Anand Vadlamani scite author profile

Anand Vadlamani

5Publications

32Citation Statements Received

42Citation Statements Given

How they've been cited

How they cite others

122

Affiliations

Purdue University West Lafayette, Purdue University System

Publications

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Synergistic bacterial inactivation by combining antibiotics with nanosecond electric pulses

Vadlamani

Detwiler

Dhanabal

et al. 2018

Appl Microbiol Biotechnol

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Antibiotic resistance mechanisms render current antibiotics ineffective, requiring higher concentrations of existing drugs or the development of more powerful drugs for infection treatment. This study demonstrates the synergistic inactivation of a gram-positive (Staphylococcus aureus) and a gram-negative (Escherichia coli) bacteria by combining either tobramycin or rifampicin with 300-ns electric pulses (EPs). For EPs depositing the same total energy density into the sample with no drug, higher electric fields induced greater inactivation, indicating a threshold for irreversible electroporation at these fields and membrane recovery in between lower intensity EPs. Synergistic inactivation generally increased with increasing drug concentration up to 20 μg/mL compared to strictly EP treatment. Combining even 1/20 of the clinical dose of tobramycin with a train of EPs induced between 2.5 and 3.5 log inactivation after only 10 min of exposure compared to hours to induce inactivation with a clinical dose with no EPs. Similarly, combining a train of EPs with a clinically relevant dose of rifampicin induced 7 to 9 log inactivation over the same time of exposure. These results indicate the promise of combining EPs with antibiotics to rapidly inactivate antibiotic-resistant bacteria in localized treatment areas.

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Roll‐to‐Roll (R2R) Production of Ultrasensitive, Flexible, and Transparent Pressure Sensors Based on Vertically Aligned Lead Zirconate Titanate and Graphene Nanoplatelets

Yildirim

Rahimi

Es‐haghi

et al. 2018

Adv Materials Technologies

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Despite extensive advances in the use of piezoelectric materials in flexible electronics, they have numerous shortcomings, including low efficiency, limited flexibility, and lack of transparency. Additionally, the production of these materials is often limited to small batch processes which are difficult to scale up for mass production. A novel method to produce ultrasensitive, high performance, flexible, and transparent piezoelectric materials where both lead zirconate titanate nanoparticles, and graphene nanoplatelets are aligned together in polydimethylsiloxane under an AC electric field in the thickness (“Z”) direction, is reported here for the first time. The electric field alignment improves the piezoelectric response along with transparency and also reduces the amount of filler required to achieve outstanding piezoelectric properties. The resulting ultrasensitive piezoelectric film is able to sense the pressure of a bird feather (1.4 mg) dropped from a certain distance, whereas at the touch of a fingertip, it can generate up to 8.2 V signal. Moreover, the mass production compatibility of the system is also demonstrated by producing a 3 m long and 15 cm wide large‐area sample via a novel 44′ long roll‐to‐roll manufacturing line which is designed and developed by the group.

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Electric pulse shape impact on biological effects: A modeling study

Garner

Maciejewski

Vadlamani

et al. 2015

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Nanosecond pulsed electric field interactions with microglia and astrocytes

Sommakia

Wyatt

Otto

et al. 2014

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Measurement of Electric Modification of Cell Suspension Conductivity During Treatment

Fairbanks

Darr

Vadlamani

et al. 2017

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Anand Vadlamani

Synergistic bacterial inactivation by combining antibiotics with nanosecond electric pulses

Roll‐to‐Roll (R2R) Production of Ultrasensitive, Flexible, and Transparent Pressure Sensors Based on Vertically Aligned Lead Zirconate Titanate and Graphene Nanoplatelets

Electric pulse shape impact on biological effects: A modeling study

Nanosecond pulsed electric field interactions with microglia and astrocytes

Measurement of Electric Modification of Cell Suspension Conductivity During Treatment

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