Privacy Statement

Privacy Statement

 |Authors|

The names, email addresses, and any private information entered in this journal (website) will be used exclusively for the stated purposes of this journal and will not be made available for any other purpose or shared with any third party, except where a third party is hired by our company.

This Privacy Policy governs the manner in which ACADEMIA SERDICA ACTA Ltd. collects, uses, maintains and discloses information collected from users (each, a “User”) of the http://ejnmee.eu/ website (“Site”). This privacy policy applies to the Site and all products and services offered by ACADEMIA SERDICA ACTA Ltd..

Personal identification information

We may collect personal identification information from Users in a variety of ways in connection with activities, services, features or resources we make available on our Site.. Users may visit our Site anonymously. We will collect personal identification information from Users only if they voluntarily submit such information to us. Users can always refuse to supply personally identification information, except that it may prevent them from engaging in certain Site related activities.

Non-personal identification information

We may collect non-personal identification information about Users whenever they interact with our Site. Non-personal identification information may include the browser name, the type of computer and technical information about Users means of connection to our Site, such as the operating system and the Internet service providers utilized and other similar information.

Web browser cookies

Our Site may use “cookies” to enhance User experience. User’s web browser places cookies on their hard drive for record-keeping purposes and sometimes to track information about them. User may choose to set their web browser to refuse cookies, or to alert you when cookies are being sent. If they do so, note that some parts of the Site may not function properly.

How we use collected information

ACADEMIA SERDICA ACTA Ltd. may collect and use Users personal information for the following purposes:

  • – To improve customer service
    Information you provide helps us respond to your customer service requests and support needs more efficiently.
  • – To personalize user experience
    We may use information in the aggregate to understand how our Users as a group use the services and resources provided on our Site.
  • – To improve our Site
    We may use feedback you provide to improve our products and services.
  • – To process payments
    We may use the information Users provide about themselves when placing an order only to provide service to that order. We do not share this information with outside parties except to the extent necessary to provide the service.
  • – To share your information with third parties
    We may share or sell information with third parties for marketing or other purposes.
  • – To run a promotion, contest, survey or other Site feature
    To send Users information they agreed to receive about topics we think will be of interest to them.
  • – To send periodic emails
    We may use the email address to send User information and updates pertaining to their order. It may also be used to respond to their inquiries, questions, and/or other requests. If User decides to opt-in to our mailing list, they will receive emails that may include company news, updates, related product or service information, etc. If at any time the User would like to unsubscribe from receiving future emails, they may do so by contacting us via our Site.

How we protect your information

We adopt appropriate data collection, storage and processing practices and security measures to protect against unauthorized access, alteration, disclosure or destruction of your personal information, username, password, transaction information and data stored on our Site.

Sharing your personal information

We may use third party service providers to help us operate our business and the Site or administer activities on our behalf, such as sending out newsletters or surveys. We may share your information with these third parties for those limited purposes provided that you have given us your permission.

Third party websites

Users may find advertising or other content on our Site that link to the sites and services of our partners, suppliers, advertisers, sponsors, licensors and other third parties. We do not control the content or links that appear on these sites and are not responsible for the practices employed by websites linked to or from our Site. In addition, these sites or services, including their content and links, may be constantly changing. These sites and services may have their own privacy policies and customer service policies. Browsing and interaction on any other website, including websites which have a link to our Site, is subject to that website’s own terms and policies.

Advertising

Ads appearing on our site may be delivered to Users by advertising partners, who may set cookies. These cookies allow the ad server to recognize your computer each time they send you an online advertisement to compile non personal identification information about you or others who use your computer. This information allows ad networks to, among other things, deliver targeted advertisements that they believe will be of most interest to you. This privacy policy does not cover the use of cookies by any advertisers.

Changes to this privacy policy

ACADEMIA SERDICA ACTA Ltd. has the discretion to update this privacy policy at any time. When we do, we will send you an email. We encourage Users to frequently check this page for any changes to stay informed about how we are helping to protect the personal information we collect. You acknowledge and agree that it is your responsibility to review this privacy policy periodically and become aware of modifications.

Your acceptance of these terms

By using this Site, you signify your acceptance of this policy. If you do not agree to this policy, please do not use our Site. Your continued use of the Site following the posting of changes to this policy will be deemed your acceptance of those changes.

