Work with thought leaders and academic experts in Nanomedicine

My name's Dr. Arfat-an expert scientist and writer from Pakistan. Main area of my research interest includes: 1\. Pharmaceutics 2\. Microbiology 3\. Clinical Pharmacy Here are my main services in which I'm expert in, although they're not certainly limited to the below: \- Scientific & technical writing \- Research Methodology development \- Clinical research \- Product/formulation development \- In\-vitro and in\-vivo assays development \- Research Data compilation \- Statistical analysis

**Vuk Uskoković, PhD, MSc, MS, BSc, is a Serbian-Slovenian-American scientist, educator and multimedia artist, currently a lecturer in engineering at San Diego State University, a visiting professor at University of Montenegro and the Cofounder and Chief Scientific Officer at TardigradeNano LLC, a zero-profit biotech startup, think tank and educational and social advocacy powerhouse, all under one hat, located in Irvine, California. Dr. Uskoković holds degrees in physical chemistry (BSc & MS), materials science and engineering (MSc), and nanoscience and nanotechnologies (PhD), and has completed postdoctoral trainings in colloid chemistry, fine particle synthesis, biomimetics, tissue engineering and controlled drug delivery. Prior to his current appointments, he was a professor in the schools of engineering, pharmacy and medicine at the University of California in Irvine, Chapman University and University of Illinois in Chicago, respectively, where he ran research labs and taught a variety of subjects, including biomaterials, nanophysics, medical devices, biologics, bio-optics, and other. He was also a principal investigator and a research scientist at University of California in San Francisco, Clarkson University in New York, Jožef Stefan Institute in Slovenia, and the Serbian Academy of Sciences and Arts. Dr. Uskoković’s research, which resulted in over 200 authored publications, provided major contributions to the scientific understanding of a number of critical phenomena from physical and biological sciences. Many of Dr. Uskoković’s discoveries have originated from the enthusiasm to address the pressing medical needs of humanity, particularly in the domains of targeted drug delivery, bone tissue engineering, and next-generation antimicrobial and anticancer therapies. Dr. Uskoković is the recipient of the prestigious Pathway to Independence Award from the National Institutes of Health and a prolific author of research papers, reviews and essays throughout his decades-long scientific career. A true renaissance scientist, Dr. Uskoković has also been a lifelong advocate of the union between natural sciences, arts and humanities. A quintessential contribution to this interdisciplinary venture came through his pioneering work on treating scientific paper as a medium for combined displays of analytical rigor, scientific novelty, humanistic values and artistic expression.**

Greetings! I'm a dedicated scientist with a strong background. I drive strategic initiatives and cutting-edge research in materials, nanotech, photonics, magnetism, and medical physics. My non-linear journey weaves creativity, innovation, perseverance, and resilience into the fabric of discovery, resonating with experts and enthusiasts. As a detail-oriented, data-driven innovator & and problem solver, I thrive on pushing the boundaries of possibilities. My expertise spans a wide spectrum, from short-term projects to large-scale endeavors, where I bring a wealth of experience in nanotech product & process development, optimization, data analysis, & quality assurance while focusing on translating novel approaches into affordable valuable products. <br> 𝐏𝐫𝐨𝐟𝐞𝐬𝐬𝐢𝐨𝐧𝐚𝐥 𝐇𝐢𝐠𝐡𝐥𝐢𝐠𝐡𝐭𝐬 \- 14 research studies across 10 projects\, authored 23 articles & 12 chapters\, presented 26 Posters/invites & edited 1 Book \- Managed 35\+ personnel and contributed to projects worth $550\,000 across the teams \- Recipient of 7 awards💰secured $65\,000 as grants \- Collaborated 8 centers globally 𝐓𝐫𝐚𝐧𝐬𝐟𝐞𝐫𝐚𝐛𝐥𝐞 𝐒𝐤𝐢𝐥𝐥𝐬 \- Project management & independence\, Strategic planning\, Decision\-making\, & cross\-functional collaboration \- Problem Solving\, Qualitative & quantitative analytics \- Subject Matter expertise\, Knowledge Management & Tech Writing \- Method design\, validation\, & implementation\, Quality assurance and standardization\, & financial acumen 𝐓𝐞𝐜𝐡𝐧𝐢𝐜𝐚𝐥 𝐄𝐱𝐩𝐞𝐫𝐭𝐢𝐬𝐞 -Proficient in Wet Chemistry & BSL-2 Lab, Experiment & SOP Design Skilled in Photonics and optical metrology, Microscopy (TEM/EPMA, FIB-SEM), XRD, DLS, FTIR, TGA, Magnetometers, Magnetic & Laser Calorimetry, Radiation dosimetry, & Instrument design. Familiar with ultrasound, FMT, micro-CT imaging-based treatment planning & PK/PD, bio+radiation safety Data Analysis & simulation using 🖥️Python, MATLAB, R, Quantum Expresso & COMSOL. 𝐖𝐡𝐚𝐭 𝐈 𝐁𝐫𝐢𝐧𝐠 Proven leadership with technical prowess and unwavering ethical standards. Thrilled to tackle challenges, I bring a commitment that significantly contributes to any team.

