Deepak K. Sharma scite author profile

The need to monitor, measure, and control sub-visible proteinaceous particulates in biopharmaceutical formulations has been emphasized in recent publications and commentaries. Some of these particulates can be highly transparent, fragile, and unstable. In addition, for much of the size range of concern, no practical measurement method with adequate sensitivity and repeatability has been available. A complication in measuring protein particulates in many formulations is the simultaneous presence of other particle types such as silicone micro-droplets, air bubbles, and extrinsic contaminants. The need has therefore been identified for new analytical methods which can accurately measure and characterize sub-visible particulates in formulations. Micro-flow imaging has been shown to provide high sensitivity in detecting and imaging transparent protein particles and a unique capability to independently analyze such populations even when other particle types are present.

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Quantitation of protein particles in parenteral solutions using micro-flow imaging

Huang

Sharma²,

Oma³

et al. 2009

Journal of Pharmaceutical Sciences

115

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Quantification and Characterization of Subvisible Proteinaceous Particles in Opalescent mAb Formulations Using Micro-Flow Imaging

Sharma¹,

Oma²,

Pollo

et al. 2010

Journal of Pharmaceutical Sciences

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Electrical transport and low-frequency noise in chemical vapor deposited single-layer MoS₂ devices

et al. 2014

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We have studied temperature-dependent (77-300 K) electrical characteristics and low-frequency noise (LFN) in chemical vapor deposited (CVD) single-layer molybdenum disulfide (MoS2) based back-gated field-effect transistors (FETs). Electrical characterization and LFN measurements were conducted on MoS2 FETs with Al2O3 top-surface passivation. We also studied the effect of top-surface passivation etching on the electrical characteristics of the device. Significant decrease in channel current and transconductance was observed in these devices after the Al2O3 passivation etching. For passivated devices, the two-terminal resistance variation with temperature showed a good fit to the activation energy model, whereas for the etched devices the trend indicated a hopping transport mechanism. A significant increase in the normalized drain current noise power spectral density (PSD) was observed after the etching of the top passivation layer. The observed channel current noise was explained using a standard unified model incorporating carrier number fluctuation and correlated surface mobility fluctuation mechanisms. Detailed analysis of the gate-referred noise voltage PSD indicated the presence of different trapping states in passivated devices when compared to the etched devices. Etched devices showed weak temperature dependence of the channel current noise, whereas passivated devices exhibited near-linear temperature dependence.

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Deepak K. Sharma

Classification of Protein Aggregates1

Micro-Flow Imaging: Flow Microscopy Applied to Sub-visible Particulate Analysis in Protein Formulations

Quantitation of protein particles in parenteral solutions using micro-flow imaging

Quantification and Characterization of Subvisible Proteinaceous Particles in Opalescent mAb Formulations Using Micro-Flow Imaging

Electrical transport and low-frequency noise in chemical vapor deposited single-layer MoS₂ devices

Contact Info

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Resources

About

Deepak K. Sharma

Classification of Protein Aggregates1

Micro-Flow Imaging: Flow Microscopy Applied to Sub-visible Particulate Analysis in Protein Formulations

Quantitation of protein particles in parenteral solutions using micro-flow imaging

Quantification and Characterization of Subvisible Proteinaceous Particles in Opalescent mAb Formulations Using Micro-Flow Imaging

Electrical transport and low-frequency noise in chemical vapor deposited single-layer MoS2 devices

Contact Info

Product

Resources

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Electrical transport and low-frequency noise in chemical vapor deposited single-layer MoS₂ devices