Contacting us

If you have any questions about this Privacy Policy, the practices of this site, or your dealings with this site, please contact us at:
ACADEMIA SERDICA ACTA Ltd.
http://ejnmee.eu/
Sofia, Bulgaria
aserdicaacta@gmail.com

 

Latest Papers

    • Ludmil Fachikov 
      Amorphous Phosphate Coatings on Steel Surfaces – preparation and characterization 
    • M. Hristova
      Prediction of the flash point of ternary ideal mixtures
    • Book Review by Alfons G. Buekens, Luc Hens
      Environmental Engineering: Principles and Practice 
      By Richard O. Mines, Jr.
  • Breaking the temperature barrier in small-scale materials testing 25th February 2020
    Researchers have demonstrated a new method for testing microscopic aeronautical materials at ultra-high temperatures. By combining electron microscopy and laser heating, scientists can evaluate these materials much more quickly and inexpensively than with traditional testing.
  • Going super small to get super strong metals 24th February 2020
    You can't see them, but most of the metals around you—coins, silverware, even the steel beams holding up buildings and overpasses—are made up of tiny metal grains. Under a powerful enough microscope, you can see interlocking crystals that look like a granite countertop.
  • Directing nanoparticles straight to tumors 24th February 2020
    Modern anticancer therapies aim to attack tumor cells while sparing healthy tissue. An interdisciplinary team of researchers at Helmholtz-Zentrum Dresden-Rossendorf (HZDR) and FU Berlin has made important progress in this area: the scientists have produced tiny nanoparticles that are designed to specifically target cancer cells. They can navigate directly to the tumor cells and visualize […]
  • Watching magnetic nano 'tornadoes' in 3-D 24th February 2020
    Scientists have developed a three-dimensional imaging technique to observe complex behaviours in magnets, including fast-moving waves and 'tornadoes' thousands of times thinner than a human hair.
  • New gold nanocatalyst: High catalytic activity and excellent stability 24th February 2020
    A joint research team led by Prof. Huang Jiahui and Prof. Qiao Botao from the Dalian Institute of Chemical Physics (DICP) of the Chinese Academy of Sciences (CAS), as well as Prof. Sun Keju from Yanshan University, developed an anti-sintering gold nanocatalyst with high catalytic activity. The results were published in Nature Communications.
  • Large-area electronic-grade graphene grows on the cheap 24th February 2020
    The electronics industry might look very different today were it not for the dramatic drop in cost of high-quality single-crystalline silicon wafers over the past five decades. So what would happen if the cost of single-crystalline graphene took a similarly significant plunge? Results reported in ACS Nano may bring this closer to reality, as they […]
  • DNA nanostructures suit up for future missions 24th February 2020
    Beating cancer and a plethora of other diseases does not only depend on getting hold of the right drugs—it's also about getting them to the right places in the body, while keeping damage to healthy tissues at a minimum. DNA nanostructures such as self-assembling DNA origami that fold into defined shapes are promising vehicles for […]
  • A combination of plant-based particles and water forms an 'eco-glue' 24th February 2020
    In a study published in Advanced Materials, researchers at Aalto University, the University of Tokyo, Sichuan University and the University of British Columbia have demonstrated that plant-derived cellulose nanocrystals (CNCs) can form an adhesive that fully integrates the concepts of sustainability, performance and cost, which are generally extremely challenging to achieve simultaneously.
  • Researchers develop high-capacity EV battery materials that double driving range 21st February 2020
    Dr. Hun-Gi Jung and his research team at the Center for Energy Storage Research of the Korea Institute of Science and Technology (KIST, President Lee Byung Gwon) have announced the development of silicon anode materials that can increase battery capacity four-fold in comparison to graphite anode materials and enable rapid charging to more than 80% […]
  • Black phosphorous tunnel field-effect transistor as an ultra-low power switch 21st February 2020
    Researchers have reported a black phosphorus transistor that can be used as an alternative ultra-low power switch. A research team led by Professor Sungjae Cho in the KAIST Department of Physics developed a thickness-controlled black phosphorous tunnel field-effect transistor (TFET) that shows 10-times lower switching power consumption as well as 10,000-times lower standby power consumption […]