Matthias Steiert has extensive experience with nano-scale systems both for the development of drug delivery systems and diagnostics particularly in the areas of cancer and antimicrobial disease diagnostics. He is also a consultant for various companies involved in nanotechnological applications and is cofounder of Afaf Translations LLC, a scientific language service provider. Previously, he was co-founder of Los Gatos Pharmaceuticals and before held a position as Senior Director of R&D at Matrix Sensors Inc. and prior to that 10 years of senior-level research positions at several biotechnology companies in the fields of nanotechnology, drug development, diagnostics, and blood safety in the San Francisco Bay Area. Earlier in his career, Matthias was Senior Scientist at GlaxoSmithKline (Italy), a research fellow at the National Institute of Health and Environment (The Netherlands), and a consultant for the World Health Organization. He received his postdoctoral training from the University of California, Berkeley. Matthias holds a degree in plant physiology from the University of Freiburg (Germany) and obtained his Ph.D. in biochemistry from the University of Basel (Switzerland).

Resourceful and highly enthusiastic research scientist with a diverse cultural and multidisciplinary background. A valuable team player having contributed to scientific research on fundamental and translational projects in the UK, Italy and the USA. I’m also an effective communicator who enjoys collaborating with, training and learning from colleagues. I have focused my career around four heavily interconnected fields: Visual Neuroscience, Neuro-electronic interfacing, retinal rescue and microscopy. Visual Neuroscience: Focused on elucidated the intricacies of the visual system, I have investigated retinal and cortical circuits using a variety of approaches, including in vivo electrophysiology, ex vivo optophysiology/Multi-electrode arrays, and immunohistochemistry. My contributions focused mostly on the influence of melanopsin signaling in retinal coding. Neuro-electronic interfacing: Dedicated to the seamless integration of neural tissue (neurons, glia, vascular system) with computational equipment (electrodes, nano-particles, optogenetics, chemogenetics), I have investigated the biophysical, molecular and ultra-structural properties of this interface in both fundamental and translational projects. Retinal rescue: Dedicated to the study and treatment of retinal dystrophies, I have worked on an array of degeneration models (Diabetic Retinopathy, P23H, CRX, RD1, RS1, RD10, RCS), and investigated cutting edge treatment strategies (optogenetics, nano-particles, bio-electronic prostheses, low molecular weight compounds, biologics). Microscopy: For the past 15 years, I have been at the forefront of developing cutting-edge structural and neurophysiological imaging techniques. These innovative assays have been successfully applied across a diverse spectrum of scales: from investigating intricate biological interactions at the nanoscopic level using electron microscopy to mapping the complex neuro-glio-vascular interactions of hundreds of retinal cells through multiphoton imaging.