0)
- Book review. The Aeronauts (2019) (0)
- Virtual Issue Highlighting Selected Women Analytical Chemists. (2018) (0)
- Parkin Knockdown Modulates Dopamine Release in the Central Complex, but Not the Mushroom Body Heel, of Aging Drosophila. (2022) (0)
- SSRI antidepressants differentially modulate serotonin reuptake and release in Drosophila (2022) (0)
- Carbon Nanotubes Grown on Metal Microelectrodes for Dopamine Detection (2015) (0)
- Increasing the sensitivity of microelectrodes (2008) (0)
- Detection of adenosine in vitro and in vivo using fast-scan cyclic voltammetry at the same carbon-fiber microelectrode. (2014) (0)
- (Invited) New Carbon Electrodes for Neurochemistry (2019) (0)
- (Digital Presentation) In Vivo Electrochemical Measurement of Dopamine in Adult Drosophila Mushroom Body (2022) (0)
- Neurotransmission: Measuring Chemical Events (2008) (0)
- GESIAP: A Versatile Genetically Encoded Sensor-based Image Analysis Program (2022) (0)
- Structure and Dynamics of Adsorbed Dopamine on Solvated Carbon Nanotubes and in a CNT Groove (2022) (0)
- Ultrafast Electrophoretic Separations (2007) (0)
- Student Seminar Series (2012) (0)
- The mechanism of electrically stimulated adenosine release varies by brain region (2012) (0)
- Book review. Climate Change: A Very Short Introduction (2021) (0)
- Invited) New Methods to Fabricate Electrodes for Neurotransmitter Measurements (2017) (0)
- Characterizing Spontaneous Transient Adenosine Release (2012) (0)
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